aá <?ñ•n}ã"ñ(QAÀ°A1l\üíÝ ü ìäÔ [KŸ ã ™ã„jpenlOryza sativa,Rice,Drainage,Root condition,Redox,Nitrogen,Yield formation,Translocation,Cytokinins,SenescenceenHYield formation in rice in re„%Den@WheatDrought resistanceOsmoregulationOsmotic AdjustmentYieldhen_asciimConsistent differences among wheat cultivars in osmotic adjustment and their relationship to plant productionenmConsistent differences among wheat cultivars in osmotic adjustment and their relationship to plant productionFLA287&Blum, A.Zhang, JingxianNguyen, H.T.enARRAY(0x899aa8)3abbS037842909900064&Blum, A.Zhang, JingxianNguyen, H.T.29119991264Den@WheatDrought resistanceOsmoregulationOsmotic AdjustmentYield23108803784290S037842909900064„s7en3Grain yieldWheatZinc concentrationZinc nutrition‚ en_asciiGrain yield, zinc efficiency and zinc concentration of wheat cultivars grown in a zinc-deficient calcareous soil in field and greenhouseenGrain yield, zinc efficiency and zinc concentration of wheat cultivars grown in a zinc-deficient calcareous soil in field and greenhouseFLA87?Kalayci, M. Torun, B.Eker, S. Aydin, M. Ozturk, L. Cakmak, I.enARRAY(0x8c1de8)1S037842909900028?Kalayci, M. Torun, B.Eker, S. Aydin, M. Ozturk, L. Cakmak, I.98199907637en3Grain yieldWheatZinc concentrationZinc nutrition11958903784290S037842909900028…*enSugar beetBeet yellows virusBeet mild yellowing virusLeaf area growthLeaf area indexLight interceptionYieldDamageModellingren_asciirEffects of beet yellows virus and beet mild yellowing virus on leaf area dynamics of sugar beet (Beta vulgaris L.)enrEffects of beet yellows virus and beet mild yellowing virus on leaf area dynamics of sugar beet (Beta vulgaris L.)FLA163"de Koeijer, K.J.van der Werf, W.enARRAY(0x734224)2S037842909800155"de Koeijer, K.J.van der Werf, W.17719990461enSugar beetBeet yellows virusBeet mild yellowing virusLeaf area growthLeaf area indexLight interceptionYieldDamageModelling8247303784290S037842909800155ƒ(EenAArsenicBioavailabilityCadmiumContaminantMercuryLeadSeleniumjen_ascii.Metals and micronutrients - food safety issuesen.Metals and micronutrients - food safety issuesFLA143+McLaughlin, M.J.Parker, D.R.Clarke, J.M.enARRAY(0x78a438)1-2S037842909800137+McLaughlin, M.J.Parker, D.R.Clarke, J.M.16319990160EenAArsenicBioavailabilityCadmiumContaminantMercuryLeadSelenium03784290S037842909800137ƒ=‚en_ascii}Peroxidase isozyme variants as genetic markers for early evaluation of Fe-efficiency and Fe-nutritional status in maize linesen}Peroxidase isozyme variants as genetic markers for early evaluation of Fe-efficiency and Fe-nutritional status in maize linesFLA181,El-Bendary, A.A.Mabrouk, Y.El-Metainy, A.enARRAY(0x705c5c)3S037842909800119,El-Bendary, A.A.Mabrouk, Y.El-Metainy, A.1851998125903784290S037842909800119„OenKPhyllochron,Leaf number,Tiller appearance,Thermal time,Triticum aestivum L.6en_asciiTLeaf development of spring wheat cultivars in an irrigated heat-stressed environmentenTLeaf development of spring wheat cultivars in an irrigated heat-stressed environmentFLA167(Ishag, H.M. 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Matsui, T.Namuco, O.S.Ziska, L.H. Horie, T.1-2S037842909700066. Matsui, T.Namuco, O.S.Ziska, L.H. Horie, T.1891998015503784290S037842909700066„[enWGrain legume,Mediterranean environment,Canopy development,Radiation interception,Growth‚,enGrain legume species in low rainfall Mediterranean-type environments II. Canopy development, radiation interception, and dry-matter productionen_asciiGrain legume species in low rainfall Mediterranean-type environments II. Canopy development, radiation interception, and dry-matter productionFLA189 Thomson, B.D.Siddique, K.H.M.enARRAY(0x621af0)2-3S037842909700048 Thomson, B.D.Siddique, K.H.M.19919970954[enWGrain legume,Mediterranean environment,Canopy development,Radiation interception,Growth03784290S037842909700048ƒETenPInclined-point quadrats,Leaf area index,LAI,Laser probe,Chlorophyll fluorescence$enKMinimizing errors in LAI estimates from laser-probe inclined-point quadratsen_asciiKMinimizing errors in LAI estimates from laser-probe inclined-point quadratsFLA231 Denison, R.F.enARRAY(0x6b61d0)3S037842909603460 Denison, R.F.24019970451TenPInclined-point quadrats,Leaf area index,LAI,Laser probe,Chlorophyll fluorescence03784290S037842909603460[ren2Genes for the Future: Discovery, Ownership, Accessen_ascii2Genes for the Future: Discovery, Ownership, AccessBRV280Thompson, P.B.2-3S037842909601048Thompson, P.B.2811997024903784290S037842909601048ƒZ=en9Development,Temperature,Triticum aestivum,Yield stabilityNen`Phasic development of spring wheat and stability of yield and its components in hot environmentsen_ascii`Phasic development of spring wheat and stability of yield and its components in hot environmentsFLA169Ishag, H.M. 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Mohamed, B.A.17619960646=en9Development,Temperature,Triticum aestivum,Yield stability03784290037842909500100 ñÛÌ0!‹|[KœŒŽ~“ƒjZeU Ž ~M= òH8½ÖÖ O„*/en+Biomass,Canola,Drought,Indian mustard,Yield‚en_asciiComparative adaptation of canola (Brassica napus) and Indian mustard (B. juncea) to soiE^en(Soil Conservation, Stubble Over the Soilen_ascii(Soil Conservation, Stubble Over the SoilBRV287 Simmons, S.R.3S0378429ƒUIenECompetitionEvolutionarily stable strategyGrowth redundancyIdeotypeen_asciiDDonald's ideotype and growth redundancy: a game theoretical analysisenDDonald's ideotype and growth redundancy: a game theoretical analysisFLA179$Da-Yong, Z.Guo-Jun, S.Xin-Hua, J.enARRAY(0x7cce84)2S037842909800156$Da-Yong, Z.Guo-Jun, S.Xin-Hua, J.18719990461IenECompetitionEvolutionarily stable strategyGrowth redundancyIdeotype8247303784290S037842909800156„y>en9Micronutrient malnutritionCost-benefit analysisPlant breedingTrace-mineral-dense seedsZinc-deficient soilsStaple food cropsDeveloping countriesTurkeyCGIAR micronutrients projecten_ascii;Economics of enhanced micronutrient density in food staplesen;Economics of enhanced micronutrient density in food staplesFLA165Bouis, H.E.enARRAY(0x7b4bec)1-2S037842909800138Bouis, H.E.17319990160>en9Micronutrient malnutritionCost-benefit analysisPlant breedingTrace-mineral-dense seedsZinc-deficient soilsStaple food cropsDeveloping countriesTurkeyCGIAR micronutrients project03784290S037842909800138…(|enxChickpea,Cicer arietinum L.,Length-to-weight-ratio (LWR),Modeling,Oxygen deficiency,Root growth simulation,Soil aerationfen_asciilLength to weight ratio of chickpea roots under progressively receding soil moisture conditions in a VertisolenlLength to weight ratio of chickpea roots under progressively receding soil moisture conditions in a VertisolFLA1774Krishnamurthy, L.Ito, O.Johansen, C.Saxena, N.P.enARRAY(0xb75678)3S0378429098000934Krishnamurthy, L.Ito, O.Johansen, C.Saxena, N.P.18519980958|enxChickpea,Cicer arietinum L.,Length-to-weight-ratio (LWR),Modeling,Oxygen deficiency,Root growth simulation,Soil aeration5880903784290S037842909800093„9FenBBoron,Cold temperature,Grain set,Sterility,Triticum aestivum,WheatZen_asciifCold temperatures and boron deficiency caused grain set failure in spring wheat (Triticum aestivum L.)enfCold temperatures and boron deficiency caused grain set failure in spring wheat (Triticum aestivum L.)FLA277;Subedi, K.D. Gregory, P.J.Summerfield, R.J. Gooding, M.J.enARRAY(0x96082c)3S037842909700148;Subedi, K.D. Gregory, P.J.Summerfield, R.J. Gooding, M.J.28819980657FenBBoron,Cold temperature,Grain set,Sterility,Triticum aestivum,Wheat03784290S037842909700148„/LenHSupplemental irrigation,Labelled N fertilizer,Water-use efficiency,Wheat~en_asciixNitrogen and water effects on wheat yield in a Mediterranean-type climate I. Growth, water-use and nitrogen accumulationenxNitrogen and water effects on wheat yield in a Mediterranean-type climate I. 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Rao, M.R.Smithson, P.C.Coe, R.7219980155,en'Agroforestry,Alley cropping,Hedgerow intercropping,Maize (Zea mays),Leucaena leucocephala,Tree fodder,Semiarid tropics,Nutrient budgets,Economic returns,Sustainability03784290S037842909700067†en Brassica napus,Canola,Dry matter,Fertilizer use-efficiency,Nitrogen,Oil concentration,Mobilization,Redistribution,Seed yield,Yield components‚BenThe response of dryland canola to nitrogen fertilizer: partitioning and mobilization of dry matter and nitrogen, and nitrogen effects on yield componentsen_asciiThe response of dryland canola to nitrogen fertilizer: partitioning and mobilization of dry matter and nitrogen, and nitrogen effects on yield componentsFLA201( Hocking, P.J. Randall, P.J.DeMarco, D.enARRAY(0x61d02c)2-3S037842909700049( Hocking, P.J. Randall, P.J.DeMarco, D.22019970954en Brassica napus,Canola,Dry matter,Fertilizer use-efficiency,Nitrogen,Oil concentration,Mobilization,Redistribution,Seed yield,Yield components03784290S037842909700049ƒi@enGenotype×environment interactionGenotype×environment interaction$S037842900000130SemiaridSemiaridSemiarid2S037842900000126Organic manuresOrganic manuresOrganic manures7"S037842909800139S037842900000105 Genotypes GenotypesGenotypesfS037842909603460S037842909601064S037842909800162S037842909700079S037842909900069S037842900000107Chlorophyll fluorescenceChlorophyll fluorescenceChlorophyll fluorescenceNS037842900000116Canopy extinction coefficientCanopy extinction coefficientCanopy extinction coefficientBS037842900000114Mixing ability analysisMixing ability analysisMixing ability analysis;"S037842909900023S037842900000110DefoliationDefoliationDefoliationKS037842900000109Biological N2 fixation!Biological N₂ fixationBiological N₂ fixation'S037842900000113Mucuna MucunaMucuna S037842909800126OvulesOvulesOvules.S037842900000083 Biotic stress Biotic stressBiotic stress1"S037842900000073S037842909900076SesameSesameSesame8!S037842900000077037842909600042 Cane yield Cane yieldCane yield0S037842900000081Shedding habitShedding habitShedding habit"S037842900000071CalciumCalciumCalcium:S037842900000079Breadmaking qualityBreadmaking qualityBreadmaking qualityRS037842900000075INS, indigenous nitrogen supplyINS, indigenous nitrogen supplyINS, indigenous nitrogen supply>S037842900000067R, Rainfed TreatmentsR, Rainfed TreatmentsR, Rainfed Treatments@S037842900000067DAS, Days After SowingDAS, Days After SowingDAS, Days After SowingfS037842909900078)[Chl], Chlorophyll concentration estimate)[Chl], Chlorophyll concentration estimate[Chl], Chlorophyll concentration estimateg"S037842909900077S037842909900078gs, Stomatal conductance*g_s, Stomatal conductanceg_s, Stomatal conductance,S037842909900084Soil aciditySoil aciditySoil acidityfS037842909900080S037842909900081S037842909900083S037842909900084S037842909900090S037842909900091 RhizobiumRhizobiumRhizobium@S037842909900087Endophytic diazotrophsEndophytic diazotrophsEndophytic diazotrophs"S037842909900061ShadingShadingShading\S037842909900049$Genotype by environment interactions$Genotype by environment interactionsGenotype by environment interactions<S037842909900052Alcohol fermentationAlcohol fermentationAlcohol fermentation:S037842909900031Nutrient efficiencyNutrient efficiencyNutrient efficiencyDS037842909900018Early-maturing cultivarsEarly-maturing cultivarsEarly-maturing cultivars<S037842909900021Secondary vegetationSecondary vegetationSecondary vegetationVS037842909800162!Photosynthetic electron transport!Photosynthetic electron transportPhotosynthetic electron transportBS037842909800152Oryza glaberrima Steud.Oryza glaberrima Steud.Oryza glaberrima Steud. S037842909800130SurveySurveySurveyS037842909800130MapMapMap2S037842909800108Self-similaritySelf-similaritySelf-similarity1"S037842909700063S037842909800106OxisolOxisolOxisol.S037842909800105 Yield barrier Yield barrierYield barrier6S037842909800105Nitrogen dilutionNitrogen dilutionNitrogen dilutionRS037842909800103Floret development and survivalFloret development and survivalFloret development and survival\S037842909800100$Intercrop fertilizer recommendations$Intercrop fertilizer recommendationsIntercrop fertilizer recommendationsBS037842909800100Smallholder agricultureSmallholder agricultureSmallholder agriculture2S037842909800100Southern AfricaSouthern AfricaSouthern AfricaO"S037842909900031S037842…2FLA85U Asseng, S.Jamieson, P.D.Kimball, B. Pinter, P. Sayre, K.Bowden, J.W.Howden, S.M.enARRAY(0x7896a8)2-3[DOI] 10.1016/S037842900300154U Asseng, S.Jamieson, P.D.Kimball, B. Pinter, P. Sayre, K.Bowden, J.W.Howden, S.M.1022004021085GenCSimulationModellingWheat cropYieldClimate changeCO₂16270903784290[DOI] 10.1016/S037842900300154ƒQ2 fixationCrop modelling31315003784290S037842900200221 <en_asciiINSTRUCTIONS TO AUTHORSenINSTRUCTIONS TO AUTHORSPUB831S0378429003000138620030210819453103784290S037842900300013‡enCanolaIndian mustardLinseedLinolaNitrogenNitrogen harvest indicesNitrogen removalNitrogen uptakeNitrogen use-efficiencySoil nitrogenWheat‚ten_ascii2Comparison of canola, Indian mustard and Linola in two contrasting environments - III. Effects of nitrogen fertilizer on nitrogen uptake by plants and on soil nitrogen extractionen2Comparison of canola, Indian mustard and Linola in two contrasting environments - III. 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Silva, T.U.K.Pathirana, P.D.enARRAY(0x1c4ad8)1[DOI] 10.1016/j.fcr.2004.05.00=Rodrigo, V.H.L.Stirling, C.M. Silva, T.U.K.Pathirana, P.D.332005011491EenAAgro-forestryRubber-banana intercroppingRubber growth and yield03784290[DOI] 10.1016/j.fcr.2004.05.00„plenhSustainability indicesChemical fertilizersGreen manureCropping systemRice-wheatIndo-Gangetic plainsfen_asciilRice-wheat cropping system: assessment of sustainability under green manuring and chemical fertilizer inputsenlRice-wheat cropping system: assessment of sustainability under green manuring and chemical fertilizer inputsFLA15'Yadav, R.L. Dwivedi, B.S.Pandey, P.S.enARRAY(0xc7272c)1S037842909900066'Yadav, R.L. Dwivedi, B.S.Pandey, P.S.3020000265lenhSustainability indicesChemical fertilizersGreen manureCropping systemRice-wheatIndo-Gangetic plains15016803784290S037842909900066„ZVenRBradyrhizobiumDroughtNitrogen fixationRhizobiumSoil acidityTemperature stressgen_asciigEnvironmental factors affecting N2 fixation in grain legumes in the tropics, with an emphasis on BrazilenrEnvironmental factors affecting N₂ fixation in grain legumes in the tropics, with an emphasis on BrazilFLA151(Hungria, MariangelaVargas, Milton A.T.enARRAY(0x98e78c)2-3abS037842909900084(Hungria, MariangelaVargas, Milton A.T.16420000365den`BradyrhizobiumDroughtNitrogen fixationRhizobiumSoil acidityTemperature stress12218303784290S037842909900084ƒ?JenFYieldAdaptationG*E interactionTraitsSelectionModellingPrediction(en_asciiMConcepts and strategies for plant adaptation research in rainfed lowland riceenMConcepts and strategies for plant adaptation research in rainfed lowland riceFLA13 Cooper, MarkenARRAY(0x828b08)1-2S037842909900048 Cooper, Mark3419991164OenKYieldAdaptationG×E interactionTraitsSelectionModellingPrediction23108803784290S037842909900048…iSenOBiometrical breeding methodThree-way and double crossesSelf-pollinating cropsƒen_ascii>Quantitative genetics of rice V. Evaluating the potential of pedigrees founded on three-way and double crosses to yield superior recombinant inbred lines with the biometrical breeding methoden>Quantitative genetics of rice V. Evaluating the potential of pedigrees founded on three-way and double crosses to yield superior recombinant inbred lines with the biometrical breeding methodFLA189)Lawrence, M.J.Pooni, H.S. Senadhira, D.enARRAY(0x734098)2S037842909800157)Lawrence, M.J.Pooni, H.S. Senadhira, D.19219990461SenOBiometrical breeding methodThree-way and double crossesSelf-pollinating crops8247303784290S037842909800157„]Cen?GenotypesHuman nutritionWheatZinc deficiencyZinc efficiencyten_asciisZinc deficiency as a practical problem in plant and human nutrition in Turkey: A NATO-science for stability projectensZinc deficiency as a practical problem in plant and human nutrition in Turkey: A NATO-science for stability projectFLA175B Cakmak, I.Kalayci, M.Ekiz, H.Braun, H.J. Kilinc, Y. Yilmaz, A.enARRAY(0x78a7ec)1-2S037842909800139B Cakmak, I.Kalayci, M.Ekiz, H.Braun, H.J. Kilinc, Y. Yilmaz, A.18819990160Cen?GenotypesHuman nutritionWheatZinc deficiencyZinc efficiency03784290S037842909800139„1en-Cereal establishment,Sowing depth,Sowing time‚en_asciiEstablishment and yield of wheat (Triticum turgidum L.) after early sowing at various depths in a semi-arid Mediterranean environmentenEstablishment and yield of wheat (Triticum turgidum L.) after early sowing at various depths in a semi-arid Mediterranean environmentFLA187 Mahdi, L. Bell, C.J.Ryan, J.enARRAY(0xb79e0c)3S037842909800094 Mahdi, L. Bell, C.J.Ryan, J.196199809581en-Cereal establishment,Sowing depth,Sowing time5880903784290S037842909800094…3Cen>Rate of leaf production,Pea (Pisum sativum L.),Soil water deficit,Plant temperature,FTSW, fraction of transpirable soil water,RLP, rate of leaf production,TTSW, total transpirable soil wateren_asciiGRate of leaf production in response to soil water deficits in field peaenGRate of leaf production in response to soil water deficits in field peaFLA319Lecoeur, J.Guilioni, L.enARRAY(0x985988)3S037842909800076Lecoeur, J.Guilioni, L.32819980657Cen>Rate of leaf production,Pea (Pisum sativum L.),Soil water deficit,Plant temperature,FTSW, fraction of transpirable soil water,RLP, rate of leaf production,TTSW, total transpirable soil water03784290S037842909800076ƒWFenBGossypium spp.,Cotton,Interspecific hybrid,Mote,Drought,IrrigationenHDrought conditions induce mote formation in interspecific cotton hybridsen_asciiHDrought conditions induce mote formation in interspecific cotton hybridsFLA225'Saranga, Y.Sass, N.Tal, Y. Yucha, R.enARRAY(0x5fefbc)3S037842909700086'Saranga, Y.Sass, N.Tal, Y. Yucha, R.2341998020255FenBGossypium spp.,Cotton,Interspecific hybrid,Mote,Drought,Irrigation03784290S037842909700086‚ZjennAgriculture and the Environment: Bridging Food Production and Environmental Protection in Developing Countriesen_asciinAgriculture and the Environment: Bridging Food Production and Environmental Protection in Developing CountriesBRV191Sivakumar, M.V.K.1-2S037842909700068Sivakumar, M.V.K.1921998015503784290S037842909700068„MenIDrought resistance,Sorghum,Grain filling,Plant height,Reserves Dwarf,StemRenbThe effect of dwarfing genes on sorghum grain filling from remobilized stem reserves, under stressen_asciibThe effect of dwarfing genes on sorghum grain filling from remobilized stem reserves, under stressFLA43)Blum, A. Golan, G. Mayer, J.Sinmena, B.enARRAY(0x586a9c)1-2S037842909603462)Blum, A. Golan, G. Mayer, J.Sinmena, B.5419970552MenIDrought resistance,Sorghum,Grain filling,Plant height,Reserves Dwarf,Stem03784290S037842909603462„8en4Nitrogen fixation,Drought stress,Soybean,Glycine max^enhNitrogen accumulation and nodule activity of field-grown _Jackson_ soybean in response to water deficitsen_asciihNitrogen accumulation and nodule activity of field-grown _Jackson_ soybean in response to water deficitsFLA1091 Serraj, R.Bona, S. Purcell, L.C.Sinclair, T.R.enARRAY(0x60e1dc)1-2S0378429096010681 Serraj, R.Bona, S. Purcell, L.C.Sinclair, T.R.116199705528en4Nitrogen fixation,Drought stress,Soybean,Glycine max03784290S037842909601068„(.en*Oryza sativa,Tiller development,Rice yieldRenbPanicle emergence of tiller types and grain yield of tiller order for direct-seeded rice cultivarsen_asciibPanicle emergence of tiller types and grain yield of tiller order for direct-seeded rice cultivarsFLA235NCounce, P.A.Siebenmorgen, T.J. Poag, M.A.Holloway, G.E.Kocher, M.F.Lu, R.enARRAY(0x5f0910)2-3037842909600011NCounce, P.A.Siebenmorgen, T.J. Poag, M.A.Holloway, G.E.Kocher, M.F.Lu, R.24219960847.en*Oryza sativa,Tiller development,Rice yield03784290037842909600011‚k\engTesting the root growth subroutine of the CERES-Wheat model for two cultivars of different cycle lengthen_asciigTesting the root growth subroutine of the CERES-Wheat model for two cultivars of different cycle lengthERR199# Savin, R. Hall, A.J. Sattore, E.H.3037842909500003# Savin, R. Hall, A.J. Sattore, E.H.1991995034003784290037842909500003ñgX€p6&Ì¼ç×4$ðI9`P Ç · „ t3Ñ(„ÊYý½ªp`,ÖÌ¤ž~rF<Ð½ƒr<2 ÿÕÀ‚vJ4ôÖ†cHþñÃ¸ŽˆH7ë«˜^Jóyj80ÿÑÉ¥y…%PenLCrop growth rate,Harvest index,Leaf area index,Oryza sativa,Yield componentsxenuComparison of high-yield rice in tropical and subtropical environments I. Determinants of grain and dry matter yieldsen_asciiuComparison of high-yield rice in tropical and subtropical environments I. Determinants of grain and dry matter yieldsFLA71X Jifeng, Y.Shaobing, P.Qingrui, H.Hong, Y. Chongdang, Y.Visperas, R.M. Cassman, K.G.enARRAY(0x602140)1S037842909800077X Jifeng, Y.Shaobing, P.Qingrui, H.Hong, Y. Chongdang, Y.Visperas, R.M. Cassman, K.G.841998050857PenLCrop growth rate,Harvest index,Leaf area index,Oryza sativa,Yield components03784290S037842909800077„"VenRRice,Japonica _ javanicacrosses,New plant ideotype,F3 families,Genetic correlation6enTQuantitative genetics of rice III. The potential of a pair of new plant type crossesen_asciiTQuantitative genetics of rice III. The potential of a pair of new plant type crossesFLA267+ Bentota, A.P. Senadhira, D.Lawrence, M.J.enARRAY(0x5e89dc)3S037842909700087+ Bentota, A.P. Senadhira, D.Lawrence, M.J.2731998020255aen]Rice,Japonica _ javanicacrosses,New plant ideotype,F₃ families,Genetic correlation03784290S037842909700087!Ven$Author Index -- Volumes 51-54 (1997)en_ascii$Author Index -- Volumes 51-54 (1997)„‚|en_ascii6Responses to comments on a paper titled ''Trend and stability analyses of millet yields treated with fertilizer and crop residues in the Sahel'' [Field Crop Research 75 (2002) 53-62]en6Responses to comments on a paper titled ''Trend and stability analyses of millet yields treated with fertilizer and crop residues in the Sahel'' [Field Crop Research 75 (2002) 53-62]FLA393 Yamoah, C.Bationo, A.3[DOI] 10.1016/S037842900200201 Yamoah, C.Bationo, A.3932003128403784290[DOI] 10.1016/S037842900200201„?eenaSoil N balanceN fertilizerTillageInoculantIntercroppingRhizobiaLong-term trendGrain legume@en_asciiYAgricultural management of grain legumes: has it led to an increase in nitrogen fixation?enYAgricultural management of grain legumes: has it led to an increase in nitrogen fixation?FLA165'van Kessel, ChrisHartley, ChristopherenARRAY(0x8ef9dc)2-3S037842909900085'van Kessel, ChrisHartley, Christopher18120000365eenaSoil N balanceN fertilizerTillageInoculantIntercroppingRhizobiaLong-term trendGrain legume12218303784290S037842909900085†1MenIGenotype by environment interactionsRiceRainfed lowlandReference lines8en_asciiUGenotype by environment interactions across diverse rainfed lowland rice environmentsenUGenotype by environment interactions across diverse rainfed lowland rice environmentsFLA350 Wade, L.J. McLaren, C.G.Quintana, L.Harnpichitvitaya, D.Rajatasereekul, S. Sarawgi, A.K. Kumar, A.Ahmed, H.U.SarwotoSingh, A.K. Rodriguez, R. Siopongco, J. Sarkarung, S.enARRAY(0x896158)1-2aaabbccdefaaaS0378429099000490 Wade, L.J. McLaren, C.G.Quintana, L.Harnpichitvitaya, D.Rajatasereekul, S. Sarawgi, A.K. Kumar, A.Ahmed, H.U.SarwotoSingh, A.K. Rodriguez, R. Siopongco, J. Sarkarung, S.5019991164MenIGenotype by environment interactionsRiceRainfed lowlandReference lines23108803784290S037842909900049<en_asciiAUTHOR INDEX-VOLS.60-64enAUTHOR INDEX-VOLS.60-64IND2933S037842909900067298199912076403784290S037842909900067Ven_ascii$Author Index -- Volumes 55-59 (1998)en$Author Index -- Volumes 55-59 (1998)IND2393S0378429098001582451998125903784290S037842909800158„&EenAOilseed rape,Interspecific hybrids,Seed survival,Transgenic cropsXen_asciieSurvival of buried seeds of interspecific hybrids between oilseed rape, hoary mustard and wild radisheneSurvival of buried seeds of interspecific hybrids between oilseed rape, hoary mustard and wild radishFLA1971Chadoeuf, R.Darmency, H.Maillet, J. Renard, M.enARRAY(0xb7a3b0)3S0378429098000951Chadoeuf, R.Darmency, H.Maillet, J. Renard, M.20419980958EenAOilseed rape,Interspecific hybrids,Seed survival,Transgenic crops5880903784290S037842909800095…%PenLCrop growth rate,Harvest index,Leaf area index,Oryza sativa,Yield componentsxenuComparison of high-yield rice in tropical and subtropical environments I. Determinants of grain and dry matter yieldsen_asciiuComparison of high-yield rice in tropical and subtropical environments I. Determinants of grain and dry matter yieldsFLA71X Jifeng, Y.Shaobing, P.Qingrui, H.Hong, Y. Chongdang, Y.Visperas, R.M. Cassman, K.G.enARRAY(0x602140)1S037842909800077X Jifeng, Y.Shaobing, P.Qingrui, H.Hong, Y. Chongdang, Y.Visperas, R.M. Cassman, K.G.841998050857PenLCrop growth rate,Harvest index,Leaf area index,Oryza sativa,Yield components03784290S037842909800077„"VenRRice,Japonica _ javanicacrosses,New plant ideotype,F3 families,Genetic correlation6enTQuantitative genetics of rice III. The potential of a pair of new plant type crossesen_asciiTQuantitative genetics of rice III. The potential of a pair of new plant type crossesFLA267+ Bentota, A.P. Senadhira, D.Lawrence, M.J.enARRAY(0x5e89dc)3S037842909700087+ Bentota, A.P. Senadhira, D.Lawrence, M.J.2731998020255aen]Rice,Japonica _ javanicacrosses,New plant ideotype,F₃ families,Genetic correlation03784290S037842909700087!Ven$Author Index -- Volumes 51-54 (1997)en_ascii$Author Index -- Volumes 51-54 (1997)IND2933S037842909780340296199802025503784290S037842909780340Sren2Physiology of Plants Under Stress: Abiotic Factorsen_ascii2Physiology of Plants Under Stress: Abiotic FactorsBRV192 Bray, E.A.1-2S037842909700069 Bray, E.A.1931998015503784290S037842909700069„XFenBBanana,Rubber,Intercropping,Land equivalent ratio,Planting densityrenrThe effect of planting density on growth and development of component crops in rubber/banana intercropping systemsen_asciirThe effect of planting density on growth and development of component crops in rubber/banana intercropping systemsFLA95>Rodrigo, V.H.L.Stirling, C.M.Teklehaimanot, Z.Nugawela, A.enARRAY(0x5e66e4)1-2S037842909601069>Rodrigo, V.H.L.Stirling, C.M.Teklehaimanot, Z.Nugawela, A.10819970552FenBBanana,Rubber,Intercropping,Land equivalent ratio,Planting density03784290S037842909601069‚8Cen?Statistics,Design of experiments,Estimation,Significance,StrataDenHow to avoid bad statisticsen_asciiHow to avoid bad statisticsFLA165 Dyke, G.enARRAY(0x6ef2cc)3S037842909603463 Dyke, G.18719970451Cen?Statistics,Design of experiments,Estimation,Significance,Strata03784290S037842909603463ƒV;en7Avena sativa,Oats,Field drying,Hay,Chemical compositionen?Chemical changes associated with the field drying of oat forageen_ascii?Chemical changes associated with the field drying of oat forageFLA221; Rebole, A.Trevino, J. Barro, C.Alzueta, C. Caballero, R.enARRAY(0x584a54)2-3037842909600012; Rebole, A.Trevino, J. Barro, C.Alzueta, C. Caballero, R.22619960847;en7Avena sativa,Oats,Field drying,Hay,Chemical composition03784290037842909600012…jenfEnvironmental factors,Genotype _ environment interactions,Mineral nutrition,Pattern analysis,Sugarcane‚enSelection of sugarcane families across variable environments II. Patterns of response and association with environmental factorsen_asciiSelection of sugarcane families across variable environments II. Patterns of response and association with environmental factorsFLA119"Jackson, P. McRae, T.Hogarth, M.enARRAY(0x8d423c)2-3037842909500040"Jackson, P. McRae, T.Hogarth, M.13019951043jenfEnvironmental factors,Genotype _ environment interactions,Mineral nutrition,Pattern analysis,Sugarcane03784290037842909500040ñÍ¾ŽéÚêÚÏ¿ Œ|jZ f VË» ÷ Ù ÷ ` " `( f¦ðÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿƒmBen>Sugarcane,Nitrogen,Sucrose,Yield accumulation,N-use efficiency"en_asciiJEffect of nitrogen on the time-course of sucrose accumulation in sugarcaneenJEffect of nitrogen on the time-course of sucrose accumulation in sugarcaneFLA1436Muchow, R.C.Robertson, M.J. Wood, A.W. Keating, B.A.enARRAY(0x5f0af0)2-30378429096000226Muchow, R.C.Robertson, M.J. Wood,ƒ_OenKCardinal temperatures,Development,Germination,Pisum sativum L.,Thermal time(enMThermal time requirements for the development of green pea (Pisum sativum L.)en_asciiMThermal time requirements for the development of green pea (Pisum sativum L.)FLA301 Olivier, F.C.Annandale, J.G.enARRAY(0x5baa00)3S037842909700097 Olivier, F.C.Annandale, J.G.30719980456OenKCardinal temperatures,Development,Germination,Pisum sativum L.,Thermal time03784290S037842909700097‚|6en2Biometrical breeding method,Self-pollinating cropsxen5Quantitative genetics of rice IV. A breeding strategyen_ascii5Quantitative genetics of rice IV. A breeding strategyFLA275Lawrence, M.J. Senadhira, D.enARRAY(0x61194c)3S037842909700088Lawrence, M.J. Senadhira, D.28119980202556en2Biometrical breeding method,Self-pollinating crops03784290S037842909700088„gTenPDurum wheat,Yield,Drought,Chlorophyll fluorescence,Carbon isotope discriminationlenoChlorophyll fluorescence as a selection criterion for grain yield in durum wheat under Mediterranean conditionsen_asciioChlorophyll fluorescence as a selection criterion for grain yield in durum wheat under Mediterranean conditionsFLA209:Araus, J.L. Amaro, T. Voltas, J.Nakkoul, H.Nachit, M.M.enARRAY(0x595798)3S037842909700079:Araus, J.L. Amaro, T. Voltas, J.Nakkoul, H.Nachit, M.M.2231998020255TenPDurum wheat,Yield,Drought,Chlorophyll fluorescence,Carbon isotope discrimination03784290S037842909700079#Xen%Keyword Index -- Volumes 51-54 (1997)en_ascii%Keyword Index -- Volumes 51-54 (1997)IND2973S037842909780341299199802025503784290S037842909780341„{wensAdaptation,Drought,Harvest index,Mediterranean environment,Seed yield,<en_asciiINSTRUCTIONS TO AUTHORSenINSTRUCTIONS TO AUTHORSPUB1051[DOI] 10.1016/S037842900300111108200306208303784290[DOI] 10.1016/S037842900300111B&en_asciiIntroductionenIntroductionEDI79 Graham, P.Hall, A. Coyne, D.2-3[DOI] 10.1016/S037842900300030 Graham, P.Hall, A. Coyne, D.792003058263194803784290[DOI] 10.1016/S037842900300030ƒBLenHLegume treesActinorhizalRhizobiaFrankiaTimberN2 fixationNodulationnen_ascii0Nitrogen fixation in legume and non-legume treesen0Nitrogen fixation in legume and non-legume treesFLA183"Sprent, Janet I.Parsons, RichardenARRAY(0x984aa8)2-3S037842909900086"Sprent, Janet I.Parsons, Richard19620000365^enZLegume treesActinorhizalRhizobiaFrankiaTimberN₂ fixationNodulation12218303784290S037842909900086 >en_asciiKEYWORD INDEX-VOLS.60-64enKEYWORD INDEX-VOLS.60-64IND2993S037842909900068303199912076403784290S037842909900068!Xen_ascii%Keyword Index -- Volumes 55-59 (1998)en%Keyword Index -- Volumes 55-59 (1998)IND2473S0378429098001592511998125903784290S037842909800159„?EenAAmmonium sulfate,N balance,15N field experiment,Net N mineralized‚en_asciiNitrogen and water effects on wheat yield in a Mediterranean-type climate. II. Fertilizer-use efficiency with labelled nitrogenenNitrogen and water effects on wheat yield in a Mediterranean-type climate. II. Fertilizer-use efficiency with labelled nitrogenFLA213Garabet, S.Ryan, J.Wood, M.enARRAY(0xb87dd0)3S037842909800096Garabet, S.Ryan, J.Wood, M.22119980958PenLAmmonium sulfate,N balance,¹⁵N field experiment,Net N mineralized5880903784290S037842909800096„>en:L-systems,Faba bean,3D model,Canopy,Radiation interception\en_asciigFaba bean canopy modelling with a parametric open L-system: a comparison with the Monsi and Saeki modelengFaba bean canopy modelling with a parametric open L-system: a comparison with the Monsi and Saeki modelFLA1/Diaz-Ambrona, C.H. Tarquis, A.M. Minguez, M.I.enARRAY(0x680588)1S037842909800078/Diaz-Ambrona, C.H. Tarquis, A.M. Minguez, M.I.1319980758>en:L-systems,Faba bean,3D model,Canopy,Radiation interception03784290S037842909800078‚|6en2Biometrical breeding method,Self-pollinating cropsxen5Quantitative genetics of rice IV. A breeding strategyen_ascii5Quantitative genetics of rice IV. A breeding strategyFLA275Lawrence, M.J. Senadhira, D.enARRAY(0x61194c)3S037842909700088Lawrence, M.J. Senadhira, D.28119980202556en2Biometrical breeding method,Self-pollinating crops03784290S037842909700088#Xen%Keyword Index -- Volumes 51-54 (1997)en_ascii%Keyword Index -- Volumes 51-54 (1997)IND2973S037842909780341299199802025503784290S037842909780341„ FenBN fertilizer,N2 fixation,Starter N,Xylem ureides,Vegetable soybeanKendThe effect of N fertilizer strategy on N₂ fixation, growth and yield of vegetable soybeanen_asciiYThe effect of N fertilizer strategy on N2 fixation, growth and yield of vegetable soybeanFLA221% Yinbo, G. Peoples, M.B.Rerkasem, B.enARRAY(0x6976fc)3S037842909603464% Yinbo, G. Peoples, M.B.Rerkasem, B.22919970451QenMN fertilizer,N₂ fixation,Starter N,Xylem ureides,Vegetable soybean03784290S037842909603464ƒn7en3Maize,Hybrid,Sowing date,Grain yield,Model,Zea maysXeneModeling hybrid and sowing date effects on potential grain yield of maize in a humid temperate regionen_asciieModeling hybrid and sowing date effects on potential grain yield of maize in a humid temperate regionFLA167%Otegui, M.E. Ruiz, R.A.Petruzzi, D.enARRAY(0x5e302c)2-3037842909600031%Otegui, M.E. Ruiz, R.A.Petruzzi, D.174199608477en3Maize,Hybrid,Sowing date,Grain yield,Model,Zea mays03784290037842909600031…TenPRice,Oryza sativa L.,Rainfed lowland,Drought resistance,Soil fertility,Phenology‚enPerformance of contrasting rice cultivars selected for rainfed lowland conditions in relation to soil fertility and water availabilityen_asciiPerformance of contrasting rice cultivars selected for rainfed lowland conditions in relation to soil fertility and water availabilityFLA2679Wonprasaid, S.Khunthasuvon, S.Sittisuang, P. Fukai, S.enARRAY(0x58c2fc)2-30378429096000139Wonprasaid, S.Khunthasuvon, S.Sittisuang, P. Fukai, S.27519960847TenPRice,Oryza sativa L.,Rainfed lowland,Drought resistance,Soil fertility,Phenology03784290037842909600013„.OenKGrain weight,Semidwarfism,Source-sink relationships,Triticum aestivum,Wheat|enwIndividual grain weight responses to genetic reduction in culm length in wheat as affected by source-sink manipulationsen_asciiwIndividual grain weight responses to genetic reduction in culm length in wheat as affected by source-sink manipulationsFLA55Miralles, D.J.Slafer, G.A.enARRAY(0x8dc260)2-3037842909500041Miralles, D.J.Slafer, G.A.6619951043OenKGrain weight,Semidwarfism,Source-sink relationships,Triticum aestivum,Wheat03784290037842909500041„"Den@Correlated response,Heritability,Hordeum vulgare,Selection,Yield‚en}Heritabilities, gains from selection and genetic correlations for grain yield of barley grown in two contrasting environmentsen_ascii}Heritabilities, gains from selection and genetic correlations for grain yield of barley grown in two contrasting environmentsFLA173Bouzerzour, H.Dekhili, M.enARRAY(0x58d898)3037842909500005Bouzerzour, H.Dekhili, M.17819950641Den@Correlated response,Heritability,Hordeum vulgare,Selection,Yield03784290037842909500005ñÕÆ0!ÛËL<&eU ó ãK; õ åÒÂ\>)ï)?K•„`Cen?Rice (Oryza sativa),Flowering,Temperature,Photoperiod,ModellingPen_asciiaA model for photothermal responses of flowering in rice I. Model description and parameterizationenaA model for photothermal responses of flowering in ri„}}enyBiomass production,Extinction coefficient,Crop growth rate,Genetic improvement,Radiation-use efficiency,Triticum aestivumPenaConsequences of breeding on biomas„rennGossypium hirsutumDevelopmentRadiation use efficiency (RUE)Light interceptionCanopy extinction coefficient en_ascii>Growth and dry matter partitioning of diverse cotton genotypesen>Growth and dry matter partitioning of diverse cotton genotypesFLA73Bange, M.P.Milroy, S.P.enARRAY(0x7c13d4)1[DOI] 10.1016/j.fcr.2003.09.00Bange, M.P.Milroy, S.P.872004041587rennGossypium hirsutumDevelopmentRadiation use efficiency (RUE)Light interceptionCanopy extinction coefficient13533103784290[DOI] 10.1016/j.fcr.2003.09.00„dSaccharum officinarum, L.)Chlorophyll fluorescenceCombining abilityPhotosynthetic inheritance15016803784290S037842909900069„DenNitrogen fixationGramineaeSugar caneRiceKallar grassEndophytic diazotrophsAcetobacter diazotrophicusAzoarcusAzospirillumHerbaspirillumen_ascii9Nitrogen fixation in endophytic and associative symbiosisen9Nitrogen fixation in endophytic and associative symbiosisFLA197James, E.K.enARRAY(0x98e444)2-3S037842909900087James, E.K.209200003650en+Nitrogen fixationGramineaeSugar caneRiceKallar grassEndophytic diazotrophsAcetobacter diazotrophicusAzoarcusAzospirillumHerbaspirillum12218303784290S037842909900087ƒ/en+Biomass,Kernel number,Wheat,Yield potentialen_ascii9Identifying factors that determine kernel number in wheaten9Identifying factors that determine kernel number in wheatFLA223+Bindraban, P.S.Sayre, K.D.Solis-Moya, E.enARRAY(0xbba7a4)3S037842909800097+Bindraban, P.S.Sayre, K.D.Solis-Moya, E.23419980958/en+Biomass,Kernel number,Wheat,Yield potential5880903784290S037842909800097‚`-en)Barley,Yield,Model,Argentina,CERES-barleyren_ascii2Utility of CERES-Barley under Argentine conditionsen2Utility of CERES-Barley under Argentine conditionsFLA329Travasso, M.I.Magrin, G.O.enARRAY(0x998ddc)3S037842909800079Travasso, M.I.Magrin, G.O.33319980657-en)Barley,Yield,Model,Argentina,CERES-barley03784290S037842909800079/den+Contents of Field Crops Research, Volume 55en_ascii+Contents of Field Crops Research, Volume 55OCN3013S037842909780342302199802025503784290S037842909780342†ben^Rice,Quantitative genetics,F3 families,Recombinant inbred lines,Yield potential,Plant breeding‚6enQuantitative genetics of rice I. Evidence of unexploited genetical variation for yield and other quantitative characters in modern Indica cultivarsen_asciiQuantitative genetics of rice I. Evidence of unexploited genetical variation for yield and other quantitative characters in modern Indica cultivarsFLA245XPerera, A.L.T. Fahim, M.Sriyoheswaran, S.Dhanapala, M.P. Senadhira, D.Lawrence, M.J.enARRAY(0x63aa3c)3S037842909700089XPerera, A.L.T. Fahim, M.Sriyoheswaran, S.Dhanapala, M.P. Senadhira, D.Lawrence, M.J.2561998020255meniRice,Quantitative genetics,F₃ families,Recombinant inbred lines,Yield potential,Plant breeding03784290S037842909700089„}}enyBiomass production,Extinction coefficient,Crop growth rate,Genetic improvement,Radiation-use efficiency,Triticum aestivumPenaConsequences of breeding on biomass, radiation interception and radiation-use efficiency in wheaten_asciiaConsequences of breeding on biomass, radiation interception and radiation-use efficiency in wheatFLA271+Calderini, D.F. Dreccer, M.F.Slafer, G.A.enARRAY(0x615b80)3S037842909603465+Calderini, D.F. Dreccer, M.F.Slafer, G.A.28119970652}enyBiomass production,Extinction coefficient,Crop growth rate,Genetic improvement,Radiation-use efficiency,Triticum aestivum03784290S037842909603465„D~enzLeaf water potential,Modelling,Stomatal conductance,Leaf expansion,Plant available soil water,Transpiration,Photosynthesis6enTSoil-water thresholds for the responses of leaf expansion and gas exchange: A reviewen_asciiTSoil-water thresholds for the responses of leaf expansion and gas exchange: A reviewFLA253Sadras, V.O.Milroy, S.P.enARRAY(0x5d4c80)2-3037842909600014Sadras, V.O.Milroy, S.P.26619960847~enzLeaf water potential,Modelling,Stomatal conductance,Leaf expansion,Plant available soil water,Transpiration,Photosynthesis03784290037842909600014…en|AMMI model,Broomrape resistance,Genotype-environment interaction,Principal coordinate analysis,Vicia faba L.,Yield stabilityPenaGenotype-environment interaction in faba bean: comparison of AMMI and principal coordinate modelsen_asciiaGenotype-environment interaction in faba bean: comparison of AMMI and principal coordinate modelsFLA1172 Flores, F.Moreno, M.T.Martinez, A.Cubero, J.I.enARRAY(0x5dfba4)2-30378429096000322 Flores, F.Moreno, M.T.Martinez, A.Cubero, J.I.12719960847en|AMMI model,Broomrape resistance,Genotype-environment interaction,Principal coordinate analysis,Vicia faba L.,Yield stability03784290037842909600032†9=en9Cell cycle,DNA replication,Seed quality,Transgenic plants`eniComparison of nuclear replication activity and protein expression patterns during tomato seed germinationen_asciiiComparison of nuclear replication activity and protein expression patterns during tomato seed germinationFLA71a Bino, R.J.Bergervoet, J.H.W.De Vos, C.H.R.Kraak, H.L.Lanteri, S.Van Der Burg, W.J.X., Y.Z.enARRAY(0x5855b8)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500060a Bino, R.J.Bergervoet, J.H.W.De Vos, C.H.R.Kraak, H.L.Lanteri, S.Van Der Burg, W.J.X., Y.Z.7719960545=en9Cell cycle,DNA replication,Seed quality,Transgenic plants03784290037842909500060ƒP0en,Barley,Drought,Leaf senescence,Radiation use&enLDrought effects on biomass production and radiation-use efficiency in barleyen_asciiLDrought effects on biomass production and radiation-use efficiency in barleyFLA777Jamieson, P.D.Martin, R.J. Francis, G.S.Wilson, D.R.enARRAY(0x8da684)2-30378429095000427Jamieson, P.D.Martin, R.J. Francis, G.S.Wilson, D.R.86199510430en,Barley,Drought,Leaf senescence,Radiation use03784290037842909500042ñC4À±iZL=gWuexh‡9 † wiZ„uSCG7$ Þ$q»*úé³§{m=+óá©£ƒvHB"êÞ²§}k3!éÜ®¨ˆwA<ÑÌ®¢vmG;Ð¿‰t6(èÜ€wen_asciiDEco-Regional Approaches for Sustainable Land Use and Food ProductionenDEco-Regional Appro„JenFRice (Oryza sativa),Flowering,Temperature,Photoperiod,Model comparison&enLA model for photothermal responses of flowering in rice II. Model evaluationen_asciiLA model for photothermal responses of flowering in rice II. Model evaluationFLA201= Xinyou, Y.Kropff, M.J.Nakagawa, H. Horie, T. Goudriaan, J.enARRAY(0x6ccd1c)3S037842909603457= Xinyou, Y.Kropff, M.J.Nakagawa, H. Horie, T. Goudriaan, J.21119970451JenFRice (Oryza sativa),Flowering,Temperature,Photoperiod,Model comparison03784290S037842909603457zenDEco-Regional Approaches for Sustainable Land Use and Food Productionen_asciiDEco-Regional Approaches for Sustainable Land Use and Food ProductionBRV78 Cassman, K.G.1S037842909781162 Cassman, K.G.791996114903784290S037842909781162„ ?en;Sugarcane,Sucrose accumulation,Harvest index,Cane yield,CCSxenuGrowth of sugarcane under high input conditions in tropical Australia. II. Sucrose accumulation and commercial yielden_asciiuGrowth of sugarcane under high input conditions in tropical Australia. II. Sucrose accumulation and commercial yieldFLA27(Muchow, R.C.Robertson, M.J. Wood, A.W.enARRAY(0x6143e0)1037842909600042(Muchow, R.C.Robertson, M.J. Wood, A.W.3619960948?en;Sugarcane,Sucrose accumulation,Harvest index,Cane yield,CCS03784290037842909600042ƒTXenTRice (Oryza sativa),Flowering,Diurnal temperature amplitude,Development,Thermal uniten;Rice flowering in response to diurnal temperature amplitudeen_ascii;Rice flowering in response to diurnal temperature amplitudeFLA1$ Xinyou, Y.Kropff, M.J.Ellis, R.H.enARRAY(0x58de00)1037842909600033$ Xinyou, Y.Kropff, M.J.Ellis, R.H.919960948XenTRice (Oryza sativa),Flowering,Diurnal temperature amplitude,Development,Thermal unit03784290037842909600033„Aen=Phenology,Crop development,Flowering date,Soybean,Glycine maxNen`The role of daily minimum temperature in modulating the development rate to flowering in soybeanen_ascii`The role of daily minimum temperature in modulating the development rate to flowering in soybeanFLA211/Piper, E.L. Smit, M.A.Boote, K.J.Jones, J.W.enARRAY(0x5863d4)2-3037842909600015/Piper, E.L. Smit, M.A.Boote, K.J.Jones, J.W.22019960847Aen=Phenology,Crop development,Flowering date,Soybean,Glycine max03784290037842909600015ƒ1,en(Foliar applied methanol,C3 growth,Cotton@enYFoliar-applied methanol effects on cotton (Gossypium hirsutum L.) gas exchange and growthen_asciiYFoliar-applied methanol effects on cotton (Gossypium hirsutum L.) gas exchange and growthFLA227Faver, K.L.Gerik, T.J.enARRAY(0x5e3248)2-3037842909600024Faver, K.L.Gerik, T.J.234199608477en3Foliar applied methanol,C₃ growth,Cotton03784290037842909600024„ NenJField pea,Long-term trial,Maize grain,Manure,Nitrogen,Phosphorus,Potassiumen2 fixation by annual legumesFLA211"Unkovich, Murray J. Pate, John S.enARRAY(0x90abe0)2-3S037842909900088"Unkovich, Murray J. Pate, John S.22820000365EenALegume roots¹⁵NMineral NUreidesAcetylene reduction12218303784290S037842909900088ƒ`EenAZea mays L.,Maintenance respiration,Genetic advance,Soil nitrogenJen_ascii^Differences among commercial maize (Zea mays L.) hybrids in respiration rates of mature leavesen^Differences among commercial maize (Zea mays L.) hybrids in respiration rates of mature leavesFLA9 Earl, H.J. Tollenaar, M.enARRAY(0x7555dc)1S037842909800098 Earl, H.J. Tollenaar, M.1919981059EenAZea mays L.,Maintenance respiration,Genetic advance,Soil nitrogen03784290S037842909800098ƒTXenTRice (Oryza sativa),Flowering,Diurnal temperature amplitude,Development,Thermal uniten;Rice flowering in response to diurnal temperature amplitudeen_ascii;Rice flowering in response to diurnal temperature amplitudeFLA1$ Xinyou, Y.Kropff, M.J.Ellis, R.H.enARRAY(0x58de00)1037842909600033$ Xinyou, Y.Kropff, M.J.Ellis, R.H.919960948XenTRice (Oryza sativa),Flowering,Diurnal temperature amplitude,Development,Thermal unit03784290037842909600033„Aen=Phenology,Crop development,Flowering date,Soybean,Glycine maxNen`The role of daily minimum temperature in modulating the development rate to flowering in soybeanen_ascii`The role of daily minimum temperature in modulating the development rate to flowering in soybeanFLA211/Piper, E.L. Smit, M.A.Boote, K.J.Jones, J.W.enARRAY(0x5863d4)2-3037842909600015/Piper, E.L. Smit, M.A.Boote, K.J.Jones, J.W.22019960847Aen=Phenology,Crop development,Flowering date,Soybean,Glycine max03784290037842909600015†FXenTDefence proteins,Hordeum vulgare,Plant diseases,Resistance,disease,Transgenic plants~en8Engineering plants against pathogens: A general strategyen_ascii8Engineering plants against pathogens: A general strategyFLA79~Garcia-Olmedo, F. Molina, A. Segura, A. Moreno, M.Castagnaro, A. Titarenko, E.Rodriguez-Palenzuela, P.Pineiro, M.Diaz, I.enARRAY(0x59d42c)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500061~Garcia-Olmedo, F. Molina, A. Segura, A. Moreno, M.Castagnaro, A. Titarenko, E.Rodriguez-Palenzuela, P.Pineiro, M.Diaz, I.8419960545XenTDefence proteins,Hordeum vulgare,Plant diseases,Resistance,disease,Transgenic plants03784290037842909500061‚r!enIrrigation,Nitrogen,Saccharum0enQEffects of irrigation and N fertilizer application on sugarcane yield and qualityen_asciiQEffects of irrigation and N fertilizer application on sugarcane yield and qualityFLA101Wiedenfeld, R.P.enARRAY(0x8d4284)2-3037842909500043Wiedenfeld, R.P.10819951043!enIrrigation,Nitrogen,Saccharum03784290037842909500043ƒ,0en,Breeding,Glycine max,Maturity,Soil toleranceVendImpact of strategic genes in soybean on agricultural development in the Brazilian tropical savannahsen_asciidImpact of strategic genes in soybean on agricultural development in the Brazilian tropical savannahsREV141 Spehar, C.R.enARRAY(0x624be0)3037842909500007 Spehar, C.R.146199506410en,Breeding,Glycine max,Maturity,Soil tolerance03784290037842909500007ñ¿°¶§}n!$ŸèØ<, { kD4œ~ùÃù2S(S€F2öâ¦“Y…]enRadiation-conversion efficiency,Non-structural carbohydrates,Nitrogen uptake,Grain-filling percentage,Yield components,Phenological developmentFen\Physiological characteristics of high-yielding rice inferred from cross-location experimentsen_ascii\Physiological characteristics of high-yielding rice inferred from cross-location experimentsFLA55H Horie, T.Ohnishi, M.Angus, J.F.Lewin, L.G.Tsukaguchi, T. Matano, T.enARRAY(0x61d91c)1-2S037842909603458H Horie, T.Ohnishi, M.Angus, J.F.Lewin, L.G.Tsukaguchi, T. Matano, T.6719970552enRadiation-conversion efficiency,Non-structural carbohydrates,Nitrogen uptake,Grain-filling percentage,Yield components,Phenological development03784290S037842909603458%(en Editor's Noteen_ascii Editor's NoteEDI163Connor, D.J.Loomis, R.S.3S037842909783116Connor, D.J.Loomis, R.S.1631997045103784290S037842909783116„tRenNTriticum aestivum L,Carbohydrate,Kernel mass,Nitrogen,Source-sink relationship‚enDifferential effects of partial spikelet removal and defoliation on kernel growth and assimilate partitioning among wheat cultivarsen_asciiDifferential effects of partial spikelet removal and defoliation on kernel growth and assimilate partitioning among wheat cultivarsFLA201. Yong-Zhan, M. MacKown, C.T.Van Sanford, D.A.enARRAY(0x60b6b4)2-3037842909600016. Yong-Zhan, M. MacKown, C.T.Van Sanford, D.A.20919960847RenNTriticum aestivum L,Carbohydrate,Kernel mass,Nitrogen,Source-sink relationship03784290037842909600016„,LenHBrassica napus L.,Rapeseed,Waterlogging,Yield components,Nutrient uptakedenkNote on the effects of winter and spring waterlogging on growth, chemical composition and yield of rapeseeden_asciikNote on the effects of winter and spring waterlogging on growth, chemical composition and yield of rapeseedFLA175)Boem, F.H.G.Lavado, R.S.Porcelli, C.A.enARRAY(0x5d942c),en_asciiEDITORIAL BOARDenEDITORIAL BOARDMISii1[DOI] 10.1016/S037842900400023ii200402208603784290[DOI] 10.1016/S037842900400023…enConversion efficiencyRadiation-use efficiencyInterception efficiencyAbsorption efficiencyLight interceptionPhotosynthetically active radiationben_asciijBeware of comparing RUE values calculated from PAR vs solar radiation or absorbed vs intercepted radiationenjBeware of comparing RUE values calculated from PAR vs solar radiation or absorbed vs intercepted radiationSCO247Bonhomme, RaymondenARRAY(0x7ca468)3S037842900000120Bonhomme, Raymond25220001168enConversion efficiencyRadiation-use efficiencyInterception efficiencyAbsorption efficiencyLight interceptionPhotosynthetically active radiation03784290S037842900000120„%/en+ChironomidaeAlphacypermethrinChlorpyrifos‚,en_asciiEfficacy and environmental fate of alphacypermethrin applied to rice fields for the control of chironomid midge larvae (Diptera: Chironomidae)enEfficacy and environmental fate of alphacypermethrin applied to rice fields for the control of chironomid midge larvae (Diptera: Chironomidae)FLA263 Helliwell, S. Stevens, M.M.enARRAY(0x81b600)3abS037842900000102 Helliwell, S. Stevens, M.M.2722000081067/en+ChironomidaeAlphacypermethrinChlorpyrifos03784290S037842900000102ƒ/FenBSelectionBreedingLegumeSoybeanSymbiosisN2 fixationNodulation|en_ascii7Breeding for enhanced nitrogen fixation in crop legumesen7Breeding for enhanced nitrogen fixation in crop legumesFLA229Herridge, David Rose, IanenARRAY(0x90aacc)2-3abS037842909900089Herridge, David Rose, Ian24820000365QenMSelectionBreedingLegumeSoybeanSymbiosisN₂ fixationNodulation12218303784290S037842909900089…kengAnatomy,Brassica species,Genetic variation,Laboratory tests,Pod shattering,Pod walls,Synthetic B. napusben_asciijGenetic variation for pod shatter resistance among lines of oilseed rape developed from synthetic B. napusenjGenetic variation for pod shatter resistance among lines of oilseed rape developed from synthetic B. napusFLA153@Morgan, C.L.Bruce, D.M. Child, R.Ladbrooke, Z.L.Arthur, A.E.enARRAY(0xb9ff38)2S037842909800099@Morgan, C.L.Bruce, D.M. Child, R.Ladbrooke, Z.L.Arthur, A.E.16519980858kengAnatomy,Brassica species,Genetic variation,Laboratory tests,Pod shattering,Pod walls,Synthetic B. napus5880903784290S037842909800099%(en Editor's Noteen_ascii Editor's NoteEDI163Connor, D.J.Loomis, R.S.3S037842909783116Connor, D.J.Loomis, R.S.1631997045103784290S037842909783116„tRenNTriticum aestivum L,Carbohydrate,Kernel mass,Nitrogen,Source-sink relationship‚enDifferential effects of partial spikelet removal and defoliation on kernel growth and assimilate partitioning among wheat cultivarsen_asciiDifferential effects of partial spikelet removal and defoliation on kernel growth and assimilate partitioning among wheat cultivarsFLA201. Yong-Zhan, M. MacKown, C.T.Van Sanford, D.A.enARRAY(0x60b6b4)2-3037842909600016. Yong-Zhan, M. MacKown, C.T.Van Sanford, D.A.20919960847RenNTriticum aestivum L,Carbohydrate,Kernel mass,Nitrogen,Source-sink relationship03784290037842909600016ƒl>en:Chickpea,15N,N2-fixation,N-partitioning,Phosphorus,RainfedfenlNitrogen and phosphorus assimilation, mobilization and partitioning in rainfed chickpea (Cicer arietinum L.)en_asciilNitrogen and phosphorus assimilation, mobilization and partitioning in rainfed chickpea (Cicer arietinum L.)FLA81Kurdali, F.enARRAY(0x575eb4)2-3037842909600034Kurdali, F.9219960847TenPChickpea,¹⁵N,N₂-fixation,N-partitioning,Phosphorus,Rainfed03784290037842909600034„KGenCEnvironmental impact,Resistance,Nematode,Strategy,Transgenic plants~en8Engineering resistance against plant-parasitic nematodesen_ascii8Engineering resistance against plant-parasitic nematodesFLA99Grundler, F.M.W.enARRAY(0x5dabe8)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500062Grundler, F.M.W.10919960545GenCEnvironmental impact,Resistance,Nematode,Strategy,Transgenic plants03784290037842909500062„(JenFGlucose requirement,Helianthus annuus,Nitrogen,Radiation use,Sunflower‚en|Efficiency of biomass accumulation by sunflower as affected by glucose requirement of biosynthesis and leaf nitrogen contenten_ascii|Efficiency of biomass accumulation by sunflower as affected by glucose requirement of biosynthesis and leaf nitrogen contentFLA119 Flenet, F.Kiniry, J.R.enARRAY(0x6f1880)2-3037842909500080 Flenet, F.Kiniry, J.R.12719951244JenFGlucose requirement,Helianthus annuus,Nitrogen,Radiation use,Sunflower03784290037842909500080ƒx&en"Maize,Fertilizer,Nitrogen,Zea mays>enXEffect of the type of fertilizer and source of irrigation water on N use in a maize cropen_asciiXEffect of the type of fertilizer and source of irrigation water on N use in a maize cropFLA33JCartagena, M.C.Vallejo, A. Diez, J.A. Bustos, A. Caballero, R. Roman, R.enARRAY(0x6a0498)1037842909500044JCartagena, M.C.Vallejo, A. Diez, J.A. Bustos, A. Caballero, R. Roman, R.3919951144&en"Maize,Fertilizer,Nitrogen,Zea mays03784290037842909500044„0den`Carbohydrate supply,Management,Model,Root ecology,Root physiology,Root turnover,Soil environmentBenZSeasonal patterns and vertical distributions of fine roots of alfalfa (Medicago sativa L.)en_asciiZSeasonal patterns and vertical distributions of fine roots of alfalfa (Medicago sativa L.)FLA119%Luo, Y.Meyerhoff, P.A.Loomis, R.S.enARRAY(0x6b0130)2037842909400090%Luo, Y.Meyerhoff, P.A.Loomis, R.S.12719950240den`Carbohydrate supply,Management,Model,Root ecology,Root physiology,Root turnover,Soil environment03784290037842909400090ð!ÿÒÂæÐæf&âË‰xB<úÂ±{føä¨…+$î²¨€rB/õá…vD3ý÷Ç°nZ°ŸYJëž‰JC ÿùÈ¶mgF: Í¾‹ˆm](òâ“J:ýØÆ~K;÷´¡fV¯žg` ÚÒ˜Y=ðß¨—PI â Ù ¡ š V >ùðÉ´uj?'âÉ, ê Ø Ÿ œ w ã Ð • Œ e _ > ; ½§fCèäÇ½ƒo2!ÚËˆv,!åÔ{eð¦’ê–‰ùvèv ¢ £ iIS037842909800151S037842909800162S037842909800164S037842909603452037842909600014037842909600027S037842909700040S037842909900030037842909400104S037842909601019S037842909700123S037842909800112PhotosynfS037842909700057S037842909700097S037842909900034S037842909900035S037842909800085S037842909800092Thermal timeThermal timeThermal timeeS037842909800150037842909500009S037842909700063S037842909900016S037842909601062S037842909601069 Intercropping IntercroppingIntercroppingS"S037842909700019S037842909900020Assimilate partitioningAssimilate partitioningAssimilate partitioningdS037842909800151037842909600014S037842909800088S037842909700045037842909500035S037842909900002Stomatal conductanceStomatal conductanceStomatal conductanceI"S037842909800155S037842909700075Light interceptionLight interceptionLight interceptionb3S037842909800152S037842909603465S037842909700064Extinction coefficientExtinction coefficientExtinction coefficientX3S037842909800099S037842909700118S037842909800133Genetic 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fertilityGenotype-by-environment interactionVariance componentsHeritabilityFen_ascii\Genotypic performance under fertilised and non-fertilised conditions in rainfed lowland riceen\Genotypic performance under fertilised and non-fertilised conditions in rainfed lowland riceFLA1\Inthapanya, P. SipaseuthSihavong, P.Sihathep, V.Chanphengsay, M. Fukai, S. Basnayake, J.enARRAY(0x84af2c)1aabcdeeS037842909900065\Inthapanya, P. SipaseuthSihavong, P.Sihathep, V.Chanphengsay, M. Fukai, S. Basnayake, J.1420000265wensRiceRainfed lowlandFertiliserSoil fertilityGenotype-by-environment interactionVariance componentsHeritability15016803784290S037842909900065„+PenLRhizobiumBradyrhizobiumNodulationSymbiosisSoil fertilityResidual effect,en_asciiOSoyabeans and sustainable agriculture. Promiscuous soyabeans in southern AfricaenOSoyabeans and sustainable agriculture. Promiscuous soyabeans in southern AfricaFLA1372 Mpepereki, S.Javaheri, F. Davis, P.Giller, K.E.enARRAY(0x90c6fc)2-3abcaS0378429099000832 Mpepereki, S.Javaheri, F. Davis, P.Giller, K.E.14920000365^enZRhizobiumBradyrhizobiumNodulationSymbiosisSoil fertilityResidual effect12218303784290S037842909900083„IenERainfed lowland riceCultivarsPhysical environmentYield variabilityen_asciiDRainfed lowland rice: physical environment and cultivar requirementsenDRainfed lowland rice: physical environment and cultivar requirementsFLA36 Wade, L.J. Fukai, S.Samson, B.K.Ali, A.Mazid, M.A.enARRAY(0x89b080)1-2 abaccS0378429099000476 Wade, L.J. Fukai, S.Samson, B.K.Ali, A.Mazid, M.A.1219991164IenERainfed lowland riceCultivarsPhysical environmentYield variability23108803784290S037842909900047…M enSoybeanPhasey beanSesbaniaVignaRadiation-use efficiencySpecific leaf nitrogenBiomass accumulationN-accumulationN partitioning|en_asciiwRadiation interception and the accumulation of biomass and nitrogen by soybean and three tropical annual forage legumesenwRadiation interception and the accumulation of biomass and nitrogen by soybean and three tropical annual forage legumesFLA99+Pengelly, B.C.Blamey, F.P.C.Muchow, R.C.enARRAY(0x8ba85c)2S037842909900029+Pengelly, B.C.Blamey, F.P.C.Muchow, R.C.11219990963 enSoybeanPhasey beanSesbaniaVignaRadiation-use efficiencySpecific leaf nitrogenBiomass accumulationN-accumulationN partitioning11958903784290S037842909900029ñ=.ÓÄõæòã–‡ùéo_P@ ° û ëþî–†óãh&h^ÕÎ¬kPô¼¥cƒ:en6Light interceptiog,Green LAI,Crop development,Zea maysen-AmylaseChitinaseDisease resistanceGenetic improvementGenomicsMedicago sativaPersistenceStress toleranceVegetative storage proteinWinter hardiness49470703784290S037842900200020ƒk=en9WheatVernalizationPhotoperiodCrop ontogenyPhyllochron2en_asciiRVernalization and photoperiod responses in wheat pre-flowering reproductive phasesenRVernalization and photoperiod responses in wheat pre-flowering reproductive phasesFLA183+Gonzalez, F.G.Slafer, G.A.Miralles, D.J.enARRAY(0x84cef0)2-3S037842900100210+Gonzalez, F.G.Slafer, G.A.Miralles, D.J.1952002031574=en9WheatVernalizationPhotoperiodCrop ontogenyPhyllochron8937303784290S037842900100210…#=en9TriticaleVarietiesEnvironmentsDry matter yieldQuality‚en_asciiDry matter yield and quality evaluation at two phenological stages of forage triticale grown in the Po Valley and Sardinia, ItalyenDry matter yield and quality evaluation at two phenological stages of forage triticale grown in the Po Valley and Sardinia, ItalyFLA207U Delogu, G.Faccini, N.Faccioli, P.Reggiani, F.Lendini, M.Berardo, N.Odoardi, M.enARRAY(0x8581b8)2-3S037842900200002U Delogu, G.Faccini, N.Faccioli, P.Reggiani, F.Lendini, M.Berardo, N.Odoardi, M.2152002031574=en9TriticaleVarietiesEnvironmentsDry matter yieldQuality8937303784290S037842900200002ƒ>en:Crop simulationLight use efficiencySiriusGrain nitrogenxen_ascii5Modelling nitrogen uptake and redistribution in wheaten5Modelling nitrogen uptake and redistribution in wheatFLA21Jamieson, P.D. Semenov, M.A.enARRAY(0x8b88bc)1abS037842900000103Jamieson, P.D. Semenov, M.A.292000092968>en:Crop simulationLight use efficiencySiriusGrain nitrogen03784290S037842900000103„ ‚Jen_asciiErratum to "Does the crop or the soil indicate how to save nitrogen in maize production? Reviewing the state of the art". [Field Crop Res. 66 (2000) 151-164]enErratum to "Does the crop or the soil indicate how to save nitrogen in maize production? Reviewing the state of the art". [Field Crop Res. 66 (2000) 151-164]ERR85;Schröder, J.J.Neeteson, J.J. Oenema, O.Struik, P.C.1aaabS0378429000001216Schroder, J.J.Neeteson, J.J. Oenema, O.Struik, P.C.85200009296803784290S037842900000121y0enGuide for Authorsen_asciiGuide for AuthorsMIS2533S0378429097831172561997045103784290S037842909783117ƒ:en6Light interceptiog,Green LAI,Crop development,Zea maysenenXResponses to photoperiod change with phenophase and temperature during wheat developmenten_asciiXResponses to photoperiod change with phenophase and temperature during wheat developmentFLA1Slafer, G.A.Rawson, H.M.enARRAY(0x6d0a84)1-3037842909500081Slafer, G.A.Rawson, H.M.1319960646@enOryza sativaRaised-bed plantingsRice yield16270903784290S037842900000140„Ben>Leaf expansionTranspirationWater deficitChickpeaSimulation<en_asciiWThresholds for chickpea leaf expansion and transpiration response to soil water deficitenWThresholds for chickpea leaf expansion and transpiration response to soil water deficitFLA205=Soltani, A.Khooie, F.R.Ghassemi-Golezani, K. Moghaddam, M.enARRAY(0x79be0c)3abbbS037842900000122=Soltani, A.Khooie, F.R.Ghassemi-Golezani, K. Moghaddam, M.21020001168Ben>Leaf expansionTranspirationWater deficitChickpeaSimulation03784290S037842900000122„neenaEvening primroseOenothera spp.Canopy structureBiomass partitioningSeed yieldYield componentsken_asciikContrasting growth and dry matter partitioning in winter and spring evening primrose crops (Oenothera spp.)enrContrasting growth and dry matter partitioning in winter and spring evening primrose crops (Oenothera spp.)FLA9)Fieldsend, Andrew F.Morison, James I.L.enARRAY(0x872934)1abS037842900000104)Fieldsend, Andrew F.Morison, James I.L.202000092968lenhEvening primroseOenothera spp.Canopy structureBiomass partitioningSeed yieldYield components03784290S037842900000104-den+Contents of Field Crops Research, Volume 51en_ascii+Contents of Field Crops Research, Volume 51MIS2573S0378429097831182581997045103784290S037842909783118„PenLDrought tolerance,Genetic correlation,Heritability,Secondary traits,Zea maysTencThe importance of the anthesis-silking interval in breeding for drought tolerance in tropical maizeen_asciicThe importance of the anthesis-silking interval in breeding for drought tolerance in tropical maizeFLA65Bolanos, J.Edmeades, G.O.enARRAY(0x5dbfec)1037842909600036Bolanos, J.Edmeades, G.O.8019960948PenLDrought tolerance,Genetic correlation,Heritability,Secondary traits,Zea mays03784290037842909600036…$en{Chlorophyll meter,Critical leaf nitrogen content,Grain yield,Nitrogen diagnosis,Nitrogen management,Nitrogen use efficiency6enTIncreased N-use efficiency using a chlorophyll meter on high-yielding irrigated riceen_asciiTIncreased N-use efficiency using a chlorophyll meter on high-yielding irrigated riceFLA243IS., P.Garcia, F.V. Laza, R.C.Sanico, A.L.Visperas, R.M. Cassman, K.G.enARRAY(0x5844f8)2-3037842909600018IS., P.Garcia, F.V. Laza, R.C.Sanico, A.L.Visperas, R.M. Cassman, K.G.25219960847en{Chlorophyll meter,Critical leaf nitrogen content,Grain yield,Nitrogen diagnosis,Nitrogen management,Nitrogen use efficiency03784290037842909600018…gencCapsicum annuum,Phosphinotricin,Resistance,Herbicide,Review,Strategy,Transgenic plants,Weed controlzen6The development of herbicide-tolerant transgenic cropsen_ascii6The development of herbicide-tolerant transgenic cropsFLA115 Tsaftaris, A.enARRAY(0x5c0898)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500064 Tsaftaris, A.12319960545gencCapsicum annuum,Phosphinotricin,Resistance,Herbicide,Review,Strategy,Transgenic plants,Weed control03784290037842909500064ƒlKenGCassava,Manihot esculenta,Planting material,Productivity,Soil fertility:enVIncreasing crop productivity in cassava by fertilizing production of planting materialen_asciiVIncreasing crop productivity in cassava by fertilizing production of planting materialFLA151Molina, J.L.El-Sharkawy, M.A.enARRAY(0x5ef368)2-3037842909500082Molina, J.L.El-Sharkawy, M.A.15719951244KenGCassava,Manihot esculenta,Planting material,Productivity,Soil fertility03784290037842909500082ƒz2en.Cereals,Drought,Water use,Water-use efficiencytensWinter cereals grown for grain and for the dual purpose of forage plus grain II. Water use and water-use efficiencyen_asciisWinter cereals grown for grain and for the dual purpose of forage plus grain II. Water use and water-use efficiencyFLA13$ Bonachela, S. Orgaz, F.Fereres, E.enARRAY(0x6ae2fc)1037842909500046$ Bonachela, S. Orgaz, F.Fereres, E.24199511442en.Cereals,Drought,Water use,Water-use efficiency03784290037842909500046„TKenGCassava,Grasses,Competition,Grass barriers,Root growth,Rooting patterns@enYGrass barriers in cassava hillside cultivation: Rooting patterns and root growth dynamicsen_asciiYGrass barriers in cassava hillside cultivation: Rooting patterns and root growth dynamicsFLA131PTscherning, K. Leihner, D.E.Hilger, T.H.Muller-Samann, K.M.El Sharkawy, M.A.enARRAY(0x8cf2e4)2-3037842909500028PTscherning, K. Leihner, D.E.Hilger, T.H.Muller-Samann, K.M.El Sharkawy, M.A.14019951043KenGCassava,Grasses,Competition,Grass barriers,Root growth,Rooting patterns03784290037842909500028ƒzNenJClimate change,Environmental factors,Modelling,Nitrogen,Water stress,WheatHen]Global environment change and simulated forage quality of wheat II. Water and nitrogen stressen_ascii]Global environment change and simulated forage quality of wheat II. Water and nitrogen stressFLA29Seligman, N.G.Sinclair, T.R.enARRAY(0x8f7d28)1037842909400092Seligman, N.G.Sinclair, T.R.3719950140NenJClimate change,Environmental factors,Modelling,Nitrogen,Water stress,Wheat03784290037842909400092 ñûìý(G8ÜÍbRp`ôä t dtd è ØäÔ^NYI+0å+M—ƒ`enLeguminous crops,Grain legumes,Direct DNA transfer,Particle bombardment,Agrobacterium-mediated transformation,Legume BiotechnologyZen&Biotechnology applied to grain legumesen_ascii&Biotechnology applied to grain legumesFLA83 Christou, P.enARRAY(0x5e3d1c)1-3S037842909700024 Christou, P.9719970753enLeguminous crops,Grain legumes,Direct DNA transfer,Particle bo„HenDProteomicsTwo-dimensional gel electrophoresisRiceDroughtSalinity"en_asciiJA proteomic approach to analyzing drought- and salt-responsiveness in riceenJA proteomic approach to analyzing drought- and salt-responsiveness in riceFLA199CSalekdeh, G.H. Siopongco, J. Wade, L.J.Ghareyazie, B.Bennett, J.enARRAY(0xa84044)2-3S037842900200040CSalekdeh, G.H. Siopongco, J. Wade, L.J.Ghareyazie, B.Bennett, J.21920020776HenDProteomicsTwo-dimensional gel electrophoresisRiceDroughtSalinity03784290S037842900200040ƒsgencZea mays L.CornNo-tillSoil physical stressesMultiple stress analysisMixed modelSAS PROC MIXEDen_ascii@Assessment of multiple- and single-factor stress impacts on cornen@Assessment of multiple- and single-factor stress impacts on cornFLA123 Vyn, T.J.Hooker, D.C.enARRAY(0x801468)2-3S037842900200022 Vyn, T.J.Hooker, D.C.1372002051075gencZea mays L.CornNo-tillSoil physical stressesMultiple stress analysisMixed modelSAS PROC MIXED49470703784290S037842900200022„tcen_Chilo suppressalisScirpophaga incertulasStem borersHost plant resistanceRice new plant type‚enyComparison of stem borer damage and resistance in semidwarf Indica rice varieties and prototype lines of a new plant typeen_asciiyComparison of stem borer damage and resistance in semidwarf Indica rice varieties and prototype lines of a new plant typeFLA37$ Zhu, Z.-R.Romena, A.M.Cohen, M.B.enARRAY(0x7a4320)1S037842900200004$ Zhu, Z.-R.Romena, A.M.Cohen, M.B.452002032875cen_Chilo suppressalisScirpophaga incertulasStem borersHost plant resistanceRice new plant type25739703784290S037842900200004ƒrPenLBiomassDeterminate growthIndeterminate growthNitrogen fixationSeed yielden_asciiVigna mungo L. Hepper)FLA183;Ghafoor, A. Sharif, A. Ahmad, Z.Zahid, M.A. Rabbani, M.A.enARRAY(0x7c9868)2 abacaS037842900000141;Ghafoor, A. Sharif, A. Ahmad, Z.Zahid, M.A. Rabbani, M.A.19020010269HenDCluster analysisGermplasm evaluationMashMultivariate analysisPCA03784290S037842900000141„n_en[Rhizobial inoculantsTropical soybeanNitrogen fertilizersAgronomic benefitsPlant densityZen_asciifAgronomic benefits of rhizobial inoculant use over nitrogen fertilizer application in tropical soybeanenfAgronomic benefits of rhizobial inoculant use over nitrogen fertilizer application in tropical soybeanFLA199;Seneviratne, GaminiVan Holm, L.H.J.Ekanayake, E.M.H.G.S.enARRAY(0x7bd54c)3S037842900000123;Seneviratne, GaminiVan Holm, L.H.J.Ekanayake, E.M.H.G.S.20320001168_en[Rhizobial inoculantsTropical soybeanNitrogen fertilizersAgronomic benefitsPlant density03784290S037842900000123‚j+en'Crop modelingSunflower modelGenotypeslen_ascii/Criteria for publishing papers on crop modelingen/Criteria for publishing papers on crop modelingFLA165$Sinclair, Thomas R.Seligman, No'amenARRAY(0x7d1b98)3abS037842900000105$Sinclair, Thomas R.Seligman, No'am17220001168+en'Crop modelingSunflower modelGenotypes03784290S037842900000105` en Editorialen_ascii EditorialEDI1& Ten Berge, H.Aggarwal, P. Kropff, M.1-2-Special Issue: Applications of Rice ModellingS037842909783119& Ten Berge, H.Aggarwal, P. Kropff, M.31997035103784290S037842909783119„iPenLBambara groundnut,Vigna subterranea L,Bradyrhizobium,Nnoculation,N2-fixationPenaVariation in nitrogen fixation and yield in landraces of bambara groundnut (Vigna subterranea L.)en_asciiaVariation in nitrogen fixation and yield in landraces of bambara groundnut (Vigna subterranea L.)FLA57JKishinevsky, B.D.Zur, M.Friedman, Y. Meromi, G. Ben-Moshe, E. Nemas, C.enARRAY(0x5dc5dc)1037842909600037JKishinevsky, B.D.Zur, M.Friedman, Y. Meromi, G. Ben-Moshe, E. Nemas, C.6419960948[enWBambara groundnut,Vigna subterranea L,Bradyrhizobium,Nnoculation,N₂-fixation03784290037842909600037„ZXenTVetch,Vetch-cereal hays,Botanical and chemical composition,Mediterranean agriculture@enYFarming practices and chemical bases for a proposed quality standard of vetch-cereal haysen_asciiYFarming practices and chemical bases for a proposed quality standard of vetch-cereal haysFLA181F Caballero, R. Rebole, A. Barro, C.Alzueta, C.Trevino, J. Garcia, C.enARRAY(0x60888c)2-3037842909600019F Caballero, R. Rebole, A. Barro, C.Alzueta, C.Trevino, J. Garcia, C.18919960847XenTVetch,Vetch-cereal hays,Botanical and chemical composition,Mediterranean agriculture03784290037842909600019ƒP9en5Cajanus cajan,Pests and diseases,Pigeonpea,ResistanceJen^Effect of root-knot nematodes (Meloidogyne spp.) on fusarium wilt in pigeonpea (Cajanus cajan)en_ascii^Effect of root-knot nematodes (Meloidogyne spp.) on fusarium wilt in pigeonpea (Cajanus cajan)FLA15Marley, P.S.Hillocks, R.J.enARRAY(0x6d16a8)1-3037842909500083Marley, P.S.Hillocks, R.J.20199606469en5Cajanus cajan,Pests and diseases,Pigeonpea,Resistance03784290037842909500083…S`en\Commercialisation,Field performance,Oxynil herbicides,Resistance,Herbicide,Transgenic plantsen=Crops resistant to oxynils: from the laboratory to the marketen_ascii=Crops resistant to oxynils: from the laboratory to the marketFLA1256Freyssinet, G. Pelissier, B.Freyssinet, M. Delon, R.enARRAY(0x5c6c98)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece0378429095000656Freyssinet, G. Pelissier, B.Freyssinet, M. Delon, R.13319960545`en\Commercialisation,Field performance,Oxynil herbicides,Resistance,Herbicide,Transgenic plants03784290037842909500065ƒ^Den@Glycine,Impermeable seed coat,Soybean,Impermeability,Germination,enOEffects of storage environment and duration on impermeable seed coat in soybeanen_asciiOEffects of storage environment and duration on impermeable seed coat in soybeanFLA57(Heatherly, L.G.Kenty, M.M.Kilen, T.C.enARRAY(0x8f7d40)1037842909400075(Heatherly, L.G.Kenty, M.M.Kilen, T.C.6219950140Den@Glycine,Impermeable seed coat,Soybean,Impermeability,Germination03784290037842909400075ƒtPenLGrain yield,Kernel abortion,Maize,Water stress,Water-use efficiency,Zea mays,enOGrowth, water use, and kernel abortion of maize subjected to drought at silkingen_asciiOGrowth, water use, and kernel abortion of maize subjected to drought at silkingFLA87'Otegui, M.E. Andrade, F.H.Suero, E.E.enARRAY(0x870570)2037842909400093'Otegui, M.E. Andrade, F.H.Suero, E.E.9419950240PenLGrain yield,Kernel abortion,Maize,Water stress,Water-use efficiency,Zea mays03784290037842909400093 ñA2`Q¿°Â³gW~n¨˜o¡‘ Y IâÒûñueç¡çÌ}2en_asciiCONTENTS CONTINUEDenCONTENTS CONTINUEDMIS2192-3S0378429002001222192002097703784290S037842900200122„zfenbAdaptationField experimentationGeographic information systemsSimulation modelsSpatial analysis‚en_asciiyInsufficient geographic characterization and analysis in the planning, execution and dissemination of agronomic research?enyInsufficient geographic characterization and analysis in the planning, execution and dissemination of agronomic research?FLA45(White, J.W. Corbett, J.D. Dobermann, A.enARRAY(0xa81b34)1S037842900200041(White, J.W. Corbett, J.D. Dobermann, A.5420020676fenbAdaptationField experimentationGeographic information systemsSimulation modelsSpatial analysis03784290S037842900200041ƒx.en*WheatGxEClimatePhenologyYieldBreeding2en_asciiRPhysiological factors associated with genotype by environment interaction in wheatenRPhysiological factors associated with genotype by environment interaction in wheatFLA139?Reynolds, M.P. Trethowan, R. Crossa, J. Vargas, M.Sayre, K.D.enARRAY(0x8011f4)2-3S037842900200023?Reynolds, M.P. Trethowan, R. Crossa, J. Vargas, M.Sayre, K.D.1602002051075.en*WheatGxEClimatePhenologyYieldBreeding49470703784290S037842900200023ƒE(en$CottonMepiquat chloridePixTropics6en_asciiTDeveloping management options for mepiquat chloride in tropical winter season cottonenTDeveloping management options for mepiquat chloride in tropical winter season cottonFLA217+Yeates, S.J.Constable, G.A. McCumstie, T.enARRAY(0x7a6b44)2-3S037842900200005+Yeates, S.J.Constable, G.A. McCumstie, T.2302002031574(en$CottonMepiquat chloridePixTropics8937303784290S037842900200005„eZenVDirect-seeded riceControlled-release fertilizerSoil physical propertiesWater stressHen_ascii]The drought response of lowland rice to crop establishment practices and N-fertilizer sourcesen]The drought response of lowland rice to crop establishment practices and N-fertilizer sourcesFLA243?Tuong, T.P.Castillo, E.G.Cabangon, R.C. Boling, A. Singh, U.enARRAY(0x8582b4)2-3S037842900100213?Tuong, T.P.Castillo, E.G.Cabangon, R.C. Boling, A. Singh, U.2572002031574ZenVDirect-seeded riceControlled-release fertilizerSoil physical propertiesWater stress8937303784290S037842900100213„6PenLRiceRootsRoot distributionXylemRoot:shoot ratioindicajaponicaausbulu"en_asciiJRice root morphological traits are related to isozyme group and adaptationenJRice root morphological traits are related to isozyme group and adaptationFLA577 Lafitte, H.R.Champoux, M.C.McLaren, G. O'Toole, J.C.enARRAY(0x4c93c8)1aaabS0378429001001507 Lafitte, H.R.Champoux, M.C.McLaren, G. O'Toole, J.C.702001060571lenhRiceRootsRoot distributionXylemRoot:shoot ratioindicajaponicaausbulu9466703784290S037842900100150ƒL'en#BarleyFaba beanPeaFallowDryland6en_asciiTCereal-legume rotations in a Mediterranean environment: biomass and yield productionenTCereal-legume rotations in a Mediterranean environment: biomass and yield productionFLA139>Díaz-Ambrona, Carlos H.Mínguez, M. InésenARRAY(0xc24970)2S037842900100132)Diaz-Ambrona, Carlos H.Minguez, M. Ines1512001042070'en#BarleyFaba beanPeaFallowDryland03784290S037842900100132„GenCRoot water uptakeEcophysiologyRoot hydraulic conductanceModeling en_asciiIEstimation of root water uptake of maize: an ecophysiological perspectiveenIEstimation of root water uptake of maize: an ecophysiological perspectiveFLA201?Zhuang, JieNakayama, KeiichiYu, Gui-RuiUrushisaki, TakayukienARRAY(0x7a78a4)3aabaS037842900000142?Zhuang, JieNakayama, KeiichiYu, Gui-RuiUrushisaki, Takayuki21320010369GenCRoot water uptakeEcophysiologyRoot hydraulic conductanceModeling16270903784290S037842900000142…DYenUIndica riceRice grain shape traitsGenetic variancesSeed embryo effectHeritability‚Hen_asciiGenetic and genotype * environment interaction effects from embryo, endosperm, cytoplasm and maternal plant for rice grain shape traits of indica riceen"Genetic and genotype × environment interaction effects from embryo, endosperm, cytoplasm and maternal plant for rice grain shape traits of indica riceFLA1911Shi, ChunhaiZhu, JunWu, JianguoFan, LongjiangenARRAY(0x7ca5b8)3S0378429000001241Shi, ChunhaiZhu, JunWu, JianguoFan, Longjiang19820001168`en\Indica riceRice grain shape traitsGenetic variancesSeed embryo effectHeritability03784290S037842900000124ƒWlen_asciioErratum to "Improved methodologies for breeding striga-resistant sorghums". [Field Crop Res. 66 (2000) 195-211]enoErratum to "Improved methodologies for breeding striga-resistant sorghums". [Field Crop Res. 66 (2000) 195-211]ERR273NHaussmann, Bettina I.G. Hess, Dale E.Welz, H.-GünterGeiger, Hartwig H.3abaaS037842900000106IHaussmann, Bettina I.G. Hess, Dale E.Welz, H.-GunterGeiger, Hartwig H.273200008106703784290S037842900000106„JUenQRice,Oryza,Drought stress,Radiation interception,Root length,Water-use efficiency‚enEffects of soil water deficit at different growth stages on rice growth and yield under upland conditions. 1. Growth during droughten_asciiEffects of soil water deficit at different growth stages on rice growth and yield under upland conditions. 1. Growth during droughtFLA37Boonjung, H. Fukai, S.enARRAY(0x576864)1037842909600038Boonjung, H. Fukai, S.4519960948UenQRice,Oryza,Drought stress,Radiation interception,Root length,Water-use efficiency03784290037842909600038ƒl=en9Drought,Modelling,Morphology,Oryza sativa,Physiology,Rice$enKDrought-stress responses of two lowland rice cultivars to soil water statusen_asciiKDrought-stress responses of two lowland rice cultivars to soil water statusFLA219Wopereis, M.C.S.Kropff, M.J.Maligaya, A.R.Tuong, T.P.enARRAY(0x6d14b0)1-30378429095000849Wopereis, M.C.S.Kropff, M.J.Maligaya, A.R.Tuong, T.P.3919960646=en9Drought,Modelling,Morphology,Oryza sativa,Physiology,Rice03784290037842909500084…wensGenetic engineering,Plant breeding,Resistance,Herbicide,RFLP-aided backcrossing,Review,Time-scale,Transgenic plantshen-Time-scale for transgenic product developmenten_ascii-Time-scale for transgenic product developmentFLA135 Dunwell, J.M.enARRAY(0x575e84)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500066 Dunwell, J.M.14219960545wensGenetic engineering,Plant breeding,Resistance,Herbicide,RFLP-aided backcrossing,Review,Time-scale,Transgenic plants03784290037842909500066ƒP'en#Competition,Maize,Nitrogen,Zea maysTencIntergenotypic competition during evaluation of maize progenies under limited and adequate N supplyen_asciicIntergenotypic competition during evaluation of maize progenies under limited and adequate N supplyFLA25*Banziger, M. 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Lee, E.A.1692002051075TenPZea mays L.Genetic improvementYield potentialYield stabilityStress tolerance49470703784290S037842900200024„6IenERiceGroundnutGreen manureFertilizerIntegrated nutrient managementFen\Maximizing yields in rice-groundnut cropping sequence through integrated nutrient managementen_ascii\Maximizing yields in rice-groundnut cropping sequence through integrated nutrient managementFLA9<Prasad, P.V.V.Satyanarayana, V.Murthy, V.R.K.Boote, K.J.enARRAY(0x7afa60)1S037842900100214<Prasad, P.V.V.Satyanarayana, V.Murthy, V.R.K.Boote, K.J.212002032875IenERiceGroundnutGreen manureFertilizerIntegrated nutrient management23194803784290S037842900100214„ UenQRiceAmino acidNear-infrared reflectance spectroscopy (NIRS)Nutritional qualityJen^Estimating the amino acid composition in milled rice by near-infrared reflectance spectroscopyen_ascii^Estimating the amino acid composition in milled rice by near-infrared reflectance spectroscopyFLA1Wu, J.G.Shi, C. Zhang, X.enARRAY(0x7a4044)1S037842900200006Wu, J.G.Shi, C. 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Lee, E.A. Tollenaar, M.enARRAY(0x892d94)2S037842900000107!Ying, J. Lee, E.A. Tollenaar, M.962000101068yenuCarbon exchange rateChlorophyll fluorescenceZea mays L.Old and new hybridsCold stressGrain-filling period14233203784290S037842900000107…F]enYWheatStratospheric ozone depletionUV-B radiationResponse indexCrop growthGrain yield‚en_asciiIntraspecific responses in crop growth and yield of 20 wheat cultivars to enhanced ultraviolet-B radiation under field conditionsenIntraspecific responses in crop growth and yield of 20 wheat cultivars to enhanced ultraviolet-B radiation under field conditionsFLA25FYuan, Li Yanqun, ZuHaiyan, Chen Jianjun, ChenJilong, Yang Zhide, HuenARRAY(0x834098)1a,baaaabS037842900000080FYuan, Li Yanqun, ZuHaiyan, Chen Jianjun, ChenJilong, Yang Zhide, Hu3320000767]enYWheatStratospheric ozone depletionUV-B radiationResponse indexCrop growthGrain yield8937303784290S037842900000080ƒP:en6Environmental factors,Nitrogen,Yield,Triticum aestivum"enJGenetic and agronomic contributions to yield gains: A case study for wheaten_asciiJGenetic and agronomic contributions to yield gains: A case study for wheatFLA55/ Bell, M.A. Fischer, R.A.Byerlee, D. Sayre, K.enARRAY(0x61f218)2-3037842909500049/ Bell, M.A. Fischer, R.A.Byerlee, D. Sayre, K.6519951244:en6Environmental factors,Nitrogen,Yield,Triticum aestivum03784290037842909500049„JCen?Rice,Oryza,Water stress,Yield components,Growth stage,Phenology‚Pisum sativum L.NitrogenNitrogen harvest indexSeed fill03784290S037842900100152„‚2en_asciiErratum to "Genotype-by-management interactions for grain yield and grain protein concentration of wheat". [Field Crops Research 69 (2001) 47-67]enErratum to "Genotype-by-management interactions for grain yield and grain protein concentration of wheat". [Field Crops Research 69 (2001) 47-67]ERR87D Cooper, M.Woodruff, D.R. Philips, I.G. Basford, K.E. Gilmour, A.R.1 abaacS037842900100134D Cooper, M.Woodruff, D.R. Philips, I.G. Basford, K.E. Gilmour, A.R.88200104017016270903784290S037842900100134…E`en\Light interceptionLeaf azimuth distributionThree-dimensional architectural modelsZea mays‚,en_asciiLight interception of contrasting azimuth canopies under square and rectangular plant spatial distributions: simulations and crop measurementsenLight interception of contrasting azimuth canopies under square and rectangular plant spatial distributions: simulations and crop measurementsFLA14Maddonni, G.A. Chelle, M. Drouet, J.-L.Andrieu, B.enARRAY(0xa69c20)1abbbS0378429000001444Maddonni, G.A. Chelle, M. Drouet, J.-L.Andrieu, B.132001040170gencLight interceptionLeaf azimuth distributionThree-dimensional architectural modelsZea mays16270903784290S037842900000144†senoCropping systemsFertiliser NPKIndo-Gangetic PlainIntegrated nutrient useRice-wheat rotationOrganic manures‚,en_asciiYield trends, and changes in soil organic-C and available NPK in a long-term rice-wheat system under integrated use of manures and fertilisersenYield trends, and changes in soil organic-C and available NPK in a long-term rice-wheat system under integrated use of manures and fertilisersFLA219PYadav, R.L. Dwivedi, B.S. Prasad, KamtaTomar, O.K.Shurpali, N.J.Pandey, P.S.enARRAY(0x7b44bc)3S037842900000126PYadav, R.L. Dwivedi, B.S. Prasad, KamtaTomar, O.K.Shurpali, N.J.Pandey, P.S.24620001168senoCropping systemsFertiliser NPKIndo-Gangetic PlainIntegrated nutrient useRice-wheat rotationOrganic manures03784290S037842900000126„.en*SugarModelMethodologySystem performancePen_asciiaModelling sugarcane production systems. II: Analysis of system performance and methodology issuesenaModelling sugarcane production systems. II: Analysis of system performance and methodology issuesFLA318Lisson, S.N.Robertson, M.J. Keating, B.A.Muchow, R.C.enARRAY(0x842aa8)1a,bcb,cb,cS0378429000001088Lisson, S.N.Robertson, M.J. Keating, B.A.Muchow, R.C.482000092968.en*SugarModelMethodologySystem performance03784290S037842900000108„NenJBreaking strengthMedicago speciesSpiny podShedding habitSeed dispersal9en_asciiRPod-shedding habit in Medicago species, evaluated by breaking strength of pedicelsenYPod-shedding habit in Medicago species, evaluated by breaking strength of pedicelsFLA269"Oba, S.Furutani, T.Fujimoto, F.enARRAY(0x9fbd1c)3S037842900000081"Oba, S.Furutani, T.Fujimoto, F.27620000666UenQBreaking strengthMedicago speciesSpiny podShedding habitSeed dispersal14233203784290S037842900000081ƒyEenARiceOryza sativaPink stem borerSesamia nonagrioidesResistanceBen_asciiSEvaluation of rice for resistance to pink stem borer (Sesamia nonagrioides Lefebre)enaEvaluation of rice for resistance to pink stem borer (Sesamia nonagrioides Lefebre)FLA63Ntanos, D.A.Koutroubas, S.D.enARRAY(0x8b2684)1S037842900000063Ntanos, D.A.Koutroubas, S.D.7120000466SenORiceOryza sativaPink stem borerSesamia nonagrioidesResistance14233203784290S037842900000063ƒPCen?Determinate,Drought,Glycine max,Indeterminate,Phenology,Soybean>enXImpact of drought stress on the phenology of two soybean (Glycine max L. 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Roumet, P.7019960646Cen?Determinate,Drought,Glycine max,Indeterminate,Phenology,Soybean03784290037842909500086„QLenHGene flow,Pollen dispersal,Pollinators,Risk assessment,Transgenic plantsen9The effects of sexually selected traits on gene dispersalen_ascii9The effects of sexually selected traits on gene dispersalFLA163 Skogsmyr, I.enARRAY(0x5ca1c4)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500068 Skogsmyr, I.17019960545LenHGene flow,Pollen dispersal,Pollinators,Risk assessment,Transgenic plants03784290037842909500068„FenDrought resistance,Genotype by environment interaction,Plant breeding,Oryza sativa,Rainfed lowland,Upland,Rice,Stress physiology6enTDevelopment of drought-resistant cultivars using physio-morphological traits in riceen_asciiTDevelopment of drought-resistant cultivars using physio-morphological traits in riceREV67 Fukai, S. Cooper, M.enARRAY(0x6b0250)2037842909400096 Fukai, S. Cooper, M.8619950240enDrought resistance,Genotype by environment interaction,Plant breeding,Oryza sativa,Rainfed lowland,Upland,Rice,Stress physiology03784290037842909400096ñÑÂ‰zØÈ6&‰yZJ ¯ Ÿ)¹©Ú0¤Ú0ð.(U›…[enWAmino acidsb-CaroteneEnergy releaseMicronutrientsPhytateProteinPennisetum glaucumen_asciiDVariation in grain quality of pearl millet from Sahelian West Afri‡MhencC, cultivarFL, floweringMT, maximum tilleringN, nitrogenNUE, nitrogen-use efficiencyPD, sowing datePE, physiological efficiencyPI, panicle initiationPM, physiological maturityRF, fertilizer-recovery efficiencyW, water‚en_asciiCultivar, nitrogen, and water effects on productivity, and nitrogen-use efficiency and balance for rice-wheat sequences of BangladeshenCultivar, nitrogen, and water effects on productivity, and nitrogen-use efficiency and balance for rice-wheat sequences of BangladeshFLA143<Timsina, J. Singh, U.Badaruddin, M.Meisner, C. Amin, M.R.enARRAY(0x79d1dc)2 aabcbS037842900100171<Timsina, J. Singh, U.Badaruddin, M.Meisner, C. Amin, M.R.1612001091272hencC, cultivarFL, floweringMT, maximum tilleringN, nitrogenNUE, nitrogen-use efficiencyPD, sowing datePE, physiological efficiencyPI, panicle initiationPM, physiological maturityRF, fertilizer-recovery efficiencyW, water03784290S037842900100171„^TenP15NResidual N-fertiliserFertiliser recoveryRainfed wheatWheat yield responseHen_ascii]Yield response and N-fertiliser recovery of rainfed wheat growing in the Mediterranean regionen]Yield response and N-fertiliser recovery of rainfed wheat growing in the Mediterranean regionFLA113& Kirda, C.Derici, M.R.Schepers, J.S.enARRAY(0x926d10)2aabS037842900100153& Kirda, C.Derici, M.R.Schepers, J.S.1222001062871en¹⁵NResidual N-fertiliserFertiliser recoveryRainfed wheatWheat yield response03784290S037842900100153…UuenqRiceChickpeaFallowN balanceDirect-seedingTransplantedAlfisolVertisolCropping systemRice-legume rotationszen_asciivNitrogen dynamics and crop growth on an Alfisol and a Vertisol under a direct-seeded rainfed lowland rice-based systemenvNitrogen dynamics and crop growth on an Alfisol and a Vertisol under a direct-seeded rainfed lowland rice-based systemFLA185CPatil, S.K. Singh, U.Singh, V.P.Mishra, V.N. Das, R.O. Henao, J.enARRAY(0x8883ec)3abcaabS037842900100135CPatil, S.K. Singh, U.Singh, V.P.Mishra, V.N. Das, R.O. Henao, J.1992001050170uenqRiceChickpeaFallowN balanceDirect-seedingTransplantedAlfisolVertisolCropping systemRice-legume rotations03784290S037842900100135… cen_YamSeed ratePlant populationCanopy dynamicsSurface responseLeaf area indexGrowth analysisuen_asciipEffects of seed rates and plant populations on canopy dynamics and yield in the greater yam (Dioscorea alata L.)enwEffects of seed rates and plant populations on canopy dynamics and yield in the greater yam (Dioscorea alata L.)FLA158Rodríguez-Montero, W.Hilger, T.H. Leihner, D.E.enARRAY(0xa68a00)1abbS0378429000001451Rodriguez-Montero, W.Hilger, T.H. Leihner, D.E.262001040170cen_YamSeed ratePlant populationCanopy dynamicsSurface responseLeaf area indexGrowth analysis16270903784290S037842900000145…[enWAmino acidsb-CaroteneEnergy releaseMicronutrientsPhytateProteinPennisetum glaucumen_asciiDVariation in grain quality of pearl millet from Sahelian West AfricaenDVariation in grain quality of pearl millet from Sahelian West AfricaFLA1PBuerkert, Andreas Moser, MarionKumar, Anand K.Fürst, Peter Becker, KlausenARRAY(0x7bbca4)1S037842900000127KBuerkert, Andreas Moser, MarionKumar, Anand K.Furst, Peter Becker, Klaus1120010169'en"Amino acids

-CaroteneEnergy releaseMicronutrientsPhytateProteinPennisetum glaucum69808303784290S037842900000127†jenfN accumulationWhite cloverField peaN balanceIsotope dilution15N enrichmentBiological N2 fixation‚len_ascii'Biological nitrogen fixation, accumulation of soil nitrogen and nitrogen balance for white clover (Trifolium repens L.) and field pea (Pisum sativum L.) grown for seeden5Biological nitrogen fixation, accumulation of soil nitrogen and nitrogen balance for white clover (Trifolium repens L.) and field pea (Pisum sativum L.) grown for seedFLA49 Kumar, KuldipGoh, Kuan M.enARRAY(0x8b8d70)1S037842900000109 Kumar, KuldipGoh, Kuan M.5920000929681en,N accumulationWhite cloverField peaN balanceIsotope dilution¹⁵N enrichmentBiological N₂ fixation03784290S037842900000109ƒBrassica napus L.): a reviewFLA35Diepenbrock, W.enARRAY(0x832cb0)1S037842900000082Diepenbrock, W.4920000767Cen?Brassica napusGrowthModellingRapeseedYield formation8937303784290S037842900000082…IenECottonFibre characteristicsSalinitySalt toleranceYield components‚gen_ascii(Influence of sodium chloride on ion accumulation, yield components and fibre characteristics in salt-tolerant and salt-sensitive lines of cotton (Gossypium hirsutum L.)en/Influence of sodium chloride on ion accumulation, yield components and fibre characteristics in salt-tolerant and salt-sensitive lines of cotton (Gossypium hirsutum L.)FLA115 Ashraf, M. Ahmad, SaghirenARRAY(0xcd3038)2S037842900000064 Ashraf, M. Ahmad, Saghir12720000566IenECottonFibre characteristicsSalinitySalt toleranceYield components25990003784290S037842900000064… jenfAdaptation,Drought,Genotype-environment interaction,Selection, indirect,Triticum durum,Yield stability‚4enPrediction of adaptability and yield stability of durum wheat genotypes from yield response in normal and artificially drought-stressed conditionsen_asciiPrediction of adaptability and yield stability of durum wheat genotypes from yield response in normal and artificially drought-stressed conditionsFLA71Annicchiarico, P.Mariani, G.enARRAY(0x6d0850)1-3037842909500087Annicchiarico, P.Mariani, G.8019960646jenfAdaptation,Drought,Genotype-environment interaction,Selection, indirect,Triticum durum,Yield stability03784290037842909500087†7ben^Brassica,Cropping systems,Ecology,Pest control,Resistance,Pesticide,Strategy,Transgenic plants‚enAssessing the risk of pest resistance evolution to Bacillus thuringiensis engineered into crop plants: a case study of oilseed rapeen_asciiAssessing the risk of pest resistance evolution to Bacillus thuringiensis engineered into crop plants: a case study of oilseed rapeFLA171Hokkanen, H.M.T. Wearing, C.H.enARRAY(0x5cbe24)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500069Hokkanen, H.M.T. Wearing, C.H.17919960545ben^Brassica,Cropping systems,Ecology,Pest control,Resistance,Pesticide,Strategy,Transgenic plants03784290037842909500069„JenFGreen manure,Fertilizer,Nitrogen,Relay cropping,Rice,Sesbania rostrataTencAgronomic and economic evaluation of Sesbania rostrata green manure establishment in irrigated riceen_asciicAgronomic and economic evaluation of Sesbania rostrata green manure establishment in irrigated riceFLA135- Becker, M.Ali, M.Ladha, J.K. Ottow, J.C.G.enARRAY(0x6b0700)3037842909400097- Becker, M.Ali, M.Ladha, J.K. Ottow, J.C.G.14119950340JenFGreen manure,Fertilizer,Nitrogen,Relay cropping,Rice,Sesbania rostrata03784290037842909400097 ñpaÍ½œŒqaQbRÿ:*®ž ü ì i YgWÈ¸üaaúD…PDen@PhenologyMechanistic weed modelsJuvenile phaseBiological daysken_asciikEffect of temperature and photoperiod on the phenological development of wild mustard (Sinapis arvensis L.)enrEffect of temperature and photoperiod on the phenological development of wild mustard (Sinapis arvensis L.)FLA75vHuang, Jian ZhongS<en_asciiINSTRUCTIONS TO AUTHORSenINSTRUCTIONS TO AUTHORSPUB791[DOI] 10.1016/S03784290030025783200401088575504303784290[DOI] 10.1016/S037842900300257den_asciiIFCenIFCMISCO22S037842900200225CO220030120805992903784290S037842900200225„'JenFExponential growthEarly vigorCrop modelingCrop improvementBreeding‚en_ascii|Importance of rapid canopy closure for wheat production in a temperate sub-humid environment: experimentation and simulationen|Importance of rapid canopy closure for wheat production in a temperate sub-humid environment: experimentation and simulationFLA17Soltani, A.Galeshi, S.enARRAY(0x9fd720)1S037842900200045Soltani, A.Galeshi, S.3020020877JenFExponential growthEarly vigorCrop modelingCrop improvementBreeding03784290S037842900200045 Den_asciiSpecial issue Contents PageenSpecial issue Contents PageMISiv2-3S037842900200081iv2002077603784290S037842900200081ƒpIenEGenetic improvementSource-sink ratioAssimilate supplySoybean yield\en_asciigTrials and tribulations: a review of the role of assimilate supply in soybean genetic yield improvementengTrials and tribulations: a review of the role of assimilate supply in soybean genetic yield improvementFLA211 Kumudini, S.enARRAY(0x85e6f0)2-3S037842900200027 Kumudini, S.2222002051075IenEGenetic improvementSource-sink ratioAssimilate supplySoybean yield49470703784290S0378429002000270en_asciiGUIDE FOR AUTHORSenGUIDE FOR AUTHORSPUB1031S037842900200009106200202157413533103784290S037842900200009… fenbAndean germplasmPhaseolus vulgarisCarbohydrate allocationLow P toleranceNodulationN2 fixation‚%en_asciiVariation in di-nitrogen fixation among Andean bean (Phaseolus vulgaris L.) genotypes grown at low and high levels of phosphorus supplyenVariation in di-nitrogen fixation among Andean bean (Phaseolus vulgaris L.) genotypes grown at low and high levels of phosphorus supplyFLA133Christiansen, I.Graham, P.H.enARRAY(0x7ad08c)2-3S037842900100190Christiansen, I.Graham, P.H.14220020173xentAndean germplasmPhaseolus vulgarisCarbohydrate allocationLow P toleranceNodulationN₂ fixation03784290S037842900100190„zenAllometryReproductive partitioningAssimilate requirementPlant-to-plant variationPlant growth rateStabilitySeed set efficiency0en_asciiQReproductive partitioning and seed set efficiency in soybean, sunflower and maizeenQReproductive partitioning and seed set efficiency in soybean, sunflower and maizeFLA163(Vega, C.R.C. Andrade, F.H.Sadras, V.O.enARRAY(0x7b5940)3S037842900100172(Vega, C.R.C. Andrade, F.H.Sadras, V.O.1752001092872enAllometryReproductive partitioningAssimilate requirementPlant-to-plant variationPlant growth rateStabilitySeed set efficiency11958903784290S037842900100172ƒCBen>TaroColocasia esculentaHydrudandsMulchCompostSolarization~en_ascii8Mulch and compost effects on yield and corm rots of taroen8Mulch and compost effects on yield and corm rots of taroFLA101*Miyasaka, S.C. Hollyer, J.R.Kodani, L.S.enARRAY(0x9390ec)2aa,baS037842900100154*Miyasaka, S.C. 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Panozzo, J.F. Read, B.J.enARRAY(0x8e54f8)2-3[DOI] 10.1016/j.fcr.2003.11.003 Emebiri, L.C.Moody, D.B. Panozzo, J.F. Read, B.J.2052004051087FenBBarleyQuantitative trait lociQTLMolecular markersMicro-malting5992903784290[DOI] 10.1016/j.fcr.2003.11.00…6enBeanCrop rotationCrotalariaImproved fallowsMaizeMeloidogyne spp.Natural fallowPratylenchus zeaeRoot-knot nematodeSesbania‚en_asciiyParasitic nematode populations in natural fallows and improved cover crops and their effects on subsequent crops in KenyaenyParasitic nematode populations in natural fallows and improved cover crops and their effects on subsequent crops in KenyaFLA41Desaeger, J. Rao, M.R.enARRAY(0x8b65ac)1S037842909900071Desaeger, J. 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SipaseuthSihavong, P.Sihathep, V.Chanphengsay, M. Fukai, S. Basnayake, J.enARRAY(0x87872c)1aabcdeeS037842909900070\Inthapanya, P. SipaseuthSihavong, P.Sihathep, V.Chanphengsay, M. Fukai, S. Basnayake, J.6820000265]enYRiceRainfed lowlandGenotypeNutrient uptakeNutrient-use efficiencyNitrogenPhosphorus15016803784290S037842909900070…)YenUPlant mappingPlastochronFruit abscissionBoll growth and developmentShadingCotton‚Hen_asciiAge-related abscission patterns of cotton fruiting forms: timing of the end of abscission susceptibility in relation to water content and growth of the bollenAge-related abscission patterns of cotton fruiting forms: timing of the end of abscission susceptibility in relation to water content and growth of the bollFLA261# Crozat, Y. Judais, V.Kasemsap, P.enARRAY(0x82efec)3abcS037842909900061# Crozat, Y. 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Lee, H.C.enARRAY(0x8a3d58)2-3S037842909900016 Haymes, R. Lee, H.C.1761999062562'en#WheatViciaIntercroppingDensities14853203784290S037842909900016„/WenSZea mays L.PhotoperiodPPFDPhenologyRate of leaf appearanceGrain-filling period‚en_asciizDuration of the grain-filling period in maize is not affected by photoperiod and incident PPFD during the vegetative phaseenzDuration of the grain-filling period in maize is not affected by photoperiod and incident PPFD during the vegetative phaseFLA15 Tollenaar, M.enARRAY(0x7818c8)1S037842909800170 Tollenaar, M.211999060162WenSZea mays L.PhotoperiodPPFDPhenologyRate of leaf appearanceGrain-filling period2806403784290S037842909800170…LkengGenotype _ environment interactionGrain fillingBarleyMediterranean environmentsFactorial regression‚$en_ascii Integrating statistical and ecophysiological analyses of genotype by environment interaction for grain filling of barley II. 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Grain growthFLA756 Voltas, J.van Eeuwijk, F.A.Araus, J.L.Romagosa, I.enARRAY(0x77d35c)1S0378429099000076 Voltas, J.van Eeuwijk, F.A.Araus, J.L.Romagosa, I.841999060162kengGenotype _ environment interactionGrain fillingBarleyMediterranean environmentsFactorial regression2806403784290S037842909900007ƒVGenCRainfall infiltrationSeedling emergenceSoil surface crustSorghumRen_asciibNote on effects of soil surface crust on the grain yield of sorghum (Sorghum bicolor) in the SahelenbNote on effects of soil surface crust on the grain yield of sorghum (Sorghum bicolor) in the SahelFLA193 Daba, S.enARRAY(0x7d67e0)3S037842909800161 Daba, S.19919990561GenCRainfall infiltrationSeedling emergenceSoil surface crustSorghum31315003784290S037842909800161ðêÚ…uÕÅ ù®ž+>.íÝ < ,ùÛÄ¦«q«CöÉÀ™z2ÛÅ„l'ñæ»µ”‡G:ÕÌ¥™lhüÑ¸qkJ:ç–{ ËÀQ³Qè»¨md–Š<'èÕš•vgßÐŒV@ÿòÃñÃÁ‚eÖÁƒo Ñ ¾ ƒ h êß´Ÿ`Mö©”UB õ ¼ ³ Œ } J ; ÷ Ü ‘ … X I Ô·iSõÈ-url- 05380/articles/54/3/S092552739800006 -superarea- SAE -pubtype- JN -isbnissn- 09255273 -pubtitle- International Journal Of Production Economics -voliss- 54, 3 -coverdate- 18 May 1998 -canonicaldate- 19980518 -title- An approximate method for calculating the mean sojourn time of K-station production lines with no intermediate buffers -authors- Papadopoulos, H.T. -keywords- Queueing networks,GERT networks,Production lines,Stochastic modelling,Blocking phenomenon,Sojourn time -extra- __no_information__ -abstract- Based on the analysis of the holding time model (HTM), an approximate method is proposed for calculating the…y`en\RiceRainfed lowlandDroughtDrought scoreDrought resistanceGrain yieldIndirect selection‚en_asciiYield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowlands - 4. Vegetative stage screening in the dry seasonenYield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowlands - 4. Vegetative stage screening in the dry seasonFLA281QPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C. Basnayake, J.enARRAY(0x1c4ad8)2-3[DOI] 10.1016/j.fcr.2004.02.00QPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C. Basnayake, J.2972004100889`en\RiceRainfed lowlandDroughtDrought scoreDrought resistanceGrain yieldIndirect selection49470703784290[DOI] 10.1016/j.fcr.2004.02.00„?en;DroughtLow-NZea mays L.Stress toleranceSpillover effect<en_asciiWGains from improvement for mid-season drought tolerance in tropical maize (Zea mays L.)enWGains from improvement for mid-season drought tolerance in tropical maize (Zea mays L.)FLA1355Zaidi, P.H.Srinivasan, G. Cordova, H.S.Sanchez, C.enARRAY(0x1c4ad8)1[DOI] 10.1016/j.fcr.2004.01.015Zaidi, P.H.Srinivasan, G. Cordova, H.S.Sanchez, C.1522004091089?en;DroughtLow-NZea mays L.Stress toleranceSpillover effect03784290[DOI] 10.1016/j.fcr.2004.01.01„Cen?Cassava bacterial blightDisease resistanceEdaphoclimatic zone9en_asciiRResistance spectrum of selected Manihot esculenta genotypes under field conditionsenYResistance spectrum of selected Manihot esculenta genotypes under field conditionsFLA69:Restrepo, SilviaDuque, Myriam C.Verdier, ValérieenARRAY(0x9101a0)1aabS0378429099000723Restrepo, SilviaDuque, Myriam C.Verdier, Valerie7720000265Cen?Cassava bacterial blightDisease resistanceEdaphoclimatic zone15016803784290S037842909900072„7en3RhizobiumLey-farmingPulsePastureFarming systemsVen_asciidChanging roles for legumes in Mediterranean agriculture: developments from an Australian perspectiveendChanging roles for legumes in Mediterranean agriculture: developments from an Australian perspectiveFLA107'Howieson, J.G.O'Hara, G.W. Carr, S.J.enARRAY(0x9622cc)2-3a,b,ca,cb,cS037842909900081'Howieson, J.G.O'Hara, G.W. Carr, S.J.12220000365>en:RhizobiumLey-farmingPulsePastureFarming systems12218303784290S037842909900081ƒRenNRhizobiumInoculant productionPeat and granular formulationsStrain selectionVen_ascii$Inoculant production and formulationen$Inoculant production and formulationFLA249Stephens, J.H.G. Rask, H.M.enARRAY(0x9ac708)2-3S037842909900090Stephens, J.H.G. Rask, H.M.25820000365YenURhizobiumInoculant productionPeat and granular formulationsStrain selection12218303784290S037842909900090„?eenaNon-exchangeable potassiumNutrient balanceNutrient uptakeRhizosphereRiceRootsSolubilizationen_asciiCPotassium balances in rainfed lowland rice on a light-textured soilenCPotassium balances in rainfed lowland rice on a light-textured soilFLA237;Wihardjaka, A.Kirk, G.J.D.Abdulrachman, S. Mamaril, C.P.enARRAY(0x8d93bc)3ababS037842909900045;Wihardjaka, A.Kirk, G.J.D.Abdulrachman, S. Mamaril, C.P.24719991264eenaNon-exchangeable potassiumNutrient balanceNutrient uptakeRhizosphereRiceRootsSolubilization23108803784290S037842909900045…[cen_Nitrogen mineralizationN-recovery efficiencyN-physiological efficiencyN-agronomic efficiency:en_asciiVOn-farm soil N supply and N nutrition in the rice-wheat system of Nepal and BangladeshenVOn-farm soil N supply and N nutrition in the rice-wheat system of Nepal and BangladeshFLA273sAdhikari, C. Bronson, K.F.Panuallah, G.M.Regmi, A.P. Saha, P.K. Dobermann, A. Olk, D.C.Hobbs, P.R.Pasuquin, E.enARRAY(0x8a7a24)3abcacbdebS037842909900063sAdhikari, C. Bronson, K.F.Panuallah, G.M.Regmi, A.P. Saha, P.K. Dobermann, A. Olk, D.C.Hobbs, P.R.Pasuquin, E.28619991264cen_Nitrogen mineralizationN-recovery efficiencyN-physiological efficiencyN-agronomic efficiency23108803784290S037842909900063„qMenICultivarNitrogen managementNitrogen use efficiencyRiceRainfed lowland^en_asciihNitrogen management and cultivar effects on rice yield and nitrogen use efficiency in Northeast ThailandenhNitrogen management and cultivar effects on rice yield and nitrogen use efficiency in Northeast ThailandFLA109DOhnishi, M. Horie, T. Homma, K.Supapoj, N. Takano, H.Yamamoto, S.enARRAY(0x8ce020)1-2aaabaaS037842909900054DOhnishi, M. Horie, T. Homma, K.Supapoj, N. 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Fitt, G.P.enARRAY(0x580284)1-2S037842909601065Sadras, V.O. Fitt, G.P.13419970552LenHDefences,Gossypium spp.,Herbivory,Host plant resistance,Insects,Regrowth03784290S037842909601065„9}enySpecific leaf weight (leaf weight/leaf area),Water-use efficiency,Peanut,Arachis hypogaea,Pearl millet,Pennisetum glaucum6enTRelationships between specific leaf weight and mineral concentration among genotypesen_asciiTRelationships between specific leaf weight and mineral concentration among genotypesFLA19Brown, R.H. Byrd, G.T.enARRAY(0x5f90b0)1S037842909603450Brown, R.H. Byrd, G.T.2819970854}enySpecific leaf weight (leaf weight/leaf area),Water-use efficiency,Peanut,Arachis hypogaea,Pearl millet,Pennisetum glaucum03784290S037842909603450ƒ(JenFGrowth stages,Salt tolerance,Selection criteria,Sugarcane,Xeric traitsen:Identification of salt tolerance traits in sugarcane linesen_ascii:Identification of salt tolerance traits in sugarcane linesFLA9 Wahid, A.Rao, A. Rasul, E.enARRAY(0x5e3d40)1S037842909700038 Wahid, A.Rao, A. Rasul, E.1719970854JenFGrowth stages,Salt tolerance,Selection criteria,Sugarcane,Xeric traits03784290S037842909700038‚:>en:Cicer arietinum,Origin,Botany,Breeding,Selection techniqueHenChickpea (Cicer arietinum L.)en_asciiChickpea (Cicer arietinum L.)FLA161Singh, K.B.enARRAY(0x60d4d4)1-3S037842909700029Singh, K.B.17019970753>en:Cicer arietinum,Origin,Botany,Breeding,Selection technique03784290S037842909700029„-qenmOryza sativa,Crop protection,Problem identification,Production ecology,Systems design and management,Trainingen=Opportunities for using systems approaches in pest managementen_ascii=Opportunities for using systems approaches in pest managementFLA83Rossing, W.A.H.Heong, K.L.enARRAY(0x6d0a30)1-2-Special Issue: Applications of Rice ModellingS037842909601038Rossing, W.A.H.Heong, K.L.10019970351qenmOryza sativa,Crop protection,Problem identification,Production ecology,Systems design and management,Training03784290S037842909601038ƒ!^enhRadiation and transpiration partitioning in a maize-sorghum intercrop: Test and evaluation of two modelsen_asciihRadiation and transpiration partitioning in a maize-sorghum intercrop: Test and eƒ~4en0AcidityModelYield responseRelative yieldLime*en_asciiNResponse of wheat, triticale and barley to lime application in semi-arid soilsenNResponse of wheat, triticale and barley to lime application in semi-arid soilsFLA287< Liu, D.L.Helyar, K.R. Conyers, M.K. Fisher, R.Poile, G.J.enARRAY(0x1c4ad8)2-3[DOI] 10.1016/j.fcr.2004.03.00< Liu, D.L.Helyar, K.R. Conyers, M.K. Fisher, R.Poile, G.J.30120041208904en0AcidityModelYield responseRelative yieldLime03784290[DOI] 10.1016/j.fcr.2004.03.00‚#enInoculationRhizobiaxen_ascii5Inoculated legumes in cropping systems of the tropicsen5Inoculated legumes in cropping systems of the tropicsFLA123 Date, R.A.enARRAY(0x916cd4)2-3S037842909900082 Date, R.A.13620000365enInoculationRhizobia12218303784290S037842909900082…)Ben>WheatTriticum aestivum L.Kernel numberNitrogenSpike growth‚"en_ascii Spike dry matter and nitrogen accumulation before anthesis in wheat as affected by nitrogen fertilizer: relationship to kernels per spikeen Spike dry matter and nitrogen accumulation before anthesis in wheat as affected by nitrogen fertilizer: relationship to kernels per spikeFLA249TDemotes-Mainard, Sabine$Jeuffroy, Marie-HélèneRobin, StéphaneenARRAY(0x82ed88)3aabS037842909900046?Demotes-Mainard, SabineJeuffroy, Marie-HeleneRobin, Stephane25919991264IenEWheatTriticum aestivum L.Kernel numberNitrogenSpike growth23108803784290S037842909900046 ñ•†Â²7'Ã³\L÷çÂ²<, Ë »YI¥•éÙ[KãÓLL_(ïèÅ¸‰zG5üå¢œ{pE2÷íÄ¯pd71àÏÕÊŸ•lVñ¶§A5áÔ¥™lZ!Ó¿‚s@*éá¼®}sJ<ñ¨˜cV'ÙÅˆ}ßõßÅ±ug72ñàª¢~vB! Ë Ã Ÿ — s k G @ òèÀºš’nfB$ÔÂŠ{I< Û Ó ¯ œ b O Å µ s C ´‰* ¶¬„}[DôÄµƒm-ãÛ·¯‹I@ Î¼D<èàº«YQÝ'ÝÁ Ç ‚‚037843719…UeenaPeanutLight interceptionLeaf foldingRadiation use efficiencyPartitioning factorHarvest index‚8en_asciiPhysiolo<en_asciiINSTRUCTIONS TO AUTHORSenINSTRUCTIONS TO AUTHORSPUB791S03784290020020882200301088003784290S037842900200208gen_asciiIFCenIFCMISCO22-3S037842900200181CO2200212207913533103784290S037842900200181}2en_asciiCONTENTS OF VOLUMEenCONTENTS OF VOLUMEMIS2112-3S0378429002001452122002117803784290S037842900200145ƒ*Cen?SunflowerSclerotinia sclerotiorumHead rotResistance breeding2en_asciiRGenetic variation for resistance to Sclerotinia head rot in sunflower inbred linesenRGenetic variation for resistance to Sclerotinia head rot in sunflower inbred linesFLA153 Hahn, V.enARRAY(0x71a230)2-3S037842900200082 Hahn, V.15920020977Cen?SunflowerSclerotinia sclerotiorumHead rotResistance breeding03784290S037842900200082ƒ"EenAEmbryoEndospermRespirationCrop modelDirect-seeded riceKernel$en_asciiKSimulating seed reserve mobilization and seedling growth of rice in DSRICE1enKSimulating seed reserve mobilization and seedling growth of rice in DSRICE1FLA55Caton, B.P.enARRAY(0x8f8cc8)1S037842900200046Caton, B.P.6920020676EenAEmbryoEndospermRespirationCrop modelDirect-seeded riceKernel03784290S037842900200046„`PenLZea mays L.DroughtNitrogenStress toleranceAssimilate supplyEar abortion‚en_asciizPhysiological mechanisms contributing to the increased N stress tolerance of tropical maize selected for drought toleranceenzPhysiological mechanisms contributing to the increased N stress tolerance of tropical maize selected for drought toleranceFLA223*Banziger, M.Edmeades, G.O. Lafitte, H.R.enARRAY(0x801230)2-3S037842900200028*Banziger, M.Edmeades, G.O. Lafitte, H.R.2332002051075PenLZea mays L.DroughtNitrogenStress toleranceAssimilate supplyEar abortion49470703784290S037842900200028„_NenJPearl milletSite stratificationSequential retrospective pattern analysisVen_asciidStratification of SADC regional pearl millet testing sites based on grain yield performance of linesendStratification of SADC regional pearl millet testing sites based on grain yield performance of linesFLA143BMgonja, M.A.Monyo, E.S.Chandra, S.Murambadoro, D.Chinhema, E.enARRAY(0x7c1b08)2-3 aabaaS037842900100191BMgonja, M.A.Monyo, E.S.Chandra, S.Murambadoro, D.Chinhema, E.15120020173NenJPearl milletSite stratificationSequential retrospective pattern analysis03784290S037842900100191u.en_asciiPUBLISHER'S NOTEenPUBLISHER'S NOTEPUBv1S037842900100173v200108207203784290S037842900100173„Rodrigo, V.H.L.Stirling, C.M.Teklehaimanot, Z.Nugawela, A.enARRAY(0x7f43d0)3abbaS037842900000147>Rodrigo, V.H.L.Stirling, C.M.Teklehaimanot, Z.Nugawela, A.249200103697en3Agro-forestryPlantationLight usePlantingDensity16270903784290S037842900000147„USenOPaddy riceLeaf area indexVegetation indicesFloodwater reflectanceIrrigationhen_asciimGround-measured spectral signatures as indicators of ground cover and leaf area index: the case of paddy riceenmGround-measured spectral signatures as indicators of ground cover and leaf area index: the case of paddy riceFLA131 Vaesen, K.Gilliams, S. Nackaerts, K. Coppin, P.enARRAY(0x7fdae4)1S0378429000001291 Vaesen, K.Gilliams, S. Nackaerts, K. Coppin, P.2520010169SenOPaddy riceLeaf area indexVegetation indicesFloodwater reflectanceIrrigation69808303784290S037842900000129„bNenJWinter wheatLodging-proof ideotypeLeverageStem strengthAnchorageYielden_asciiEControlling plant form through husbandry to minimise lodging in wheatenEControlling plant form through husbandry to minimise lodging in wheatFLA59`Berry, P.M. Griffin, J.M.Sylvester-Bradley, R.Scott, R.K.Spink, J.H.Baker, C.J.Clare, R.W.enARRAY(0x88d428)1aabacdcS037842900000084`Berry, P.M. Griffin, J.M.Sylvester-Bradley, R.Scott, R.K.Spink, J.H.Baker, C.J.Clare, R.W.8120000767NenJWinter wheatLodging-proof ideotypeLeverageStem strengthAnchorageYield8937303784290S037842900000084„yQenMSoil fertility managementWeed managementRiceIrrigationEconomic evaluationfen_asciilImproved soil fertility and weed management is profitable for irrigated rice farmers in Sahelian West AfricaenlImproved soil fertility and weed management is profitable for irrigated rice farmers in Sahelian West AfricaFLA101B Haefele, S.M. Johnson, D.E. Diallo, S.Wopereis, M.C.S. Janin, I.enARRAY(0xcf43c8)2 abcadS037842900000066B Haefele, S.M. Johnson, D.E. Diallo, S.Wopereis, M.C.S. Janin, I.11320000566QenMSoil fertility managementWeed managementRiceIrrigationEconomic evaluation25990003784290S037842900000066ƒB-en)Pollination,Reproduction,Vicia faba,YieldenBReproductive biology of Vicia faba: role of pollination conditionsen_asciiBReproductive biology of Vicia faba: role of pollination conditionsFLA81= Suso, M.J.Moreno, M.T.Mondragao-Rodrigues, F.Cubero, J.I.enARRAY(0x589844)1-3037842909500089= Suso, M.J.Moreno, M.T.Mondragao-Rodrigues, F.Cubero, J.I.9119960646-en)Pollination,Reproduction,Vicia faba,Yield03784290037842909500089„Z=en9Potato,Transplanting,True potato seed,Tubers,Warm tropics‚8enPlanting materials for warm tropic potato production: growth and yield of transplanted seedlings or rooted cuttings and tuber materials in the fielden_asciiPlanting materials for warm tropic potato production: growth and yield of transplanted seedlings or rooted cuttings and tuber materials in the fieldFLA179& Benz, J.S.Keller, E.R. Midmore, D.J.enARRAY(0x848c38)3037842909400099& Benz, J.S.Keller, E.R. Midmore, D.J.19219950340=en9Potato,Transplanting,True potato seed,Tubers,Warm tropics03784290037842909400099ðqÙÉÉ¹–†L<WGÍ½ÝÍ ¸ ¨ùéÏu>.±0o±—i\.'õå±ªˆYJæÞº¤dNú¾²ve/âÜleC:äÓ‘e[3$òå§šlcßÃwnH=ùÑÎ´ dY/&óÅ¶tnN1ãÉtú¾¹›y!Â¥WM%ÞÒ–‹aK û Ñ ¿ f T ùÀµŠrÐÇ › ú ß ” Œ g Y ( ! þ ö Ñ ¼ } nûê³¢K6÷å¬ sk³¦VBÅ¼uj/$üÈ¸bZ%Ë9Ëœ¦‚i‚U037842909500017|0en_asciiGUIDE FOR AUTHORSenGUIDE FOR AUTHORSMIS631S03784290010018366200110739466703784290S037842900100183„55en1Leaf areaModel developmentPhenologyCompetition`en_asciiiSimulating growth, development, and yield of tillering pearl millet. II. Simulation of canopy developmenteniSimulating growth, development, and yield of tillering pearl millet. II. Simulation of canopy developmentFLA67Cvan Oosterom, E.J.Carberry, P.S.Hargreaves, J.N.G. O'Leary, G.J.enARRAY(0x7ad6fc)1abbaS037842900100165Cvan Oosterom, E.J.Carberry, P.S.Hargreaves, J.N.G. O'Leary, G.J.9120010820725en1Leaf areaModel developmentPhenologyCompetition03784290S037842900100165y0en_asciiGUIDE FOR AUTHORSenGUIDE FOR AUTHORSMIS931S03784290010017496200108207203784290S0…fenTriticum aestivumDrainageNitrogen leachingMediterranean climateHaying-offWater-use efficiencySoil evaporationHarvest indexRainfall forecasting‚8en_asciiInteraction between rainfall and nitrogen fertilisation of wheat in environments prone to terminal drought: economic and environmental risk analysisenInteraction between rainfall and nitrogen fertilisation of wheat in environments prone to terminal drought: economic and environmental risk analysisFLA201 Sadras, V.enARRAY(0x73891c)2-3S037842900200083 Sadras, V.21520020977enTriticum aestivumDrainageNitrogen leachingMediterranean climateHaying-offWater-use efficiencySoil evaporationHarvest indexRainfall forecasting03784290S037842900200083…-oenkChemical desiccationChlorophyllPhotosynthesisPotassium iodideProlineSoluble sugarWater use efficiency‚>en_asciiEffect of chemical desiccation at the post-anthesis stage on some physiological and biochemical changes in the flag leaf of contrasting wheat genotypesenEffect of chemical desiccation at the post-anthesis stage on some physiological and biochemical changes in the flag leaf of contrasting wheat genotypesFLA1Sawhney, VeenaSingh, D.P.enARRAY(0x9f4c2c)1S037842900100192Sawhney, VeenaSingh, D.P.620020877oenkChemical desiccationChlorophyllPhotosynthesisPotassium iodideProlineSoluble sugarWater use efficiency03784290S037842900100192„SenOWater use efficiencySoil dryingIrrigationSoil water contentMaize (Zea mays)Hen_ascii]Alternate watering in soil vertical profile improved water use efficiency of maize (Zea mays)en]Alternate watering in soil vertical profile improved water use efficiency of maize (Zea mays)FLA31#Kang, S.Shi, W.Cao, H. Zhang, J.enARRAY(0x9f497c)1S037842900200047#Kang, S.Shi, W.Cao, H. Zhang, J.4120020877SenOWater use efficiencySoil dryingIrrigationSoil water contentMaize (Zea mays)03784290S037842900200047ƒ^JenFDrought toleranceGrain yieldOsmotic adjustmentSoil water extractionen_asciiCOsmotic adjustment and yield maintenance under drought in sunflowerenCOsmotic adjustment and yield maintenance under drought in sunflowerFLA235&Chimenti, C.A.Pearson, J. Hall, A.J.enARRAY(0x89ab5c)2-3S037842900200029&Chimenti, C.A.Pearson, J. Hall, A.J.2462002051075JenFDrought toleranceGrain yieldOsmotic adjustmentSoil water extraction49470703784290S037842900200029y0en_asciiGUIDE FOR AUTHORSenGUIDE FOR AUTHORSMIS931S03784290010017496200108207203784290S037842900100174…czenvIntercroppingInterspecific competitionInterspecific facilitationMaizeNutrient uptakeSoybeanWheatYield advantagenen_asciipWheat/maize or wheat/soybean strip intercropping. I. Yield advantage and interspecific interactions on nutrientsenpWheat/maize or wheat/soybean strip intercropping. I. Yield advantage and interspecific interactions on nutrientsFLA123JLi, LongSun, JianhaoZhang, FusuoLi, XiaolinYang, SicunRengel, ZdenkoenARRAY(0x92ee60)2a,bcaacbS037842900100156JLi, LongSun, JianhaoZhang, FusuoLi, XiaolinYang, SicunRengel, Zdenko1372001062871zenvIntercroppingInterspecific competitionInterspecific facilitationMaizeNutrient uptakeSoybeanWheatYield advantage03784290S037842900100156„8VenRPennisetum glaucumDrought stressSelection indicesAdaptationStress environmentsjen_asciinEvaluation of indices for identification of pearl millet cultivars adapted to stress and non-stress conditionsennEvaluation of indices for identification of pearl millet cultivars adapted to stress and non-stress conditionsFLA201Yadav, O.P.Bhatnagar, S.K.enARRAY(0x8b1504)3abS037842900100138Yadav, O.P.Bhatnagar, S.K.2082001050170]enYPennisetum glaucumDrought stressSelection indicesAdaptationStress environments03784290S037842900100138„!GenCCotton leaf curl virusCotton cultivarsSensitivityYield stabilityen_asciiHStability of cotton cultivars under leaf curl virus epidemic in PakistanenHStability of cotton cultivars under leaf curl virus epidemic in PakistanFLA251GRahman, Hafeez-ur- Khan, W.S.Khan, Munir-ud-DinKausar Nawaz Shah, M.enARRAY(0x79d6e4)3S037842900000148GRahman, Hafeez-ur- Khan, W.S.Khan, Munir-ud-DinKausar Nawaz Shah, M.25720010369GenCCotton leaf curl virusCotton cultivarsSensitivityYield stability16270903784290S037842900000148~en_asciic, Crop EvapotranspirationET₀, Reference EvapotranspirationHI, Harvest IndexI, Irrigated TreatmentsK_c, Crop CoefficientLAI, Leaf Area Index-N, Inoculated Treatments+N, Nitrogen Fertilised TreatmentsR, Rainfed TreatmentsR_sm, Midday Stomatal ResistanceR_s, Stomatal ResistanceS.E., Standard Error of MeanSR, Solar RadiationVPD, Vapour Pressure DeficitWUE, Water-use EfficiencyWUE_b, Water-use Efficiency Related to BiomassWUE_y, Water-use Efficiency Related to Grain Yield Psi

_d, Predawn Water Potential Psi

_l, Leaf Water Potential Psi

_m, Midday Water Potential14233203784290S037842900000067n&enAuthor indexen_asciiAuthor indexMIS31-3S037842909789093421997035003784290S037842909789093ð}mfV…uû¦–ç×âÒüì x h ß Ï B Bù#é#ƒTNenJTriticum aestivumRainfallTemperatureSoil depthNitrogenCrop management&en_asciiLOn-farm assessment of constraints to wheat yield in the south-eastern PampasenLOn-farm assessment of constraints to wheat yield in the south-eastern PampasFLA1Calvino, P. Sadras, V.enARRAY(0x7ad510)1S037842900100193Calvino, P. Sadras, V.112002021574NenJTriticum aestivumRainfallTemperatureSoil depthNitrogenCrop management13533103784290S037842900100193…'enCanopy radiation interceptionCool water temperatureDry matter productionOryza sativa L.Radiation use efficiencySpikelet fertility@en_asciiYResponse of growth and grain yield in paddy rice to cool water at different growth stagesenYResponse of growth and grain yield in paddy rice to cool water at different growth stagesFLA674Shimono, HiroyukiHasegawa, Toshihiro Iwama, KazutoenARRAY(0x8691dc)2-3S0378429001001844Shimono, HiroyukiHasegawa, Toshihiro Iwama, Kazuto7920020173en Canopy radiation interceptionCool wate<en_asciiINSTRUCTIONS TO AUTHORSenINSTRUCTIONS TO AUTHORSPUB811S03784290020016584200212067911791703784290S037842900200165…_en[SoybeanStratospheric ozone depletionUV-B radiationResponse indexCrop growthGrain yield‚en_asciiIntraspecific responses in crop growth and yield of 20 soybean cultivars to enhanced ultraviolet-B radiation under field conditionsenIntraspecific responses in crop growth and yield of 20 soybean cultivars to enhanced ultraviolet-B radiation under field conditionsFLA1+Yuan, L. Yanqun, Z.Jianjun, C. Haiyan, C.enARRAY(0x730dac)1S037842900200084+Yuan, L. Yanqun, Z.Jianjun, C. Haiyan, C.820021078_en[SoybeanStratospheric ozone depletionUV-B radiationResponse indexCrop growthGrain yield03784290S037842900200084„rhendBacillus megatherium'Fixed' PRatoon cropResidual effectRock phosphateSoil available PSugarcane~en_asciixInfluence of phosphorus solubilizing bacteria on the changes in soil available phosphorus and sugarcane and sugar yieldsenxInfluence of phosphorus solubilizing bacteria on the changes in soil available phosphorus and sugarcane and sugar yieldsFLA43#Sundara, B. Natarajan, V.Hari, K.enARRAY(0x9f8c74)1S037842900200048#Sundara, B. Natarajan, V.Hari, K.4920020877hendBacillus megatherium'Fixed' PRatoon cropResidual effectRock phosphateSoil available PSugarcane03784290S037842900200048ƒTNenJTriticum aestivumRainfallTemperatureSoil depthNitrogenCrop management&en_asciiLOn-farm assessment of constraints to wheat yield in the south-eastern PampasenLOn-farm assessment of constraints to wheat yield in the south-eastern PampasFLA1Calvino, P. Sadras, V.enARRAY(0x7ad510)1S037842900100193Calvino, P. Sadras, V.112002021574NenJTriticum aestivumRainfallTemperatureSoil depthNitrogenCrop management13533103784290S037842900100193ƒsUenQFloret numberGrain numberSunflowerTemperaturePlant leaf areaPlant dry matter.en_asciiPGrain number responses to temperature during floret differentiation in sunflowerenPGrain number responses to temperature during floret differentiation in sunflowerFLA177Chimenti, C.A. Hall, A.J.enARRAY(0x7aa654)3S037842900100175Chimenti, C.A. Hall, A.J.1842001092872UenQFloret numberGrain numberSunflowerTemperaturePlant leaf areaPlant dry matter11958903784290S037842900100175…-UenQCompensationGrowthIntercroppingMaizeNutrient acquisitionRecovery and soybean‚en_asciizWheat/maize or wheat/soybean strip intercropping. II. Recovery or compensation of maize and soybean after wheat harvestingenzWheat/maize or wheat/soybean strip intercropping. II. Recovery or compensation of maize and soybean after wheat harvestingFLA173JLi, LongSun, JianhaoZhang, FusuoLi, XiaolinRengel, ZdenkoYang, SicunenARRAY(0x814c74)3a,cbaacbS037842900100157JLi, LongSun, JianhaoZhang, FusuoLi, XiaolinRengel, ZdenkoYang, Sicun1812001072071UenQCompensationGrowthIntercroppingMaizeNutrient acquisitionRecovery and soybean03784290S037842900100157„S`en\Mayetiola destructorCecidomyiidaeWheatAromatic plantsEssential oilsInsecticidal effectsAen_asciiVInsecticidal effects of essential oils against Hessian fly, Mayetiola destructor (Say)en]Insecticidal effects of essential oils against Hessian fly, Mayetiola destructor (Say)FLA91 Lamiri, A.Lhaloui, S. Benjilali, B.Berrada, M.enARRAY(0x4c9cd4)1abcaS0378429001001391 Lamiri, A.Lhaloui, S. Benjilali, B.Berrada, M.152001060571gencMayetiola destructorCecidomyiidaeWheatAromatic plantsEssential oilsInsecticidal effects9466703784290S037842900100139„h}enyTriticum aestivumFertiliserCanopy conductanceNitrogenLight interceptionRadiation-use efficiencyWater-use efficiencyDen_ascii[Effect of nitrogen supply on crop conductance, water- and radiation-use efficiency of wheaten[Effect of nitrogen supply on crop conductance, water- and radiation-use efficiency of wheatFLA259Caviglia, O.P.Sadras, V.O.enARRAY(0x7b7594)3a,baS037842900000149Caviglia, O.P.Sadras, V.O.26620010369enTriticum aestivumFertiliserCanopy conductanceNitrogenLight interceptionRadiation-use efficiencyWater-use efficiency16270903784290S037842900000149ƒOen_asciiXSpatial and seasonal effects confounding interpretation of sunflower yields in ArgentinaenXSpatial and seasonal effects confounding interpretation of sunflower yields in ArgentinaFLA107*Chapman, Scott C.de la Vega, Abelardo J.enARRAY(0x7f95e8)2-3abS037842900100185*Chapman, Scott C.de la Vega, Abelardo J.12020020173QenLG×E interactionHeritabilityPattern analysisPhenotypic variance componentsSunflowerYield components03784290S037842900100185…6UenQRiceRainfed lowlandDroughtTraitsRoot systemsWater extractionWater potential‚"en_ascii Yield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowland - 3. Plant factors contri2en_asciiCONTENTS OF VOLUMEenCONTENTS OF VOLUMEMIS2072-3S037842900200184208200212207913533103784290S037842900200184†Q+en&Sorghum plant densityTilleringIntercepted radiationExtinction coefficientRadiation use efficiencyShoot assimilate partitioningSpecific leaf areaLeaf area ratio‚ben_ascii)Predicting plant leaf area production: - shoot assimilate accumulation and partitioning, and leaf area ratio, are stable for a wide range of sorghum population densitiesen)Predicting plant leaf area production: - shoot assimilate accumulation and partitioning, and leaf area ratio, are stable for a wide range of sorghum population densitiesFLA137 Lafarge, T.A.Hammer, G.L.enARRAY(0x72f48c)2-3S037842900200085 Lafarge, T.A.Hammer, G.L.15120020977+en&Sorghum plant densityTilleringIntercepted radiationExtinction coefficientRadiation use efficiencyShoot assimilate partitioningSpecific leaf areaLeaf area ratio03784290S037842900200085…SnenjCicer arietinum L.Isogenic linesDeterminate/indeterminateHigh proteinGrowth analysisNitrogen fixation‚$en_ascii Assimilation and partitioning of dry matter and nitrogen in Hyprosola, a more determinate mutant of chickpea, and in its parental cultivaren Assimilation and partitioning of dry matter and nitrogen in Hyprosola, a more determinate mutant of chickpea, and in its parental cultivarFLA51:Shamsuzzaman, K.M.Gibson, A.H. Oram, R.N.Shaikh, M.A.Q.enARRAY(0x962fac)1S037842900200049:Shamsuzzaman, K.M.Gibson, A.H. Oram, R.N.Shaikh, M.A.Q.5920020877nenjCicer arietinum L.Isogenic linesDeterminate/indeterminateHigh proteinGrowth analysisNitrogen fixation03784290S037842900200049…6UenQRiceRainfed lowlandDroughtTraitsRoot systemsWater extractionWater potential‚"en_ascii Yield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowland - 3. Plant factors contributing to drought resistanceen Yield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowland - 3. Plant factors contributing to drought resistanceFLA181CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.enARRAY(0x7a0fa4)2-3S037842900100194CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.20020020173UenQRiceRainfed lowlandDroughtTraitsRoot systemsWater extractionWater potential03784290S037842900100194…oenkSC, sole croppingIC, mixed intercroppingN, nitrogenLER, land equivalent ratioSNF, symbiotic N2 fixationten_asciisEvaluating pea and barley cultivars for complementarity in intercropping at different levels of soil N availabilityensEvaluating pea and barley cultivars for complementarity in intercropping at different levels of soil N availabilityFLA185#Hauggaard-Nielsen, H.Jensen, E.S.enARRAY(0x7bb260)3aa,bS037842900100176#Hauggaard-Nielsen, H.Jensen, E.S.1962001092872zenvSC, sole croppingIC, mixed intercroppingN, nitrogenLER, land equivalent ratioSNF, symbiotic N₂ fixation11958903784290S037842900100176„CTenPMaize canopyPlant populationRow spacingLeaf azimuthLight attenuationHybridsden_asciikPlant population density, row spacing and hybrid effects on maize canopy architecture and light attenuationenkPlant population density, row spacing and hybrid effects on maize canopy architecture and light attenuationFLA183)Maddonni, G.A.Otegui, M.E.Cirilo, A.G.enARRAY(0x814e24)3aabS037842900100158)Maddonni, G.A.Otegui, M.E.Cirilo, A.G.1932001072071TenPMaize canopyPlant populationRow spacingLeaf azimuthLight attenuationHybrids03784290S037842900100158„"enDormancySeed banksWeed seedsen_asciiPhaseolus vulgaris L.) rhizobial strains for the Brazilian CerradosFLA121UMostasso, LilianMostasso, Fabio L.Dias, Beatriz G.Vargas, Milton A.T.Hungria, M.enARRAY(0x7bbb80)2-3aa,1a,1baS037842900100186UMostasso, LilianMostasso, Fabio L.Dias, Beatriz G.Vargas, Milton A.T.Hungria, M.13220020173LenHCommon beanCompetitivenessNitrogen fixationRhizobiumStrain selection03784290S037842900100186…DHenDBread-making qualityTillageCrop rotationN fertilizerSpring wheat|en_asciiwEffects of long-term tillage, crop rotation and nitrogen fertilization on bread-making quality of hard red spring wheatenwEffects of long-term tillage, crop rotation and nitrogen fertilization on bread-making quality of hard red spring wheatFLA197pLópez-Bel…!tenpSynthetic auxinPhotosynthesisTotal chlorophyllStomatal conductanceFlower/pod abscissionSoybean productivity‚0en_asciiEffect of different concentrations of Figaron on production and abscission of reproductive organs, growth, and yield in soybean (Glycine max L.)enEffect of different concentrations of Figaron on production and abscission of reproductive organs, growth, and yield in soybean (Glycine max L.)FLA41Nahar, B.S. Ikeda, T.enARRAY(0x72c868)1S037842900200086Nahar, B.S. Ikeda, T.5020021078tenpSynthetic auxinPhotosynthesisTotal chlorophyllStomatal conductanceFlower/pod abscissionSoybean productivity03784290S037842900200086…VlenhRiceRainfed lowlandDroughtDrought response indexFlowering delayGenotype-by-environment interactions‚en_asciiYield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowlands - 2. Selection of drought resistant genotypesenYield response of rice (Oryza sativa L.) genotypes to drought under rainfed lowlands - 2. Selection of drought resistant genotypesFLA169CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.enARRAY(0x835b80)2-3S037842900100195CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.18020020173lenhRiceRainfed lowlandDroughtDrought response indexFlowering delayGenotype-by-environment interactions03784290S037842900100195…DHenDBread-making qualityTillageCrop rotationN fertilizerSpring wheat|en_asciiwEffects of long-term tillage, crop rotation and nitrogen fertilization on bread-making quality of hard red spring wheatenwEffects of long-term tillage, crop rotation and nitrogen fertilization on bread-making quality of hard red spring wheatFLA197pLópez-Bellido, LuisLópez-Bellido, Rafael J.Castillo, Juan E."López-Bellido, Francisco J.enARRAY(0x7a07bc)3abacS037842900100177[Lopez-Bellido, LuisLopez-Bellido, Rafael J.Castillo, Juan E.Lopez-Bellido, Francisco J.2102001092872HenDBread-making qualityTillageCrop rotationN fertilizerSpring wheat11958903784290S037842900100177„0]enYZea mays L.Weed competitionFar-red/red (FR/R)Shade-avoidance syndromeRoot-shoot ratioHen_ascii]Understanding maize-weed competition: resource competition, light quality and the whole planten]Understanding maize-weed competition: resource competition, light quality and the whole plantFLA139# Rajcan, IrenaSwanton, Clarence J.enARRAY(0x92eb20)2S037842900100159# Rajcan, IrenaSwanton, Clarence J.1502001062871den`Zea mays L.Weed competitionFar-red/red (FR/R)Shade-avoidance syndromeRoot-shoot ratio03784290S037842900100159ƒ=8en4DormancyGerminationMicroclimateSeedsThermal timeDen_asciiModeling seedling emergenceenModeling seedling emergenceFLA123NForcella, FrankBenech Arnold, Roberto L.Sanchez, RudolfoGhersa, Claudio M.enARRAY(0x868218)2abbbS037842900000088NForcella, FrankBenech Arnold, Roberto L.Sanchez, RudolfoGhersa, Claudio M.13920000701678en4DormancyGerminationMicroclimateSeedsThermal time146056203784290S037842900000088ðÝÍÓÃ¬œ²¢³£8(¬†¬Ýóãþî k [ÿÅÿ[en_asciiITAenITAPUB851S037842900200069882002067603784290S037842900200069…@enOryza sativa L.) genotypes to different types of drought under rainfed lowlands. Part 1. Grain yield and yield componentsFLA153CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.enARRAY(0x871678)2-3 abbcdS037842900100187CPantuwan, G. Fukai, S. Cooper, M.Rajatasereekul, S. O'Toole, J.C.16820020173`en\RiceRainfed lowlandDroughtYieldDrought resistanceGenotype×environment interactions03784290S037842900100187…hJenFAdditive gene actionDominance gene actionEpistasisTriple test cross‚een_ascii'Detection of epistasis, and estimation of additive and dominance components of genetic variation for synchrony in pod maturity in mungbean (Vigna radiata (L.) Wilczek)en.Detection of epistasis, and estimation of additive and dominance components of genetic variation for synchrony in pod maturity in mungbean (Vigna radiata (L.) Wilczek)FLA211@Khattak, G.S.S. Haq, M.A. Ashraf, M.Tahir, G.R.Marwat, E.U.K.enARRAY(0x7f47d4)3 abcbbS037842900100178@Khattak, G.S.S. Haq, M.A. Ashraf, M.Tahir, G.R.Marwat, E.U.K.2192001092872JenFAdditive gene actionDominance gene a{,en_asciiEDITORIAL BOARDenEDITORIAL BOARDMISii1S037842900200168ii200212067911791703784290S037842900200168„iieneCornMaizeZea mays L.Mineral nutrientsFertiliserYieldPotential yieldModellingGenetic algorithmPen_asciiaYield response to nutrient supply across a wide range of conditions - 2. Analysis of maize yieldsenaYield response to nutrient supply across a wide range of conditions - 2. Analysis of maize yieldsFLA1732 Reid, J.B.Stone, P.J. Pearson, A.J.Wilson, D.R.enARRAY(0x7aa8e0)2-3S0378429002000872 Reid, J.B.Stone, P.J. Pearson, A.J.Wilson, D.R.18920020977ieneCornMaizeZea mays L.Mineral nutrientsFertiliserYieldPotential yieldModellingGenetic algorithm03784290S037842900200087[en_asciiITAenITAPUB851S037842900200069882002067603784290S037842900200069…@enVigna radiata (L.) Wilczek)FLA211@Khattak, G.S.S. Haq, M.A. Ashraf, M.Tahir, G.R.Marwat, E.U.K.enARRAY(0x7f47d4)3 abcbbS037842900100178@Khattak, G.S.S. Haq, M.A. Ashraf, M.Tahir, G.R.Marwat, E.U.K.2192001092872JenFAdditive gene actionDominance gene actionEpistasisTriple test cross11958903784290S037842900100178„#enWeed managementSoil seed banks‚en_asciiEcological correlates of weed seed size and persistence in the soil under different tilling systems: implications for weed managementenEcological correlates of weed seed size and persistence in the soil under different tilling systems: implications for weed managementFLA141*Ghersa, C.M.Martínez-Ghersa, M.A.enARRAY(0x8d8820)2S037842900000089#Ghersa, C.M.Martinez-Ghersa, M.A.1482000070167#enWeed managementSoil seed banks146056203784290S037842900000089xenDEcologically Based Pest Management: New Solutions for a New Century.en_asciiDEcologically Based Pest Management: New Solutions for a New Century.BRV76 Higley, L.O.1S037842909700010 Higley, L.O.771997085403784290S037842909700010„TenPAbortion,Avena sativa,Benzylaminopurine,Floret,Nitrogen,Spikelet,Yield potentialbenjNitrogen fertilizer and foliar application of cytokinin affect spikelet and floret set and survival in oaten_asciijNitrogen fertilizer and foliar application of cytokinin affect spikelet and floret set and survival in oatFLA169Peltonen-Sainio, P.enARRAY(0x5e70b0)2-3S037842909601010Peltonen-Sainio, P.17619970249TenPAbortion,Avena sativa,Benzylaminopurine,Floret,Nitrogen,Spikelet,Yield potential03784290S037842909601010ðÿï ^N¶¦E5ûë?/µ¥ìÂì™ * ¹ ©£“YYˆ8kengRiceSite-specific nutrient managementNitrogen use efficiencyIndigenous nutrient supplyProfitability(en_asciiMSite-specific nutrient management for intensive rice cropping systems in AsiaenMSite-specific nutrient management for intensive rice cropping systems in AsiaFLA37‚ Dobermann, A.Witt, C.Dawe, D.Abdulrachman, S.Gines, H.C. Nagarajan, R.Satawathananont, S. Son, T.T. Tan, P.S. Wang, G.H.Chien, N.V.Thoa, V.T.K.Phung, C.V. Stalin, P.Muthukrishnan, P.Ravi, V.Babu, M. Chatuporn, S.Sookthongsa, J.Sun, Q.Fu, R.Simbahan, G.C.Adviento, M.A.A.enARRAY(0x7bca84)1S037842900100197‚ Dobermann, A.Witt, C.Dawe, D.Abdulrachman, S.Gines, H.C. Nagarajan, R.Satawathananont, S. Son, T.T. Tan, P.S. Wang, G.H.Chien, N.V.Thoa, V.T.K.Phung, C.V. Stalin, P.Muthukrishnan, P.Ravi, V.Babu, M. Chatuporn, S.Sookthongsa, J.Sun, Q.Fu, R.Simbahan, G.C.Adviento, M.A.A.662002021574kengRiceSite-specific nutrient managementNitrogen use efficiencyIndigenous nutrient supplyProfitability13533103784290S037842900100197„JenFDevelopmentPhotoperiod sensitivityPpd allelesYield componentsWheatKen_ascii[Contrasting Ppd alleles in wheat: effects on sensitivity to photoperiod in different phasesenbContrasting Ppd alleles in wheat: effects on sensitivity to photoperiod in different phasesFLA95Whitechurch, E.M.Slafer, G.A.enARRAY(0x7b4c50)2-3S037842900100188Whitechurch, E.M.Slafer, G.A.10520020173QenMDevelopmentPhotoperiod sensitivityPpd allelesYield componentsWheat03784290S037842900100188„_Cen?Atmospheric CO2 concentrationClimatic changeGrainWheatYield‚Hen_asciiEffects of atmospheric CO2 concentration on wheat yield: review of results from experiments using various approaches to control CO2 concentrationen'Effects of atmospheric CO₂ concentration on wheat yield: review…7[enWBulk densitySummer cowpeaFertilizer N and PNutrient use efficiencyTypic Ustochrepts‚8en_asciiImproving nitrogen and phosphorus use efficiencies through inclusion of forage cowpea in the rice-wheat systems in the Indo-Gangetic Plains of IndiaenImproving nitrogen and phosphorus use efficiencies through inclusion of forage cowpea in the rice-wheat systems in the Indo-Gangetic Plains of IndiaFLA1673 Dwivedi, B.S.Shukla, A.K.Singh, V.K.Yadav, R.L.enARRAY(0x793a84)3S0378429002001693 Dwivedi, B.S.Shukla, A.K.Singh, V.K.Yadav, R.L.1932003013080[enWBulk densitySummer cowpeaFertilizer N and PNutrient use efficiencyTypic Ustochrepts03784290S037842900200169y&en_asciiAUTHOR INDEXenAUTHOR INDEXMIS2092-3S037842900200187217200212207913533103784290S037842900200187ƒ*:en6Mineral nutrientsFertiliserPotential yieldModelling@en_asciiYYield response to nutrient supply across a wide range of conditions - 1. Model derivationenYYield response to nutrient supply across a wide range of conditions - 1. Model derivationFLA161 Reid, J.B.enARRAY(0x720e90)2-3S037842900200088 Reid, J.B.17120020977:en6Mineral nutrientsFertiliserPotential yieldModelling03784290S037842900200088ˆ8kengRiceSite-specific nutrient managementNitrogen use efficiencyIndigenous nutrient supplyProfitability(en_asciiMSite-specific nutrient management for intensive rice cropping systems in AsiaenMSite-specific nutrient management for intensive rice cropping systems in AsiaFLA37‚ Dobermann, A.Witt, C.Dawe, D.Abdulrachman, S.Gines, H.C. Nagarajan, R.Satawathananont, S. Son, T.T. Tan, P.S. Wang, G.H.Chien, N.V.Thoa, V.T.K.Phung, C.V. Stalin, P.Muthukrishnan, P.Ravi, V.Babu, M. Chatuporn, S.Sookthongsa, J.Sun, Q.Fu, R.Simbahan, G.C.Adviento, M.A.A.enARRAY(0x7bca84)1S037842900100197‚ Dobermann, A.Witt, C.Dawe, D.Abdulrachman, S.Gines, H.C. Nagarajan, R.Satawathananont, S. Son, T.T. Tan, P.S. Wang, G.H.Chien, N.V.Thoa, V.T.K.Phung, C.V. Stalin, P.Muthukrishnan, P.Ravi, V.Babu, M. Chatuporn, S.Sookthongsa, J.Sun, Q.Fu, R.Simbahan, G.C.Adviento, M.A.A.662002021574kengRiceSite-specific nutrient managementNitrogen use efficiencyIndigenous nutrient supplyProfitability13533103784290S037842900100197„_Cen?Atmospheric CO2 concentrationClimatic changeGrainWheatYield‚Hen_asciiEffects of atmospheric CO2 concentration on wheat yield: review of results from experiments using various approaches to control CO2 concentrationen'Effects of atmospheric CO₂ concentration on wheat yield: review of results from experiments using various approaches to control CO₂ concentrationFLA1Amthor, Jeffrey S.enARRAY(0x80cf88)1S037842900100179Amthor, Jeffrey S.3420011073NenJAtmospheric CO₂ concentrationClimatic changeGrainWheatYield9466703784290S037842900100179…rennSoil fertility,Southern Africa,Smallholder agriculture,Phaseolus vulgaris,Intercrop fertilizer recommendations‚en_asciiNote on phosphorus and cultivar enhancement of biological nitrogen fixation and productivity of maize/bean intercrops in MalawienNote on phosphorus and cultivar enhancement of biological nitrogen fixation and productivity of maize/bean intercrops in MalawiFLA205" Snapp, S.Aggarwal, V. Chirwa, R.enARRAY(0xb9ffe0)3S037842909800100" Snapp, S.Aggarwal, V. Chirwa, R.21219980958rennSoil fertility,Southern Africa,Smallholder agriculture,Phaseolus vulgaris,Intercrop fertilizer recommendations5880903784290S037842909800100…0tenpPhotothermal constants,Phyllochron,Development rate,Irrigated rice,Sahel,Temperature response,Phenological model‚en|Rice crop duration and leaf appearance rate in a variable thermal environment. I. Development of an empirically based modelen_ascii|Rice crop duration and leaf appearance rate in a variable thermal environment. I. Development of an empirically based modelFLA13Sie, M.Dingkuhn, M.Wopereis, M.C.S.Miezan, K.M.enARRAY(0x61a814)1S0378429097001103Sie, M.Dingkuhn, M.Wopereis, M.C.S.Miezan, K.M.131998050857tenpPhotothermal constants,Phyllochron,Development rate,Irrigated rice,Sahel,Temperature response,Phenological model03784290S037842909700110M`en)No-Tillage Seeding: Science and Practice.en_ascii)No-Tillage Seeding: Science and Practice.BRV81Morrison, J.E. Jr.1S037842909700011Morrison, J.E. Jr.821997085403784290S037842909700011ƒoEenAIntegrated nutrient supply,Sorghum-wheat system,Organic nutrientsnenpLong-term sustainability of productivity in an irrigated sorghum-wheat system through integrated nutrient supplyen_asciipLong-term sustainability of productivity in an irrigated sorghum-wheat system through integrated nutrient supplyFLA167Hegde, D.M.enARRAY(0x66e928)2-3S037842909601011Hegde, D.M.17519961048EenAIntegrated nutrient supply,Sorghum-wheat system,Organic nutrients03784290S037842909601011ð“ƒRBó<,:*‡wH8:*Ë» ² ¢ & ô & ÈÚÊ › ‹ôäæÖ 0¼ ƒJgencBarley (Hordeum vulgare L.)Net blotchPyrenophora teresYield lossResponse surface modelModelingHen_asciiYield and Yield-loss modelingenYield and Yield-loss modelingFLA81#Yousfi, Brahim ElEzzahiri, BrahimenARRAY(0x7f9f68)2-3abS037842900100189#Yousfi, Brahim ElEzzahiri, Brahim9320020173uenqBarley (Hordeum vulgare L.)Net blotchPyrenophora teresYield lossResponse surface modelModeling03784290S037842900100189…|enOryza sativaSimulationCropping systemWater-seededWater managementLight dynamicsCultural controlParameter sensitivityStructural sensitivity‚en_asciiA plant growth model for integrated weed management in direct-seeded rice I. Development and sensitivity analyses of monoculture growthenA plant growth model for integrated weed management in direct-seeded rice I. Development and sensitivity analyses of monoculture growthFLA129"Caton, B.P. Foin, T.C. Hill, J.E.enARRAY(0x8e27b8)2-3S037842909900010"Caton, B.P. Foin, T.C. Hill, J.E.1431999062562enOryza sativaSimulationCropping systemWater-seededWater managementLight dynamicsCultural controlParameter sensitivityStructural sensitivity14853203784290S037842909900010…\enXRiceCultivarsFertiliserIrrigationRainfed lowlandGenotype by environment interaction6en_asciiTLowland rice improvement in northern and northeast Thailand 2. Cultivar differencesenTLowland rice improvement in northern and northeast Thailand 2. Cultivar differencesFLA109e Romyen, P.Hanviriyapant, P.Rajatasereekul, S.Khunthasuvon, S. Fukai, S. Basnayake, J.Skulkhu, E.enARRAY(0x7066f8)2S037842909800110e Romyen, P.Hanviriyapant, P.Rajatasereekul, S.Khunthasuvon, S. Fukai, S. Basnayake, J.Skulkhu, E.11919981159\enXRiceCultivarsFertiliserIrrigationRainfed lowlandGenotype by environment interaction03784290S037842909800110„-6en2Soybean,Sulfur,Nitrogen,Protein quality,Seed yield‚en_asciiEffects of nitrogen source and timing of sulfur deficiency on seed yi{(en_ascii KEYWORD INDEXen KEYWORD INDEXMIS2192-3S037842900200188225200212207913533103784290S037842900200188„FenBWater usePotatoesIrrigationNitrogenEvapotranspirationPortugalfen_asciilResponses of potatoes (Solanum tuberosum L.) to irrigation and nitrogen in a hot, dry climate - I. Water useenlResponses of potatoes (Solanum tuberosum L.) to irrigation and nitrogen in a hot, dry climate - I. Water useFLA51Ferreira, T.C.Carr, M.K.V.enARRAY(0x72cee4)1S037842900200089Ferreira, T.C.Carr, M.K.V.6420021078FenBWater usePotatoesIrrigationNitrogenEvapotranspirationPortugal03784290S037842900200089„][enWOryza sativaCajanus cajanStylosanthes hamataSavanna zoneCompetitionResidual effect\en_asciigEvaluating the use of two contrasting legume species as relay intercrop in upland rice cropping systemsengEvaluating the use of two contrasting legume species as relay intercrop in upland rice cropping systemsFLA232Akanvou, R.Kropff, M.J. Bastiaans, L. Becker, M.enARRAY(0x7ac050)1S0378429001001982Akanvou, R.Kropff, M.J. Bastiaans, L. Becker, M.362002021574[enWOryza sativaCajanus cajanStylosanthes hamataSavanna zoneCompetitionResidual effect13533103784290S037842900100198…|enOryza sativaSimulationCropping systemWater-seededWater managementLight dynamicsCultural controlParameter sensitivityStructural sensitivity‚en_asciiA plant growth model for integrated weed management in direct-seeded rice I. Development and sensitivity analyses of monoculture growthenA plant growth model for integrated weed management in direct-seeded rice I. Development and sensitivity analyses of monoculture growthFLA129"Caton, B.P. Foin, T.C. Hill, J.E.enARRAY(0x8e27b8)2-3S037842909900010"Caton, B.P. Foin, T.C. Hill, J.E.1431999062562enOryza sativaSimulationCropping systemWater-seededWater managementLight dynamicsCultural controlParameter sensitivityStructural sensitivity14853203784290S037842909900010„-6en2Soybean,Sulfur,Nitrogen,Protein quality,Seed yield‚en_asciiEffects of nitrogen source and timing of sulfur deficiency on seed yield and expression of 11S and 7S seed storage proteins of soybeanenEffects of nitrogen source and timing of sulfur deficiency on seed yield and expression of 11S and 7S seed storage proteins of soybeanFLA1&Sexton, P.J. Paek, N.C. Shibles, R.M.enARRAY(0x74d594)1S037842909800101&Sexton, P.J. Paek, N.C. Shibles, R.M.8199810596en2Soybean,Sulfur,Nitrogen,Protein quality,Seed yield03784290S037842909800101…!enCotton,Gossypium hirsutum L.,Fraction of transpirable soil water,FTSW,Soil water deficit,Plant water status,Genotypic comparisonjennRelationships between plant and soil water status in five field-grown cotton (Gossypium hirsutum L.) cultivarsen_asciinRelationships between plant and soil water status in five field-grown cotton (Gossypium hirsutum L.) cultivarsFLA29'Lacape, M.J.Wery, J.Annerose, D.J.M.enARRAY(0x614a9c)1S037842909700111'Lacape, M.J.Wery, J.Annerose, D.J.M.431998050857enCotton,Gossypium hirsutum L.,Fraction of transpirable soil water,FTSW,Soil water deficit,Plant water status,Genotypic comparison03784290S037842909700111pen=PLANTMOD 2.1. Exploring the Physiology of Plant Communities.en_ascii=PLANTMOD 2.1. Exploring the Physiology of Plant Communities.REV87Batchelor, W.D.1S037842909700012Batchelor, W.D.881997085403784290S0378429097000125Pen!Soyabean (Glycine max (L.) Merr.)en_ascii!Soyabean (Glycine max (L.) Merr.)FLA171 Burton, J.W.1-3S037842909700030 Burton, J.W.1861997075303784290S037842909700030„=den`Physiology,Breeding,Genotype-by-environment interaction,Quantitative genetics,Indirect selection:enVThe role of physiological understanding in plant breeding; from a breeding perspectiveen_asciiVThe role of physiological understanding in plant breeding; from a breeding perspectiveFLA110Jackson, P. Robertson, M. Cooper, M. Hammer, G.enARRAY(0x8eccb0)1S0378429096010120Jackson, P. Robertson, M. Cooper, M. Hammer, G.3719961149den`Physiology,Breeding,Genotype-by-environment interaction,Quantitative genetics,Indirect selection03784290S037842909601012„/\enXGrain legume,Physiology,Water deficit,Plant architecture,Yield variability,Harvest indexfenlPod and seed growth and development of narrow-leafed lupin in a water limited mediterranean-type environmenten_asciilPod and seed growth and development of narrow-leafed lupin in a water limited mediterranean-type environmentFLA209 Dracup, M. Kirby, E.J.M.enARRAY(0x585ef0)2-3S037842909600040 Dracup, M. Kirby, E.J.M.22219961048\enXGrain legume,Physiology,Water deficit,Plant architecture,Yield variability,Harvest index03784290S037842909600040„[_en[Drought resistance,Pennisetum glaucum,Canopy conductance,Leaf senescence,Osmotic adjustmentjennImpact of late-season drought on water relations in a sparse canopy of millet (Pennisetum glaucum (L.) R. Br.)en_asciinImpact of late-season drought on water relations in a sparse canopy of millet (Pennisetum glaucum (L.) R. Br.)FLA103*Do, F. Winkel, T.Cournac, L.Louguet, P.enARRAY(0x5706e4)2-3S037842909601030*Do, F. Winkel, T.Cournac, L.Louguet, P.11319961048_en[Drought resistance,Pennisetum glaucum,Canopy conductance,Leaf senescence,Osmotic adjustment03784290S037842909601030ðèØˆxÜÌÒÂ/[K¼¬_O²¢n@n~ Á ±ØÈr,r… enXEffect of wheat cultivar mixtures on spot blotch (Bipolaris sorokiniana) and grain yielden_asciiXEffect of wheat cultivar mixtures on spot blotch (Bipolaris sorokiniana) and grain yieldFLA95Sharma, R.C.Dubin, H.J.enARRAY(0x5d67e0)2-3S037842909601031Sharma, R.C.Dubin, H.J.10119961048\enXSpot blotch,Triticum aestivum,Disease progress curve,Cultivar mixtures,Grain yield,Wheat03784290S037842909601031ñK;jZ«›tdiYXH9)2"½½¬ ¦ – ó@0/°(f°„mPenLBrassica napus L.WaterloggingUniconazoleMorphologyHormonePhotosynthesis‚:en_asciiAlleviation of waterlogging damage in winter rape by application of uniconazole Effects on morphological characteristics, hormones and photosynthesisenAlleviation of waterlogging damage in winter rape by application of uniconazole Effects on morphological characteristics, hormones and photosynthesisFLA121Melakeselam, L. Weijun, Z.enARRAY(0x732fe0)2S037842909800112Melakeselam, L. Weijun, Z.12719981159PenLBrassica napus L.WaterloggingUniconazoleMorphologyHormonePhotosynthesis03784290S037842909800112ƒOenKFloret development and survival,Grain number,Plant height,Rht alleles,Wheat en_asciiIFloret development in near isogenic wheat lines differing in plant heightenIFloret development in near isogenic wheat lines differing in plant heightFLA213Miralles, D.J. Katz, S.D.Colloca, A.Slafer, G.A.enARRAY(0x759a6c)1S0378429098001033Miralles, D.J. Katz, S.D.Colloca, A.Slafer, G.A.3019981059OenKFloret development and survival,Grain number,Plant height,Rht alleles,Wheat03784290S037842909800103…1Cen?Cover crops,Hillsides,Temperature,Photoperiod,Phenology,Legumes‚DenEffects of temperature and photoperiod on phenology as a guide to the selection of annual legume cover and green manure crops for hillside farming systemsen_asciiEffects of temperature and photoperiod on phenology as a guide to the selection of annual legume cover and green manure crops for hillside farming systemsFLA139DKeatinge, J.D.H.Qi, A. Wheeler, T.R.Ellis, R.H.Summerfield, R.J.enARRAY(0x624248)2S037842909700122DKeatinge, J.D.H.Qi, A. Wheeler, T.R.Ellis, R.H.Summerfield, R.J.1521998052957Cen?Cover crops,Hillsides,Temperature,Photoperiod,Phenology,Legumes03784290S037842909700122*enSoil Fertilityen_asciiSoil FertilityBRV133 Skogley, E.O.1S037842909700104 Skogley, E.O.134199805085703784290S037842909700104† enCropping systems,Fertilizer management,Nitrogen accumulation,Nitrogen-use efficiency,Nutrient-use efficiency,Soil organic matter,RicelenoOpportunities for increased nitrogen-use efficiency from improved resource management in irrigated rice systemsen_asciioOpportunities for increased nitrogen-use efficiency from improved resource management in irrigated rice systemsFLA7S Cassman, K.G.Peng, S. Olk, D.C.Ladha, J.K. Reichardt, W. Dobermann, A. Singh, U.enARRAY(0x5a972c)1-2S037842909700140S Cassman, K.G.Peng, S. Olk, D.C.Ladha, J.K. Reichardt, W. Dobermann, A. Singh, U.3919980356 enCropping systems,Fertilizer management,Nitrogen accumulation,Nitrogen-use efficiency,Nutrient-use efficiency,Soil organic matter,Rice03784290S037842909700140ƒyOenKIron,Phosphorus,Nutrient acquisition,Nutrient-use efficiency,Roots,VAM,Zinc^enhRole of root growth, arbuscular mycorrhiza, and root exudates for the efficiency in nutrient acquisitionen_asciihRole of root growth, arbuscular mycorrhiza, and root exudates for the efficiency in nutrient acquisitionFLA203Marschener, H.enARRAY(0x5ee720)1-2S037842909700131Marschener, H.20719980356OenKIron,Phosphorus,Nutrient acquisition,Nutrient-use efficiency,Roots,VAM,Zinc03784290S037842909700131…NenJSweet sorghum,Gas-exchange,Water-use efficiency,Bowen ratio/energy balance‚enyWater-use efficiency of sweet sorghum under water stress conditions Gas-exchange investigations at leaf and canopy scalesen_asciiyWater-use efficiency of swee‚c6en2Canopy nitrogenPhotosynthesisSUCROSGrowth modelven_ascii4Impact of canopy nitrogen profile in wheat on growthen4Impact of canopy nitrogen profile in wheat on growthFLA63Bindraban, P.S.enARRAY(0x8c1374)1S037842909900030Bindraban, P.S.77199907636en2Canopy nitrogenPhotosynthesisSUCROSGrowth model11958903784290S037842909900030uten_ascii3Response to questions raised by Sinclair and Muchowen3Response to questions raised by Sinclair and MuchowFLA245 Kiniry, J.R.enARRAY(0x7fedd8)2-3S037842909900012 Kiniry, J.R.247199906256214853203784290S037842909900012„ en|Senescence agentYield componentsChemical desiccantsPrincipal component analysisCanonical discriminant analysisTriticaleen_asciienXOpportunities for increased nitrogen-use efficiency from improved lowland rice germplasmen_asciiXOpportunities for increased nitrogen-use efficiency from improved lowland rice germplasmFLA41PLadha, J.K.Kirk, G.J.D.Bennett, J.Peng, S.Reddy, C.K.Reddy, P.M. Singh, U.enARRAY(0x611014)1-2S037842909700123PLadha, J.K.Kirk, G.„|`en\HybridN-uptake efficiencyN-utilization efficiencyN-use efficiencyZea mays L.West Africa‚en_ascii|N-use efficiency of single, double and synthetic maize lines grown at four N levels in three ecological zones of West Africaen|N-use efficiency of single, double and synthetic maize lines grown at four N levels in three ecological zones of West AfricaFLA189'Akintoye, H.A.Kling, J.G.Lucas, E.O.enARRAY(0x83a110)3S037842909800122'Akintoye, H.A.Kling, J.G.Lucas, E.O.1991999020160`en\HybridN-uptake efficiencyN-utilization efficiencyN-use efficiencyZea mays L.West Africa54477303784290S037842909800122‡enInternal efficiencyNutrient efficiencyNutrient accumulationNutritional balanceRiceQUEFTSCrop nutrient requirementsNitrogenPhosphorusPotassium@en_asciiYInternal nutrient efficiencies of irrigated lowland rice in tropical and subtropical AsiaenYInternal nutrient efficiencies of irrigated lowland rice in tropical and subtropical AsiaFLA113Witt, C. Dobermann, A.Abdulrachman, S.Gines, H.C.Guanghuo, W. Nagarajan, R.Satawatananont, S. Son, T.T. Tan, P.S. Tiem, L.V.Simbahan, G.C. Olk, D.C.enARRAY(0x84e0b0)2S037842909900031Witt, C. Dobermann, A.Abdulrachman, S.Gines, H.C.Guanghuo, W. Nagarajan, R.Satawatananont, S. Son, T.T. Tan, P.S. Tiem, L.V.Simbahan, G.C. Olk, D.C.13819990963enInternal efficiencyNutrient efficiencyNutrient accumulationNutritional balanceRiceQUEFTSCrop nutrient requirementsNitrogenPhosphorusPotassium11958903784290S037842909900031….jenfOryza sativaWater managementSubmergence toleranceLight dynamicsValidationAgroecosystemSimulation‚,en_asciiA plant growth model for integrated weed management in direct-seeded rice II. Validation testing of water-depth effects and monoculture growthenA plant growth model for integrated weed management in direct-seeded rice II. Validation testing of water-depth effects and monoculture growthFLA145"Caton, B.P. Foin, T.C. Hill, J.E.enARRAY(0xd7fbd4)2-3S037842909900013"Caton, B.P. Foin, T.C. Hill, J.E.1551999062562jenfOryza sativaWater managementSubmergence toleranceLight dynamicsValidationAgroecosystemSimulation14853203784290S037842909900013hjen_ascii.Special issue on Micronutrients - Microprefaceen.Special issue on Micronutrients - MicroprefaceEDIviiWelch, R.M.Graham, R.D.1-2S037842909800140Welch, R.M.Graham, R.D.viii1999016003784290S037842909800140„#IenEWheat (Triticum aestivum)Water-use efficiencySoil drying irrigation.en_asciiPAn improved water-use efficiency for winter wheat grown under reduced irrigationenPAn improved water-use efficiency for winter wheat grown under reduced irrigationFLA91DJianhua, Z. Xiangzhen, S.Bin, L. Baolin, S.Jianmin, L. Dianxi, Z.enARRAY(0x6c47bc)2S037842909800104DJianhua, Z. Xiangzhen, S.Bin, L. Baolin, S.Jianmin, L. Dianxi, Z.9819981159IenEWheat (Triticum aestivum)Water-use efficiencySoil drying irrigation03784290S037842909800104„m`en\Cassava,Fertilizer,Manihot esculenta,Mulch,Productivity,Root quality,Soil properties,TillagebenjLong-term effects of mulch, fertilization and tillage on cassava grown in sandy soils in northern Colombiaen_asciijLong-term effects of mulch, fertilization and tillage on cassava grown in sandy soils in northern ColombiaFLA457 Cadavid, L.F.El-Sharkawy, M.A. Acosta, A.Sanchez, T.enARRAY(0x5766cc)1S0378429097001147 Cadavid, L.F.El-Sharkawy, M.A. Acosta, A.Sanchez, T.561998050857`en\Cassava,Fertilizer,Manihot esculenta,Mulch,Productivity,Root quality,Soil properties,Tillage03784290S037842909700114ƒEenAMaize,Model,Nitrogen accumulation,Nitrogen-use efficiency,Sorghumen:Nitrogen utilization efficiency in maize and grain sorghumen_ascii:Nitrogen utilization efficiency in maize and grain sorghumFLA209 Muchow, R.C.enARRAY(0x5a96cc)1-2S037842909700132 Muchow, R.C.21619980356EenAMaize,Model,Nitrogen accumulation,Nitrogen-use efficiency,Sorghum03784290S037842909700132enLegumesen_asciiLegumesBRV287Azam-Ali, S.N.3S037842909601051Azam-Ali, S.N.2881997065203784290S037842909601051„_en[Oryza sativa,Irrigation,Water-use efficiency,Rice, Saturated soil culture,Semi-arid tropics>enXImproving efficiency of water use for irrigated rice in a semi-arid tropical environmenten_asciiXImproving efficiency of water use for irrigated rice in a semi-arid tropical environmentFLA231"Borrell, A.Garside, A. Fukai, S.enARRAY(0x60f0bc)3S037842909700033"Borrell, A.Garside, A. Fukai, S.24819970652_en[Oryza sativa,Irrigation,Water-use efficiency,Rice, Saturated soil culture,Semi-arid tropics03784290S037842909700033/Pen!Seed Development and Germination.en_ascii!Seed Development and Germination.BRV85Welbaum, G.1S037842909700051Welbaum, G.851997085403784290S037842909700051„G>en:Plant water relations,Canola,Drought,Turgor,Indian mustard‚"en Comparative adaptation of canola (Brassica napus) and Indian mustard (B. juncea) to soil water deficits: Plant water relations and growthen_ascii Comparative adaptation of canola (Brassica napus) and Indian mustard (B. juncea) to soil water deficits: Plant water relations and growthFLA51'Wright, P.R.Morgan, J.M.Jessop, R.S.enARRAY(0x8b1a48)1S037842909601033'Wright, P.R.Morgan, J.M.Jessop, R.S.6419961149>en:Plant water relations,Canola,Drought,Turgor,Indian mustard03784290S037842909601033„/>en:Sugarcane,Nitrogen,Accumulation,Partitioning,Leaf nitrogen‚en{Growth of sugarcane under high input conditions in tropical Australia. III. Accumulation, partitioning and use of nitrogenen_ascii{Growth of sugarcane under high input conditions in tropical Australia. III. Accumulation, partitioning and use of nitrogenFLA223( Wood, A.W.Muchow, R.C.Robertson, M.J.enARRAY(0x5f72a8)2-3S037842909600043( Wood, A.W.Muchow, R.C.Robertson, M.J.23319961048>en:Sugarcane,Nitrogen,Accumulation,Partitioning,Leaf nitrogen03784290S037842909600043*BenIntegrated Pest Managementen_asciiIntegrated Pest ManagementBRV186Schumann, G.L.1-3037842909684671Schumann, G.L.1871996064603784290037842909684671ñQAŽ~zjƒsÊº/Šz“ƒ‚r£“èØ 4 $ãÓRB‹I‹½&(Ø&…enLong-term experiments,Nutrient balance,Nutrient uptake,Nutrient-use efficiency,Nutrient management,Phosphorus,Potassium,Rice,Sulfur6enTManagement of phosphorus, potassium, and sulfur in intensive, irrigated lowland riceen_asciiTManagement of phosphorus, potassium, and sulfur in intensive, irrigated lowland riceFLA1137 Dobermann, A. Cassman, ƒ5.en*IrrigationNitrogenRiceWeedsWest Africa@en_asciiYRice yield and productivity gaps in irrigated systems of the forest zone of Cote d'IvoireenYRice yield and productivity gaps in irrigated systems of the forest zone of Cote d'IvoireFLA201 Becker, M. Johnson, D.E.enARRAY(0x83d2a8)3S037842909800123 Becker, M. Johnson, D.E.2081999020160.en*IrrigationNitrogenRiceWeedsWest Africa16721303784290S037842909800123‚\enXPhenologyRainfed lowland riceDroughtPhotoperiod sensitivityTemperatureTransplantingPen_ascii!Phenology in rainfed lowland riceen!Phenology in rainfed lowland riceFLA51 Fukai, S.enARRAY(0x87fa54)1-2S037842909900050 Fukai, S.6019991164\enXPhenologyRainfed lowland riceDroughtPhotoperiod sensitivityTemperatureTransplanting23108803784290S037842909900050„?en GrowthPartitioningPhotosynthesisRespirationSimulation modelDevelopmental rateTranspirationRoot-shoot balanceSunflowerWater relationsen_ascii:A dynamic model of crop growth and partitioning of biomassen:A dynamic model of crop growth and partitioning of biomassFLA139Connor, D.J.Fereres, E.enARRAY(0x81c02c)2S037842909900032Connor, D.J.Fereres, E.15719990963en GrowthPartitioningPhotosynthesisRespirationSimulation modelDevelopmental rateTranspirationRoot-shoot balanceSunflowerWater relations11958903784290S037842909900032…"@en;USDA-NRCS, United States Department of Agriculture Natural ResourceConservation ServiceUSDA-ARS, United States Department of Agriculture - Agriculture ResearchServiceHI, Harvest index|en_ascii7Variation for biomass and residue production by dry peaen7Variation for biomass and residue production by dry peaFLA203McPhee, K.E.Muehlbauer, F.J.enARRAY(0xd7fa30)2-3S037842909900014McPhee, K.E.Muehlbauer, F.J.2121999062562@en;USDA-NRCS, United States Department of Agriculture Natural ResourceConservation ServiceUSDA-ARS, United States Department of Agriculture - Agriculture ResearchServiceHI, Harvest index14853203784290S037842909900014…)GenCMung beanIrrigationWater stressRadiation useHarvest indexYield‚Fen_asciiPhysiology of yield determination of mung bean (Vigna radiata (L.) Wilczek) under various irrigation regimes in the dry and intermediate zones of Sri LankaenPhysiology of yield determination of mung bean (Vigna radiata (L.) Wilczek) under various irrigation regimes in the dry and intermediate zones of Sri LankaFLA19De Costa, W.A.J.M.Shanmugathasan, K.N.Joseph, K.D.S.M.enARRAY(0x82b1d0)1S0378429098001419De Costa, W.A.J.M.Shanmugathasan, K.N.Joseph, K.D.S.M.1219990361GenCMung beanIrrigationWater stressRadiation useHarvest indexYield13533103784290S037842909800141…Mden`Nitrogen dilution,Critical nitrogen concentration,Oryza sativa,Yield barrier,Nitrogen managementnen_asciipCritical nitrogen concentrations: implications for high-yielding rice (Oryza sativa L.) cultivars in the tropicsenpCritical nitrogen concentrations: implications for high-yielding rice (Oryza sativa L.) cultivars in the tropicsFLA31^Sheehy, J.E.Dionora, M.J.A.Mitchell, P.L.Peng, S. Cassman, K.G.Lemaire, G.Williams, R.L.enARRAY(0x74c60c)1S037842909800105^Sheehy, J.E.Dionora, M.J.A.Mitchell, P.L.Peng, S. Cassman, K.G.Lemaire, G.Williams, R.L.4119981059den`Nitrogen dilution,Critical nitrogen concentration,Oryza sativa,Yield barrier,Nitrogen management03784290S037842909800105…&en!Specific leaf area,Leaf area index,Net photosynthetic rate,Leaf chlorophyll content,Growth rate,Sink and source capacities,Wide crosses,Low-management plant typeventGrowth and yield potential of Oryza sativa and O. glaberrima upland rice cultivars and their interspecific progeniesen_asciitGrowth and yield potential of Oryza sativa and O. glaberrima upland rice cultivars and their interspecific progeniesFLA57/Dingkuhn, M.Jones, M.P. Johnson, D.E.Sow, A.enARRAY(0x5babb0)1S037842909700115/Dingkuhn, M.Jones, M.P. Johnson, D.E.Sow, A.691998050857&en!Specific leaf area,Leaf area index,Net photosynthetic rate,Leaf chlorophyll content,Growth rate,Sink and source capacities,Wide crosses,Low-management plant type03784290S037842909700115ƒe@enForage yield,Leaf area,Nutrient uptake,Oxisol,Plant attributes‚Ben_asciiDifferences in tolerance to infertile acid soil stress among germplasm accessions and genetic recombinants of the tropical forage grass genus, BrachiariaenDifferences in tolerance to infertile acid soil stress among germplasm accessions and genetic recombinants of the tropical forage grass genus, BrachiariaFLA43& Rao, I.M.Miles, J.W.Granobles, J.C.enARRAY(0x73f57c)1S037842909800106& Rao, I.M.Miles, J.W.Granobles, J.C.5219981059Ben>Forage yield,Leaf area,Nutrient uptake,Oxisol,Plant attributes03784290S037842909800106…A]enYSugarcane,Harvest date,Scheduling,Operations research,Block productivity data,Net revenue‚FenOptimising harvest date in sugar production: A case study for the Mossman mill region in Australia I. Development of operations research model and solutionen_asciiOptimising harvest date in sugar production: A case study for the Mossman mill region in Australia I. Development of operations research model and solutionFLA1531 Higgins, A.J.Muchow, R.C. Rudd, A.V. Ford, A.W.enARRAY(0x623f98)2S0378429097001161 Higgins, A.J.Muchow, R.C. Rudd, A.V. Ford, A.W.1621998052957]enYSugarcane,Harvest date,Scheduling,Operations research,Block productivity data,Net revenue03784290S037842909700116†iendContinuous cropping,Models,Nutrient-by-water interaction,Nutrient-use efficiency,Rice,Selection,BNF, biological N fixation,Yo, yield without N inputs,AE, agronomic efficiency,PE, physiological efficiency,SOM, soil organic matter2enRResearch opportunities to improve nutrient-use efficiency in rice cropping systemsen_asciiRResearch opportunities to improve nutrient-use efficiency in rice cropping systemsFLA223 Lafitte, H.R.enARRAY(0x5f09d0)1-2S037842909700134 Lafitte, H.R.23619980356iendContinuous cropping,Models,Nutrient-by-water interaction,Nutrient-use efficiency,Rice,Selection,BNF, biological N fixation,Yo, yield without N inputs,AE, agronomic efficiency,PE, physiological efficiency,SOM, soil organic matter03784290S037842909700134†I'en"Maize,Ear-prolificacy,Density,Pollination,Infusion,Sucrose,DAS, days after sowing,DAA, days after anthesis,SPS, sucrose-phosphate synthase,SPE, semiprolific early‚JenYield response of two cycles of selection from a semiprolific early maize (Zea mays L.) population to plant density, sucrose infusion and pollination controlen_asciiYield response of two cycles of selection from a semiprolific early maize (Zea mays L.) population to plant density, sucrose infusion and pollination controlFLA109( Sarquis, J.I.Gonzalez, H.Dunlap, J.R.enARRAY(0x5a3e24)1-2S037842909700071( Sarquis, J.I.Gonzalez, H.Dunlap, J.R.11619980155'en"Maize,Ear-prolificacy,Density,Pollination,Infusion,Sucrose,DAS, days after sowing,DAA, days after anthesis,SPS, sucrose-phosphate synthase,SPE, semiprolific early03784290S037842909700071+FenPhotoassimilate distributionen_asciiPhotoassimilate distributionBRV285 Andrade, F.H.3S037842909601053 Andrade, F.H.2861997065203784290S037842909601053„1[enWDenitrification,Field pea,Immobilisation,Leaching,Pisum sativum,Triticum aestivum,WheathenmStubble retention and tillage in a semi-arid environment: 2. Soil mineral nitrogen accumulation during fallowen_asciimStubble retention and tillage in a semi-arid environment: 2. Soil mineral nitrogen accumulation during fallowFLA221 O'Leary, G.J.Connor, D.J.enARRAY(0x5fb7d4)3S037842909700035 O'Leary, G.J.Connor, D.J.22919970652[enWDenitrification,Field pea,Immobilisation,Leaching,Pisum sativum,Triticum aestivum,Wheat03784290S037842909700035„;en7Alfalfa,Maize,Peanut,Soybean,Sunflower,Water extractionJen^Rooting depth and soil water extraction patterns of different crops in a silty loam Haplustollen_ascii^Rooting depth and soil water extraction patterns of different crops in a silty loam HaplustollFLA294Dardanelli, J.L.Bachmeier, O.A. Sereno, R.Gil, R.enARRAY(0x5f911c)1S0378429097000174Dardanelli, J.L.Bachmeier, O.A. Sereno, R.Gil, R.3819970854;en7Alfalfa,Maize,Peanut,Soybean,Sunflower,Water extraction03784290S0378429097000177\en'Biology and Management of Rice Insects.en_ascii'Biology and Management of Rice Insects.BRV82 Way, M.O.1S037842909700053 Way, M.O.841997085403784290S037842909700053„AnenjCapitulum,Sunflower,Helianthus annuus,Grain filling,Temperature,Growth respiration,Maintenance respirationRenbMaintenance respiration coefficient for sunflower grins is less than that for the entire capitulumen_asciibMaintenance respiration coefficient for sunflower grins is less than that for the entire capitulumFLA147Ploschuk, E.L. Hall, A.J.enARRAY(0x5c05b8)2-3S037842909601035Ploschuk, E.L. Hall, A.J.15719970249nenjCapitulum,Sunflower,Helianthus annuus,Grain filling,Temperature,Growth respiration,Maintenance respiration03784290S037842909601035ƒW5en1Grain filling,Source of assimilates,Stem reservesTencReproductive growth of maize, sunflower and soybean at different source levels during grain fillingen_asciicReproductive growth of maize, sunflower and soybean at different source levels during grain fillingFLA155 Andrade, F.H.Ferreiro, M.A.enARRAY(0x694ddc)2-3S037842909601017 Andrade, F.H.Ferreiro, M.A.165199610485en1Grain filling,Source of assimilates,Stem reserves03784290S037842909601017ƒ39en5Rice,Drought,Osmotic adjustment,Dehydration tolerance.enPExpression of osmotic adjustment and dehydration tolerance in diverse rice linesen_asciiPExpression of osmotic adjustment and dehydration tolerance in diverse rice linesFLA185Lilley, J.M.Ludlow, M.M.enARRAY(0x57705c)2-3S037842909600045Lilley, J.M.Ludlow, M.M.197199610489en5Rice,Drought,Osmotic adjustment,Dehydration tolerance03784290S037842909600045senCFeeding and Greening the World: The Role of International Research.en_asciiCFeeding and Greening the World: The Role of International Research.BRV89Schuh, G.E.1037842909682396Schuh, G.E.891996094803784290037842909682396 :enNitrogen Fertilizationen_asciiNitrogen FertilizationBRV189 Bremner, J.M.1-3037842909684673 Bremner, J.M.1901996064603784290037842909684673 ñÜÌû&ÕÅ~n-ýí †v € pqaœŒûëVFw( 1wƒM1en-Maize,Phaseolus,Intercropping,Nitrogen,OxisolLen_The response of maize/Phaseolus intercropping to applied nitrogen on Oxisols in northern Zambiaen_ascii_The response of maize/Phaseolus intercropping to applied nitrogen on Oxisols in northern ZambiaFLA73! Siame, J.Willey, R.W. Morse, S.enARRAY(0x57ae3c)1-2S037842909700063! Siame, J.Willey, R.W. Morse, S.81199801551en-Maize,Phaseolus,Intercropping,Nitrogen,Oxisol03784290S037842909700063ƒenPhenology,Simulation,WheatenLong-term Experiments in Agricultural and Ecological Sciences.en_ascii>Long-term Experiments in Agricultural and Ecological Sciences.BRV74Ford Denison, R.1S037842909700009Ford Denison, R.751997085403784290S037842909700009&enIntroductionen_asciiIntroductionSCO1Ranalli, P.1-3S037842909700018Ranalli, P.21997075303784290S037842909700018…NtenpDisease management,Oryza sativa L.,Rice bacterial leaf blight,Xanthomonas campestris pv. oryzae,Systems analysisJenWhite lupin (Lupinus albus L.)en_asciiWhite lupin (Lupinus albus L.)FLA147 Huyghe, C.enARRAY(0x5e3cf8)1-3S037842909700028 Huyghe, C.1601997075303784290S037842909700028„r^enZRainfed lowland rice,Oryza sativa,Simulation,Stochastic dominance,Agro-ecology,PhilippinesXeneCombining crop modelling with economic risk-analysis for the evaluation of crop management strategiesen_asciieCombining crop modelling with economic risk-analysis for the evaluation of crop management strategiesFLA133)Lansigan, F.P. Pandey, S.Bouman, B.A.M.enARRAY(0x6a8e6c)1-2-Special Issue: Applications of Rice ModellingS037842909601037)Lansigan, F.P. Pandey, S.Bouman, B.A.M.14519970351^enZRainfed lowland rice,Oryza sativa,Simulation,Stochastic dominance,Agro-ecology,Philippines03784290S037842909601037„NAen=Breeding,Competitive ability,Modelling,Oryza sativa,Rice,Weed@enYCan simulation models help design rice cultivars that are more competitive against weeds?en_asciiYCan simulation models help design rice cultivars that are more competitive against weeds?FLA101@ Bastiaans, L.Kropff, M.J.Kempuchetty, N. Rajan, A. Migo, T.R.enARRAY(0x6ac5d0)1-2-Special Issue: Applications of Rice ModellingS037842909601046@ Bastiaans, L.Kropff, M.J.Kempuchetty, N. Rajan, A. Migo, T.R.11119970351Aen=Breeding,Competitive ability,Modelling,Oryza sativa,Rice,Weed03784290S037842909601046ƒ9nenpRapid canopy closure for maize production in the northern US corn belt: Radiation-use efficiency and grain yielden_asciipRapid canopy closure for maize production in the northern US corn belt: Radiation-use efficiency and grain yieldFLA2496Westgate, M.E.Forcella, F.Reicosky, D.C. Somsen, J.enARRAY(0x5f17bc)2-3S0378429096010556Westgate, M.E.Forcella, F.Reicosky, D.C. Somsen, J.2581997024903784290S037842909601055…^enZCover crop,Humid tropics,Maize,Mucuna pruriens var. utilis,Relay cropping,Ultisol,Zea Mays‚enNote on effects of a Mucuna pruriens var. utilis crop on the growth of maize (Zea mays) on an acid ultisol in southeastern Nigeriaen_asciiNote on effects of a Mucuna pruriens var. utilis crop on the growth of maize (Zea mays) on an acid ultisol in southeastern NigeriaSCO135+Ile, E.Hamadina, M.K.Zufa, K. Henrot, J.enARRAY(0x585e30)2-3S037842909601028+Ile, E.Hamadina, M.K.Zufa, K. Henrot, J.14019961048^enZCover crop,Humid tropics,Maize,Mucuna pruriens var. utilis,Relay cropping,Ultisol,Zea Mays03784290S037842909601028Pren2Site-Specific Management for Agricultural Systems.en_ascii2Site-Specific Management for Agricultural Systems.BRV91Ohlsson, I.1037842909682398Ohlsson, I.921996094803784290037842909682398"ñ¿°ôäÙÉ&ç×›‹áÑ–† ‚ r_OäÔãÓ‰yâÒ_(_„q`en\Soil erosion,Nutrient extraction,Cultivation,Cassava,Maize,Soybean,Pineapple,Mungbean,Peanut^enhNutrient uptake and soil erosion losses in cassava and six other crops in a Psamment in eastern Thailanden_asciihNutrient uptake and soil erosion losses in cassava and six other crops in a Psamment in eastern ThailandFLA113:Putthacharoen, S. Howeler, R.H.Jantawat, S.Vichukit, V.enARRAY(0x5f1b68)1S037842909700119:Putthacharoen, S. Howeler, R.H.Jantawat, S.Vichukit, V.1261998050857`en\Soil erosion,Nutrient extraction,Cultivation,Cassava,Maize,Soybean,Pineapple,Mungbean,Peanut03784290S037842909700119ƒPenLModern cultivars,Nutrient-use efficiency,Nitrogen accumulation,Oat,Selectionen;Genetic responses of oat genotypes to environmental factorsen_ascii;Genetic responses of oat genotypes to environmental factorsFLA183 Frey, K.enARRAY(0x62a3d4)1-2S037842909700128 Frey, K.18519980356PenLModern cultivars,Nutrient-use efficiency,Nitrogen accumulation,Oat,Selection03784290S037842909700128‚H`eniAdaptability Analysis: A Method for the Design, Analysis and Interpretation of On-Farm Research-Extensionen_asciiiAdaptability Analysis: A Method for the Design, Analysis and Interpretation of On-Farm Research-ExtensionBRV288 Thomson, P.C.3S037842909700083 Thomson, P.C.290199802025503784290S037842909700083ƒo8en4Sugarcane,Drying-off,Yield reduction,Sucrose content`eniChanges in the components of cane and sucrose yield in response to drying-off of sugarcane before harvesten_asciiiChanges in the components of cane and sucrose yield in response to drying-off of sugarcane before harvestFLA201 Robertson, M.J.Donaldson, R.A.enARRAY(0x596b68)3S037842909700065 Robertson, M.J.Donaldson, R.A.20819980202558en4Sugarcane,Drying-off,Yield reduction,Sucrose content03784290S037842909700065„iJenFDrought resistance,Drought score,Water stress,Rice,Seedling leaf death0enQThe use of seedling leaf death score for evaluation of drought resistance of riceen_asciiQThe use of seedling leaf death score for evaluation of drought resistance of riceFLA129cMitchell, J.H.Siamhan, D.Wamala, M.H.Risimeri, J.B.Chinyamakobvu, E.Henderson, S.A. Fukai, S.enARRAY(0x58fe30)1-2S037842909700074cMitchell, J.H.Siamhan, D.Wamala, M.H.Risimeri, J.B.Chinyamakobvu, E.Henderson, S.A. Fukai, S.13919980155JenFDrought resistance,Drought score,Water stress,Rice,Seedling leaf death03784290S037842909700074„;en7Grain legumes,Mediterranean environment,Phenology,YieldNen`Grain legume species in low rainfall Mediterranean-type environments I. Phenology and seed yielden_ascii`Grain legume species in low rainfall Mediterranean-type environments I. Phenology and seed yieldFLA1737 Thomson, B.D.Siddique, K.H.M. Barr, M.D.Wilson, J.M.enARRAY(0x5f505c)2-3S0378429097000477 Thomson, B.D.Siddique, K.H.M. Barr, M.D.Wilson, J.M.18719970954;en7Grain legumes,Mediterranean environment,Phenology,Yield03784290S037842909700047ƒ{2en.Lentil,15N,N2 fixation,N partitioning,Rain-fedXeneCultivar differences in nitrogen assimilation, partitioning and mobilization in rain-fed grown lentilen_asciieCultivar differences in nitrogen assimilation, partitioning and mobilization in rain-fed grown lentilFLA235%Kurdali, F. Kalifa, K. Al-Shamma, M.enARRAY(0x61e1e8)2-3S037842909700056%Kurdali, F. Kalifa, K. Al-Shamma, M.24319970954HenDLentil,¹⁵N,N₂ fixation,N partitioning,Rain-fed03784290S037842909700056ƒuLenHDefences,Gossypium spp.,Herbivory,Host plant resistance,Insects,RegrowthNen`Resistance to insect herbivory of cotton lines: Quantification of recovery capacity after damageen_ascii`Resistance to insect herbivory of cotton lines: Quantification of recovery capacity after damageFLA127Sadras, V.O. Fitt, G.P.enARRAY(0x580284)1-2S037842909601065Sadras, V.O. Fitt, G.P.13419970552LenHDefences,Gossypium spp.,Herbivory,Host plant resistance,Insects,Regrowth03784290S037842909601065„9}enySpecific leaf weight (leaf weight/leaf area),Water-use efficiency,Peanut,Arachis hypogaea,Pearl millet,Pennisetum glaucum6enTRelationships between specific leaf weight and mineral concentration among genotypesen_asciiTRelationships between specific leaf weight and mineral concentration among genotypesFLA19Brown, R.H. Byrd, G.T.enARRAY(0x5f90b0)1S037842909603450Brown, R.H. Byrd, G.T.2819970854}enySpecific leaf weight (leaf weight/leaf area),Water-use efficiency,Peanut,Arachis hypogaea,Pearl millet,Pennisetum glaucum03784290S037842909603450ƒ(JenFGrowth stages,Salt tolerance,Selection criteria,Sugarcane,Xeric traitsen:Identification of salt tolerance traits in sugarcane linesen_ascii:Identification of salt tolerance traits in sugarcane linesFLA9 Wahid, A.Rao, A. Rasul, E.enARRAY(0x5e3d40)1S037842909700038 Wahid, A.Rao, A. Rasul, E.1719970854JenFGrowth stages,Salt tolerance,Selection criteria,Sugarcane,Xeric traits03784290S037842909700038‚:>en:Cicer arietinum,Origin,Botany,Breeding,Selection techniqueHenChickpea (Cicer arietinum L.)en_asciiChickpea (Cicer arietinum L.)FLA161Singh, K.B.enARRAY(0x60d4d4)1-3S037842909700029Singh, K.B.17019970753>en:Cicer arietinum,Origin,Botany,Breeding,Selection technique03784290S037842909700029„-qenmOryza sativa,Crop protection,Problem identification,Production ecology,Systems design and management,Trainingen=Opportunities for using systems approaches in pest managementen_ascii=Opportunities for using systems approaches in pest managementFLA83Rossing, W.A.H.Heong, K.L.enARRAY(0x6d0a30)1-2-Special Issue: Applications of Rice ModellingS037842909601038Rossing, W.A.H.Heong, K.L.10019970351qenmOryza sativa,Crop protection,Problem identification,Production ecology,Systems design and management,Training03784290S037842909601038ƒ!^enhRadiation and transpiration partitioning in a maize-sorghum intercrop: Test and evaluation of two modelsen_asciihRadiation and transpiration partitioning in a maize-sorghum intercrop: Test and evaluation of two modelsFLA1272Ozier-Lafontaine, H. Vercambre, G.Tournebize, R.enARRAY(0x5e5444)2-3S0378429096010472Ozier-Lafontaine, H. Vercambre, G.Tournebize, R.1451997024903784290S037842909601047„ KenGReinfed rice,Root,Cultivars,Upland,Lowland,Direct seeding,TransplantingNen`Growth of rice cultivars by direct seeding and transplanting under upland and lowland conditionsen_ascii`Growth of rice cultivars by direct seeding and transplanting under upland and lowland conditionsFLA115#Naklang, K. Fukai, S.Nathabut, K.enARRAY(0x5ea564)2-3S037842909601029#Naklang, K. Fukai, S.Nathabut, K.12319961048KenGReinfed rice,Root,Cultivars,Upland,Lowland,Direct seeding,Transplanting03784290S037842909601029:Ten#The Ecology of Tropical Food Crops.en_ascii#The Ecology of Tropical Food Crops.BRV92Vanderlip, R.L.1037842909682399Vanderlip, R.L.931996094803784290037842909682399„0KenGEvaporative demand,Osmoregulation,Osmotic adjustment,Water stress,Wheat‚$en Growth and yield of wheat lines with differing osmoregulative capacity at high soil water deficit in seasons of varying evaporative demanden_ascii Growth and yield of wheat lines with differing osmoregulative capacity at high soil water deficit in seasons of varying evaporative demandFLA143 Morgan, J.M.enARRAY(0x6b0118)3037842909400100 Morgan, J.M.15219950340KenGEvaporative demand,Osmoregulation,Osmotic adjustment,Water stress,Wheat03784290037842909400100ðˆxŒ|B2!õôÖôQÏ¿Š|K7éØ¡YCöÉªbLõ´œWL!ëåÄ·wj;0üÕÉœ˜7,è¡›zj5Æ«O:ûê³ž_Vôº0¾”6)úæ©¦‹|I>¾›@+ìÖ•…P?ô· Ù·Áƒo Ñ ¾ ƒ h êß´Ÿ`Mö©”UB õ ¼ ³ Œ } J ; ÷ Ü ‘ … X I Ô·iSõÈ-url- 05380/articles/54/3/S092552739800006 -superarea- SAE -pubtype- JN -isbnissn- 09255273 -pubtitle- International Journal Of Production Economics -voliss- 54, 3 -coverdate- 18 May 1998 -canonicaldate- 19980518 -title- An approximate method for calculating the mean sojourn time of K-station production lines with no intermediate buffers -authors- Papadopoulos, H.T. -keywords- Queueing networks,GERT networks,Production lines,Stochastic modelling,Blocking phenomenon,Sojourn time -extra- __no_information__ -abstract- Based on the analysis of the holding time model (HTM), an approximate method is proposed for calculating the mean sojourn time of a K-station production line with exponential service times, manufacturing blocking and no intermediate buffers between adjacent stations. Application of this method gives numerical results for the mean sojourn time for K = 2,3,4,5 and 6 station lines, that are within acceptable error levels (2-5%), compared against simulation. Also, for longer production lines (with 7-20 stations), it is shown that the approximate results underestimate the simulation ones by 6%. -end- S092552739800006-url- 05380/articles/54/3/S092552739800002 -superarea- SAE -pubtype- JN -isbnissn- 09255273 -pubtitle- International Journal Of Production Economics -voliss- 54, 3 -coverdate- 18 May 1998 -canonicaldate- 19980518 -title- Inventory investment, product cycles, and the imperfectly competitive firm -authors- Jones, P.C., Moses, L.N., Zydiak, J.L. -keywords- Imperfect competition,Multiple products,Rotation cycle scheduling -extra- __no_information__ -abstract- We consider a profit-maximizing, imperfectly competitive firm, with downward-sloping demand functions, that can produce multiple products at a single facility. We show that if the firm dedicates production to a single product, both dynamic production, which exploits inventory, and static production, which does not, can be optimal. We also consider sharing the production facility by multiple products. We evaluate the efficiency of scheduling production using simple rotation cycle scheduling, and give a condition for guaranteeing optimality of this scheduling rule. We conclude by studying when dedicated production is preferred over shared production. -end- S092552739800002-url- 05380/articles/54/2/S092552739700137 -superarea- SAE -pubtype- JN -isbnissn- 09255273 -pubtitle- International Journal Of Production Economics -voliss- 54, 2 -coverdate- 29 January 1998 -canonicaldate- 19980129 -title- Manufacturing planning and control practices and their internal correlates: A study of firms in Ghana -authors- Amoako-Gyampah, K., Boye, S.S. -keywords- Manufacturing planning and control,Global practices,Internal correlates -extra- __no_information__ -abstract- This paper presents results of a survey study of 48 manufacturing firms in Ghana. Using the Whybark and Rho (1993) survey instrument on manufacturing practices, data were collected from firms across several industries. We discuss our findings on the general use of manufacturing planning and control practices and present several internal correlates of the use of some of those practices. The documentation on the extent of use will illustrate how well-known practices are being used in Ghana, while the analysis on the internal correlates is an attempt to understand factors that might induce a firm to adopt a specific practice. -end- S092552739700137-url- 05380/articles/54/2/S<S037842909900014Conservation ServiceConservation ServiceConservation Service6S037842909900004Primary cell wallPrimary cell wallPrimary cell wall4S037842909900021Land preparationLand preparationLand preparation@S037842909900010Structural sensitivityStructural sensitivityStructural sensitivity>S037842909900010Parameter sensitivityParameter sensitivityParameter sensitivityZS037842909900008#Winter wheat (Triticum aestivum L.)#Winter wheat (Triticum aestivum L.)Winter wheat (Triticum aestivum L.)fS037842909800142S037842909800162S037842909800170S037842909800098S037842909700076S037842909800122Zea mays L.Zea mays L.Zea mays L.2S037842909900003Water relationsWater relationsWater relationsS037842909900003ABAABAABA<S037842909800169Specific root lengthSpecific root lengthSpecific root length.S037842909800169 Moist savanna Moist savannaMoist savanna]S037842909800168Tmax, daily maximum temperature*T_max, daily maximum temperatureT_max, daily maximum temperatureRS037842909800168SR, daily total solar radiationSRƒ8en4YieldBiomassSucroseSugarcanePartitioningDrought.en_asciiPPhysiology and productivity of sugarcane with early and mid-season water deficitenPPhysiology and productivity of sugarcane with early and mid-season water deficitFLA211;Robertson, M.J.Inman-Bamber, N.G.Muchow, R.C. Wood, A.W.enARRAY(0x8cbaa8)3abacS037842909900042;Robertson, M.J.Inman-Bamber, N.G.Muchow, R.C. Wood, A.W.227199912648en4YieldBiomassSucroseSugarcanePartitioningDrought23108803784290S037842909900042„ cen_Rainfed lowland riceDrought resistanceLeaf water potentialSpikelet sterilityYieldScreening~en_ascii8Screening for drought resistance in rainfed lowland riceen8Screening for drought resistance in rainfed lowland riceFLA61. Fukai, S.Pantuwan, G.Jongdee, B. Cooper, M.enARRAY(0x8cbbe0)1-2abcaS037842909900051. Fukai, S.Pantuwan, G.Jongdee, B. Cooper, M.7419991164cen_Rainfed lowland riceDrought resistanceLeaf water potentialSpikelet sterilityYieldScreening23108803784290S037842909900051„OenKRainfed lowland riceBreedingAdaptationDroughtSubmergenceSoil fertilityFen_ascii\How can breeding contribute to more productive and sustainable rainfed lowland rice systems?en\How can breeding contribute to more productive and sustainable rainfed lowland rice systems?FLA199 Cooper, M. Fukai, S. Wade, L.J.enARRAY(0x894844)1-2aabS037842909900060 Cooper, M. Fukai, S. Wade, L.J.20919991164OenKRainfed lowland riceBreedingAdaptationDroughtSubmergenceSoil fertility23108803784290S037842909900060„8Cen?Zea maysSoil temperaturePhenologyCanopy elementGrowthYieldxen_asciiuEffect of soil temperature on phenology, canopy development, biomass and yield of maize in a cool-temperature climateenuEffect of soil temperature on phenology, canopy development, biomass and yield of maize in a cool-temperature climateFLA169*Stone, P.J.Sorensen, I.B.Jamieson, P.D.enARRAY(0x8a8934)2S037842909900033*Stone, P.J.Sorensen, I.B.Jamieson, P.D.17819990963Cen?Zea maysSoil temperaturePhenologyCanopy elementGrowthYield11958903784290S037842909900033ƒj6en2QuinoaPhotoperiodTemperatureFloweringModellingRen_asciibModelling photoperiod and temperature responses of flowering in quinoa (Chenopodium quinoa Willd.)enbModelling photoperiod and temperature responses of flowering in quinoa (Chenopodium quinoa Willd.)FLA19$ Bertero, H.D. King, R.W. Hall, A.J.enARRAY(0x8b2ae4)1S037842909900024$ Bertero, H.D. King, R.W. Hall, A.J.34199907636en2QuinoaPhotoperiodTemperatureFloweringModelling11958903784290S037842909900024„foenkBreedingGenetic improvementGrain numberGrain weightHelianthus annuus L.Oil concentrationYield advancePen_asciiaGenetic improvement of sunflower in Argentina between 1930 and 1995. I. Yield and its componentsenaGenetic improvement of sunflower in Argentina between 1930 and 1995. I. Yield and its componentsFLA157' Pereira, M.L.Sadras, V.O.Trapani, N.enARRAY(0x913b5c)2-3S037842909900015' Pereira, M.L.Sadras, V.O.Trapani, N.1661999062562oenkBreedingGenetic improvementGrain numberGrain weightHelianthus annuus L.Oil concentrationYield advance14853203784290S037842909900015ð%""àk.Æºt-å×¦“XE ÚÌ›ŠSJ#ÛÊ“Ž?:è× ‹L?»®niJ7üî½¨iP þÓÍ¬¦…^U.!òå¶ª}vSDñœ“l^-"÷ë¾µŽ„[6×Âƒo2 çÕ$îÞ©‘;)ðÛœ`U*ÉÃ‘† P D >) ê Ö ™ H 8 á Ü ½ ³ Š 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Phenology PhenologyPhenology(S037842909900052 Aerenchyma AerenchymaAerenchymaS037842909900029VignaVignaVignaV3S037842909900027S037842909900033S037842909900034Soil temperatureSoil temperatureSoil temperatureG2037842909600006S037842909900031S037842909700124 Potassium PotassiumPotassium<S037842909900027Water use efficiencyWater use efficiencyWater use efficiency>S037842909900026Echinochloa oryzoidesEchinochloa oryzoidesEchinochloa oryzoidesƒKƒ/037842909500020037842909400096037842909500050037842909500056037842909600011037842909500078037842909500084037842909500088037842909500093037842909500094S037842909700033S037842909900010S037842909900013S037842909900026S037842909800077S037842909800084037842909500101S037842909601037S037842909601038S037842909601039S037842909601043S037842909601044S037842909601046S037842909700121S037842909601061S037842909800105Oryza sativaOryza sativaOryza sativa,S037842909900025Seeding dateSeeding dateSeeding date‚4‚S037842909800170S037842909603456S037842909603457037842909500014037842909400080037842909400098037842909500077037842909500081037842909500090S037842909700055S037842909700062S037842909900024S037842909800074S037842909800087037842909400106S037842909700122S037842909800128PhotoperiodPhotoperiodPhotoperiod1"S037842909900024S037842909800128QuinoaQuinoaQuinoaR3S037842909800164S037842909700138S037842909800102UV-B radiationUV-B radiationUV-B radiation*S037842909900009InoculationInoculationInoculation.S037842909900013 Agroecosystem AgroecosystemAgroecosystem>S037842909900013Submergence toleranceSubmergence toleranceSubmergence tolerance8S037842909900020Autotrophic growthAutotrophic growthAutotrophic growthU"S037842909900011S037842909800107Radiation use efficiencyRadiation use efficiencyRadiation use efficiency4S037842909900010Cultural controlCultural controlCultural control*S037842909900008ForecastingForecastingForecasting/S037842909600045S037842909601030S037842909601032S037842909700016037842909400100S037842909800125S037842909900002S037842909900003Osmotic adjustmentOsmotic adjustmentOsmotic adjustment8S037842909800168R5, beginning seedR5, beginning seedR5, beginning seed<S037842909800168pd, photothermal daypd, photothermal daypd, photothermal day>S037842909800168d, index of agreementd, index of agreementd, index of agreement^S037842909800168%a, intercept of the linear regression%a, intercept of the linear regressiona, intercept of the linear regression(S037842909800149 Short-term Short-termShort-term&S037842909800149 Long-term Long-termLong-term,S0378429098001483D-structure3D-structure3D-structure*S037842909800147Rice yieldsRice yieldsRice yields0S037842909800152Mean tip angleMean tip angleMean tip angle&S037842909800141 Mung bean Mung beanMung beanT3S037842909800139S037842909700136S037842909800129Human nutritionHuman nutritionHuman nutritionC"S037842909800137S037842909800135BioavailabilityBioavailabilityBioavailability"S037842909800137ArsenicArsenicArsenic,S037842909800136AntinutrientAntinutrientAntinutrient.S037842909800136 Extrinsic tag Extrinsic tagExtrinsic tag.S037842909800136 Microminerals MicromineralsMicrominerals&S037842909800134 Transport TransportTransport S037842909800132PhloemPhloemPhloem S037842909800131GypsumGypsumGypsum S037842909800131FoliarFoliarFoliar*S037842909800118Row spacingRow spacingRow spacingFS037842909800125Carbohydrate accumulationCarbohydrate accumulationCarbohydrate accumulation>S037842909800114Grain physical traitsGrain physical traitsGrain physical traits0S037842909800113Root pathogensRoot pathogensRoot pathogens:S037842909800102Sensitivity rankingSensitivity rankingSensitivity rankingS037842909800111KenafKenafKenaf?"S037842909800098S037842909700117 Soil nitrogen Soil nitrogenSoil nitrogenD!S037842909800095037842909500054Transgenic cropsTransgenic cropsTransgenic crops.S03784290980009…qyenuBambara groundnut (Vigna subterranea)TemperaturePhotoperiodDevelopment rateFloweringPoddingModellingValidation‚!en_asciiQuantifying photothermal influences on reproductive development in bambara groundnut (Vigna subterranea): models and their validationenQuantifying photothermal influences on reproductive development in bambara groundnut (Vigna subterranea): models and their validationFLA17 Brink, M.Sibuga, K.P.Tarimo, A.J.P.Ramolemana, G.M.enARRAY(0x815f50)1abbcS0378429099000757 Brink, M.Sibuga, K.P.Tarimo, A.J.P.Ramolemana, G.M.1420000466en|Bambara groundnut (Vigna subterranea)TemperaturePhotoperiodDevelopment rateFloweringPoddingModellingValidation14233203784290S037842909900075‡ISenOYieldGenotype-by-environment interactionsDroughtBreeding strategySimulation‚en_asciiyRainfed lowland rice breeding strategies for Northeast Thailand II. Comparison of intrastation and interstation selectionenyRainfed lowland rice breeding strategies for Northeast Thailand II. Comparison of intrastation and interstation selectionFLA153O Cooper, M.Rajatasereekul, S.Somrith, B.Sriwisut, S. Immark, S.Boonwite, C.Suwanwongse, A. Ruangsook, S.Hanviriyapant, P. Romyen, P.Porn-uraisanit, P.Skulkhu, E. Fukai, S. Basnayake, J. Podlich, D.W.enARRAY(0x8c4f44)1-2abcdefghijjbaaaS037842909900057O Cooper, M.Rajatasereekul, S.Somrith, B.Sriwisut, S. Immark, S.Boonwite, C.Suwanwongse, A. Ruangsook, S.Hanviriyapant, P. Romyen, P.Porn-uraisanit, P.Skulkhu, E. Fukai, S. Basnayake, J. Podlich, D.W.17619991164SenOYieldGenotype-by-environment interactionsDroughtBreeding strategySimulation23108803784290S037842909900057ð ý‰yåÕˆxø÷<ô¸§qe9/ëŸ–pSì¦œt^ä×—jU®™ZHÖÄj`7'òã°£tOð×y6Ä°spD/ðâ±©„yNEîæÁ¹”Ž+ÔµbU&ÞÓ¨župQCÌ·xc$Ö¾yuXF ûÂ´rf) ð ç À r h ? 3 ÷Äº€s$ÚÑ™’NC Þ Ð € = 6óê–’UJ‚jòí{nüì¦“G ÕG ‹„$„037842909500043037842909500044037842909400092037842909500048037842909500049037842909400097037842909600003037842909500051037842909600006037842909600016037842909600022S03784290960100703K"S037842909900021S037842909700124Nutrient managementNutrient managementNutrient managementE"S037842909700043S037842909900008Simulation modelSimulation modelSimulation modelqT037842909500079S037842909601017S037842909601035S037842909603462S037842909900007 Grain filling Grain fillingGrain fillingdS037842909800165S037842909603462037842909400096037842909600013S037842909601030S037842909700074Drought resistanceDrought resistanceDrought resistanceƒQƒCS037842909800150S037842909800163S037842909800087037842909400107037842909500011037842909500037037842909500044037842909400093037842909500048037842909600007037842909600031S037842909601028S037842909700017S037842909700109S037842909700119S037842909601062S037842909601066S037842909700132S037842909700062S037842909700063S037842909800102S037842909700071S037842909700076S037842909800120S037842909700092S037842909700093S037842909700094MaizeMaizeMaizewDS037842909800162S037842909603460S037842909601064S037842909700079Chlorophyll fluorescenceChlorophyll fluorescenceChlorophyll fluorescence~aS037842909800151037842909400104037842909500011037842909500035037842909600008037842909600014 Transpiration TranspirationTranspiration;"S037842909800150S037842909700122Cover cropsCover cropsCover crops<1S037842909800150037842909500011037842909500097BeanBeanBeantUS037842909700125S037842909800129S037842909800130S037842909800131S037842909800135MicronutrientsMicronutrientsMicronutrientsO9S037842909800083S037842909601009S037842909700123S037842909700125S037842909700128S037842909700134037842909500005S037842909800115S037842909700096037842909500039S037842909800133 Selection SelectionSelectionB1037842909500098037842909500038S037842909800130DiseaseDiseaseDiseaseB!S037842909800116037842909500039Selection indexSelection indexSelection index@!037842909500087S037842909800116Triticum durumTriticum durumTriticum durum‚c‚I037842909500052S037842909800087037842909500072037842909500077037842909500079S037842909601002S037842909601006037842909500081037842909500090S037842909601035S037842909603456S037842909603457037842909400102037842909400104037842909400106S037842909700122S037842909700062037842909500100S037842909800120037842909500037TemperatureTemperatureTemperatureC2S037842909800097037842909500013S037842909601059BiomassBiomassBiomass7"S037842909800083S037842909601027 Groundnut GroundnutGroundnut="S037842909603464S037842909700137N fertilizerN fertilizerN fertilizerN1S037842909800073037842909500076037842909500090 Vernalization VernalizationVernalization9"S037842909700116S037842909700135 Scheduling SchedulingScheduling2S037842909800080National trendsNational trendsNational trends,S037842909800079CERES-barleyCERES-barleyCERES-barley(S037842909700108 Lint yield Lint yieldLint yield:S037842909700118Germplasm screeningGermplasm screeningGermplasm screening&S037842909700119 Pineapple PineapplePineapple,S037842909700119Soil erosionSoil erosionSoil erosionS037842909700130Nutrient accumulationNutrient accumulationNutrient accumulation>S037842909700091Seed yield componentsSeed yield componentsSeed yield components:!037842909600021S037842909700079Durum wheatDurum wheatDurum wheat0S037842909700078Seed viabilitySeed viabilitySeed viabilityS037842909700096ELISAELISAELISA(S037842909700096 Assessment AssessmentAssessment*S037842909700077Ley farmingLey farmingLey farming6S037842909700075Nitrogen dynamicsNitrogen dynamiƒaƒaAen=Avena sativaLeaf emergencePhenologyShoot apexThermal timeren_ascii2Apical development in oats predicted by leaf stageen2Apical development in oats predicted by leaf stageFLA79> Sonego, M. Moot, D.J.Jamieson, P.D.Martin, R.J.Scott, W.R.enARRAY(0x8b0dac)1 aabbaS037842909900073> Sonego, M. Moot, D.J.Jamieson, P.D.Martin, R.J.Scott, W.R.8620000265HenDAvena sativaLeaf emergencePhenologyShoot apexThermal time15016803784290S037842909900073„npenlBradyrhizobiumImmunological methodsMost probable number methodNitrogen fixationQuality controlRhizobiumVen_ascii$Inoculant quality and its evaluationen$Inoculant quality and its evaluationFLA259\ Lupwayi, N.Z.Olsen, P.E.Sande, E.S.Keyser, H.H. Collins, M.M.Singleton, P.W. Rice, W.A.enARRAY(0x910ae4)2-3aabbabaS037842909900091\ Lupwayi, N.Z.Olsen, P.E.Sande, E.S.Keyser, H.H. Collins, M.M.Singleton, P.W. Rice, W.A.27020000365~enzBradyrhizobiumImmunological methodsMost probable number methodNitrogen fixationQuality controlRhizobium12218303784290S037842909900091„KDen@Rainfed lowland riceCultivarSoil fertilityNitrogenPhosphorusZen_asciifGenotypic variation in rice grown in low fertile soils and drought-prone, rainfed lowland environmentsenfGenotypic variation in rice grown in low fertile soils and drought-prone, rainfed lowland environmentsFLA121> Fukai, ShuInthapanya, P.Blamey, F.P.C.Khunthasuvon, SomjitenARRAY(0x89575c)1-2abacS037842909900055> Fukai, ShuInthapanya, P.Blamey, F.P.C.Khunthasuvon, Somjit13019991164Den@Rainfed lowland riceCultivarSoil fertilityNitrogenPhosphorus23108803784290S037842909900055ƒ‚$en_ascii Soybean-chickpea rotation on vertic inceptisols: 1. effect of soil depth and landform on light interception, water balance and crop yieldsen Soybean-chickpea rotation on vertic inceptisols: 1. effect of soil depth and landform on light interception, water balance and crop yieldsFLA211P SinghSP Wani3S037842909900037P SinghSP Wani224199911026303784290S037842909900037„r'en#UV-B radiationMaizePhotosynthesis‚2en_asciiIntraspecific variation in sensitivity to ultraviolet-B radiation in maize grown under field conditions II. Physiological and biochemical aspectsenIntraspecific variation in sensitivity to ultraviolet-B radiation in maize grown under field conditions II. Physiological and biochemical aspectsFLA97DCorreia, C.MAreal, E.L.VTorres-Pereira, M.STorres-Pereira, J.M.GenARRAY(0x905c14)2-3S037842909800164DCorreia, C.MAreal, E.L.VTorres-Pereira, M.STorres-Pereira, J.M.G1051999062562'en#UV-B radiationMaizePhotosynthesis14853203784290S037842909800164…anenjSoybean-wheat systemVertisolFertilizer PManureSustainable yield indexPhosphorus utilizationP balance‚<en_asciiYield sustainability and phosphorus utilization in soybean-wheat system on Vertisols in response to integrated use of manure and fertilizer phosphorusenYield sustainability and phosphorus utilization in soybean-wheat system on Vertisols in response to integrated use of manure and fertilizer phosphorusFLA181/Reddy, D.D. Rao, A.S.Reddy, K.S.Takkar, P.N.enARRAY(0x565c50)2-3S037842909900019/Reddy, D.D. Rao, A.S.Reddy, K.S.Takkar, P.N.1901999062562nenjSoybean-wheat systemVertisolFertilizer PManureSustainable yield indexPhosphorus utilizationP balance14853203784290S037842909900019ðóã¨˜ñp`ÕÅ¬œÂ² , m] † vãÓ„tÝÍ M6ùÏÃ—}5(úçiZ(öìÄ¾ž“hZ) ùí°¦}l5(ùðÉ½€tG9øë¬¤n^ýÒÆ™f\3&÷ë¾°tI=ïå¼¬wnG;ÒÉ¢•f\3$àØ³¦wl1&ûõÔÇ˜‹\RßÓ¦™jPýÔÉž“h\/# ö ê ½ ´ € Q A ±§~qB9 ¼wLDþ¨rf9/ ý Å ¼ … { R H é Ü ¤ } q D „Mandal, A.B.Pramanik, S.C. Chowdhury, B.Bandyopadhyay, A.K.enARRAY(0x81e7a4)1S037842909800145>Mandal, A.B.Pramanik, S.C. Chowdhury, B.Bandyopadhyay, A.K.2119990361UenQSomaclonal variationTissue culturePokkali somaclonesSalt toleranceBay Islands13533103784290S037842909800145ƒIenEMicromineralsExtrinsic tagIntrinsic tagAntinutrientTanninPhytateen_ascii=Trace element bioavailability as exemplified by iron and zincen=Trace element bioavailability as exemplified by iron and zincFLA115House, W.A.enARRAY(0x7c6744)1-2S037842909800136House, W.A.14119990160IenEMicromineralsExtrinsic tagIntrinsic tagAntinutrientTanninPhytate03784290S037842909800136ƒUBetulaceaeBetulaceaeA"S030519780000060S030519780100097AntilocapridaeAntilocapridaeAntilocapridaeAS030519780000073Drimiopsis maculataDrimiopsis maculataDrimiopsis maculata(S030519780100074 Clerodanes ClerodanesClerodanes_DS030519789800057S030519789800067S030519780000074S030519780100043BiogeographyBiogeographyBiogeography.S030519780100047 Epimerization EpimerizationEpimerizationG"S030519780100037S030519789880004Mitochondrial DNAMitochondrial DNAMitochondrial DNA/S030519780000101 HypostomusHypostomusHypostomus:S030519780100032Climatic conditionsClimatic conditionsClimatic conditions6S030519780000049Coumarino-lignoidCoumarino-lignoidCoumarino-lignoid(S030519780000047 Vomifoliol VomifoliolVomifolioljS030519780000044$Juniperus phoenicea subsp. turbinata2Juniperus phoenicea subsp. turbinataJuniperus phoenicea subsp. turbinataBS030519780000043Acetic acid derivativesAcetic acid derivativesAcetic acid derivativesFS030519780000029Essential oil CompositionEssential oil CompositionEssential oil CompositionFS030519780000023Campo rupestre vegetationCampo rupestre vegetationCampo rupestre vegetation1S030519780000031CypripediumCypripediumCypripedium1"S030519789900129S030519789900044LeavesLeavesLeaves^S030519789900046%Helichrysum italicum ssp microphyllum%Helichrysum italicum ssp microphyllumHelichrysum italicum ssp microphyllum(S030519789900042 Quassinoid QuassinoidQuassinoidKS030519789900098(+)-cis-sabinene hydrate(+)-cis-sabinene hydrate(+)-cis-sabinene hydrate,S030519789900085PhytosterolsPhytosterolsPhytosterols4S030519789900073Chemical defenceChemical defenceChemical defence*S030519789900069PercomorphaPercomorphaPercomorpha2S030519789900030Anisocoumarin HAnisocoumarin HAnisocoumarin H8S030519789900032Isozyme expressionIsozyme expressionIsozyme expression>S030519789900018Senecio doratophyllusSenecio doratophyllusSenecio doratophyllus@S030519789900008Isoprunetin and orobolIsoprunetin and orobolIsoprunetin and orobolXS030519789800115"Mitochondrial cytochrome oxidase I"Mitochondrial cytochrome oxidase IMitochondrial cytochrome oxidase I(S030519789800075 Leaf waxes Leaf waxesLeaf waxes:!030519789600028S030519789800073Pinus nigraPinus nigraPinus nigra6S030519789800056Tussilaginic acidTussilaginic acidTussilaginic acidPS030519789700132RAPDs, Genetic differentiationRAPDs, Genetic differentiationRAPDs, Genetic differentiation.S030519789800014 Hexanoic acid Hexanoic acidHexanoic acid"S030519789700131HuberiaHuberiaHuberianSS030519789600105030519789500079030519789600039S030519789700018S030519789700106distributiondistributiondistribution0S030519789700085ProcellariidaeProcellariidaeProcellariidaerS030519789700096/Helio2en_asciiCONTENTS OF VOLUMEenCONTENTS OF VOLUMEMIS2012-3S037842900300024202200302208131315003784290S037842900300024…penlRice (Oryza sativa L.)Water stressCarbon metabolismSink strengthSucrose synthaseStarch branching enzymezen_asciivActivities of enzymes involved in sucrose-to-starch metabolism in rice grains subjected to water stress during fillingenvActivities of enzymes involved in sucrose-to-starch metabolism in rice grains subjected to water stress during fillingFLA69,Yang, J. Zhang, J.Wang, Z.Zhu, Q.Liu, L.enARRAY(0x819194)1S037842900200214,Yang, J. Zhang, J.Wang, Z.Zhu, Q.Liu, L.812003021081penlRice (Oryza sativa L.)Water stressCarbon metabolismSink strengthSucrose synthaseStarch branching enzyme9453103784290S037842900200214„+[enWMaize crop modelingLeaf areaLeaf expansionLeaf senescenceLeaf longevityCERES-Maize>en_asciiXA leaf area model to simulate cultivar-specific expansion and senescence of maize leavesenXA leaf area model to simulate cultivar-specific expansion and senescence of maize leavesFLA1,Lizaso, J.I.Batchelor, W.D.Westgate, M.E.enARRAY(0xbc732c)1S037842900200151,Lizaso, J.I.Batchelor, W.D.Westgate, M.E.172003010880[enWMaize crop modelingLeaf areaLeaf expansionLeaf senescenceLeaf longevityCERES-Maize03784290S037842900200151ðcYch7ÔÁulE&ÓÈƒ:"ÝÑ¤“\Q&¿«n^)çÜ±©„s<#Ü¿_QÔÃŒ}9&ëçÊÆ©¤…|D7Þ×´Ÿ`QúèžŒSAáÈo6*ýÛ>$Ê¶yl='æà®¤{sN;ïå¼¨k^/áÌs*ÓÃlg& í è? œ e R Ä ª a Q ãÕ}wE1ôÆô-url- 05380/articles/54/2/S092552739700108 -superarea- SAE -pubtype- JN -isbnissn- 09255273 -pubtitle- International Journal Of Production Economics -voliss- 54, 2 -coverdate- 29 January 1998 -canonicaldate- 19980129 -title- A concurrent engineering decision model: Management of the project activities information flows -authors- Nicoletti, S., Nicolo, F. -keywords- Project planning,Scheduling,Concurrent engineering,Information flows -extra- __no_information__ -abstract- Management of information flows is a basic tool to control project activities. Operations belonging to an activity (each activity is composed of several operations) can generate, during their execution, flows of information which affect or modify the execution of other operations belonging to other activities. The information flows among ope<S037842900000065Water deficit stressWater deficit stressWater deficit stress1"S037842909900089S037842909800131LegumeLegumeLegumeWCS037842909800166037842909600034S037842909900088S03784290970005615N¹⁵N¹⁵N,S037842909900087Kallar grassKallar grassKallar grass4S037842909900090Strain selectionStrain selectionStrain selectionHS037842909900069Photosynthetic inheritancePhotosynthetic inheritancePhotosynthetic inheritanceC"S037842909900010S037842909900066Cropping systemCropping systemCropping system:S037842909900065Variance componentsVariance componentsVariance components6S037842909900071Pratylenchus zeaePratylenchus zeaePratylenchus zeaeeS037842909900069%Sugarcane (Saccharum officinarum, L.),Sugarcane (Saccharum officinarum, L.)Sugarcane (Saccharum officinarum, L.)…'…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ieldYieldYield,S037842909900046Spike growthSpike growthSpike growth@3S037842909900045S037842909700123S037842909700131RootsRootsRootsV3S037842909900045S037842909700124S037842909700130Nutrient balanceNutrient balanceNutrient balance@S037842909900063N-agronomic efficiencyN-agronomic efficiencyN-agronomic efficiencyHS037842909900063N-physiological efficiencyN-physiological efficiencyN-physiological efficiency>S037842909900063N-recovery efficiencyN-recovery efficiencyN-recovery efficiency:S037842909900031Nutritional balanceNutritional balanceNutritional balance.S037842909900027 Soil moisture Soil moistureSoil moisture<S037842909900026Sensitivity analysisSensitivity analysisSensitivity analysis(S037842909900025 Net return Net returnNet returnK"S037842909800143S037842909900023Post-silking periodPost-silking periodPost-silking period$S037842909900023ThinningThinningThinning(S037842909900022 Miscanthus MiscanthusMiscanthus1"S037842909900008S037842909900030SUCROSSUCROSSUCROS@S037842909900019Phosphorus utilizationPhosphorus utilizationPhosphorus utilization.S037842909900004 Cytochemistry CytochemistryCytochemistry<S037842909900020Weed competitivenessWeed competitivenessWeed competitivenessY"S037842909900006S037842909900007Mediterranean environmentsMediterranean environmentsMediterranean environmentsTS037842909700142S037842909800116037842909500039S037842909900006S037842909900007"Genotype _ environment interaction"Genotype _ environment interactionGenotype _ environment interaction,S037842909800165African riceAfrican riceAfrican rice8S037842909800163Grain-filling rateGrain-filling rateGrain-filling rateFS037842909800163Chlorophyll concentrationChlorophyll concentrationChlorophyll concentration S037842909800155DamageDamageDamage8S037842909800146Rice-based systemsRice-based systemsRice-based systems8S037842909800145Pokkali somaclonesPokkali somaclonesPokkali somaclonesI"S037842909800152S037842909700115Specific leaf areaSpecific leaf areaSpecific leaf areaS037842909800152VigorVigorVigor2S037842909800139Zinc deficiencyZinc deficiencyZinc deficiency>S037842909800138Cost-benefit analysisCost-benefit analysisCost-benefit analysis"S037842909800137MercuryMercuryMercury"S037842909800136PhytatePhytatePhytate.S037842909800136 Intrinsic tag Intrinsic tagIntrinsic tag7"S037842909800132S037842909800134 Manganese ManganeseManganeseS037842909800132XylemXylemXylemS037842909800131LimeLimeLimeS037842909800130SoilSoilSoil:S037842909800121Chemical desiccantsChemical desiccantsChemical desiccantsC"S037842909800085S037842909800120Sorghum bicolorSorghum bicolorSorghum bicolor6S037842909800127Nitrate reductaseNitrate reductaseNitrate reductase3"S037842909800107S037842909800127NitrateNitrateNitrateA"S037842909700118S037842909800126Cold toleranceCold toleranceCold tolerance_"S037842909700118S037842909800126Chickpea (Cicer arietinum L.)Chickpea (Cicer arietinum L.)Chickpea (Cicer arietinum L.)FS037842909800143Old and new maize hybridsOld and new maize hybridsOld and new maize hybrids6S037842909800142Source:sink ratioSource:sink ratioSource:sink ratio$S037842909800113SainfoinSainfoinSainfoin*S037842909800112UniconazoleUniconazoleUniconazole2S037842909800102Growth analysisGrowth analysisGrowth analysis4S037842909800096Ammonium sulfateAmmonium sulfateAmmonium 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Fox, K.M.Warren, G.N.Cullis, B.R. Coombes, N.E.Lewin, L.G.enARRAY(0x836684)1aaabbaS037842909900074L Stevens, M.M. Fox, K.M.Warren, G.N.Cullis, B.R. 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Kamiunten, H. Terao, H.Lin, D. Matsuo, M. Zheng, Y.enARRAY(0x99d02c)2-3S037842900200217JDong, Y.Tsuzuki, E. Kamiunten, H. Terao, H.Lin, D. Matsuo, M. Zheng, Y.1392003022081ieneQuantitative trait loci (QTLs)Pre-harvest sprouting (PHS) resistanceDormancyRice (Oryza sativa L.)31315003784290S037842900200217…VenSoybean-wheat systemSouth AsiaProductivity with constraint sourcesIrrigated semiarid soilSubtropical regionFertilizer P use efficiencyP recoveryjen_asciinPhosphorus fertilizer response in an irrigated soybean-wheat production system on a subtropical, semiarid soilennPhosphorus fertilizer response in an irrigated soybean-wheat production system on a subtropical, semiarid soilFLA99'Aulakh, M.S.Pasricha, N.S. Bahl, G.S.enARRAY(0x90b14c)2S037842900200172'Aulakh, M.S.Pasricha, N.S. Bahl, G.S.1092003012080enSoybean-wheat systemSouth AsiaProductivity with constraint sourcesIrrigated semiarid soilSubtropical regionFertilizer P use efficiencyP recovery5992903784290S037842900200172„5Cen?Dinitrogen fixationRoot system sizeSelectionTrifolium repensNen_ascii`Selection of white clover (Trifolium repens L.) using root traits related to dinitrogen fixationen`Selection of white clover (Trifolium repens L.) using root traits related to dinitrogen fixationFLA57@Chloupek, O.Ehrenbergerova, J.Opitz von Boberfeld, W.Rha, P.enARRAY(0xbc7660)1S037842900200154@Chloupek, O.Ehrenbergerova, J.Opitz von Boberfeld, W.Rha, P.622003010880Cen?Dinitrogen fixationRoot system sizeSelectionTrifolium repens03784290S037842900200154âWMW…,ZenVTheileria orientalisPiroplasmMicroneme-rhoptry proteinBand 3-binding proteinEscapeXen_asciieIdentification of a piroplasm protein of Theileria orientalis that binds to bovine erythrocyte band 3eneIdentification of a piroplasm protein of Theileria orientalis that binds to bovine erythrocyte band 3FLA193P Kim, J.-Y.Yokoyama, N. Kumar, S. Inoue, N. Inaba, M.Fujisaki, K.Sugimoto, C.enARRAY(0x72c940)2%[DOI] 10.1016/j.molbiopara.2004.05.01P Kim, J.-Y.Yokoyama, N. Kumar, S. Inoue, N. Inaba, M.Fujisaki, K.Sugimoto, C.20 ,en_asciiEDITORIAL BOARDenEDITORIAL BOARDMISii1[DOI] 10.1016/S037842900400217ii200411089013533103784290[DOI] 10.1016/S037842900400217ðˆx>.""„ cen_Rainfed lowland riceDrought resistanceLeaf water potentialSpikelet sterilityYieldScreening~en_ascii8Screening for drought resistance in rainfed lowland riceen8Screening for drought resistance in rainfed lowland riceFLA61. Fukai, S.Pantuwan, G.Jongdee, B. Cooper, M.enARRAY(0x8cbbe0)1-2abcaS037842909900051. Fukai, S.Pantuwan, G.Jongdee, B. Cooper, M.7419991164cen_Rainfed lowland riceDrought resistanceLeaf water potentialSpikelet sterilityYieldScreening23108803784290S037842909900051„8Cen?Zea maysSoil temperaturePhenologyCanopy elementGrowthYieldxen_asciiuEffect of soil temperature on phenology, canopy development, biomass and yield of maize in a cool-temperature climateenuEffect of soil temperature on phenology, canopy development, biomass and yield of maize in a cool-temperature climateFLA169*Stone, P.J.Sorensen, I.B.Jamieson, P.D.enARRAY(0x8a8934)2S037842909900033*Stone, P.J.Sorensen, I.B.Jamieson, P.D.17819990963Cen?Zea maysSoil temperaturePhenologyCanopy elementGrowthYield11958903784290S037842909900033„foenkBreedingGenetic improvementGrain numberGrain weightHelianthus annuus L.Oil concentrationYield advancePen_asciiaGenetic improvement of sunflower in Argentina between 1930 and 1995. I. Yield and its componentsenaGenetic improvement of sunflower in Argentina between 1930 and 1995. I. Yield and its componentsFLA157' Pereira, M.L.Sadras, V.O.Trapani, N.enARRAY(0x913b5c)2-3S037842909900015' Pereira, M.L.Sadras, V.O.Trapani, N.1661999062562oenkBreedingGenetic improvementGrain numberGrain weightHelianthus annuus L.Oil concentrationYield advance14853203784290S037842909900015ð¥•£“¢’ëÛl\#„tÓÃvfÏ¿ . ó^Nó ±ós(!þí¶©j_þ¿¨eHùôÕ°QE ÖÐ¯¤yd%øÖ}m8±`PÍµpLïß™ŽcX-&ÒË†zM;ûÇ°mYtbÜÙ®Ô®ÀªiLýøÙÈ‘l Ô Ë ¤ • b U & ÿôÉ´umH5éÔ•†S1 Ø È “ † W F é ˆ t 7 !ÚÆ‰yD<öÞ™ŠW3ÖÆ€uJ8ÿøÕÅ*ÜÑ¦ŸKDÿõÌÀ“ŠR:Ã¶‡ õ‡¥cU037842909.S037842909700093 Kernel number Kernel numberKernel numbervCS03784290960346„YzenvZea Mays L.Leaf longevityOld and new maize hybridsPost-silking periodSoluble carbohydratesN uptakeN mobilisationLen_ascii_Source:sink ratio and leaf senescence in maize: - II. Nitrogen metabolism during grain fillingen_Source:sink ratio and leaf senescence in maize: - II. Nitrogen metabolism during grain fillingFLA255 Rajcan, I. Tollenaar, M.enARRAY(0x825260)3S037842909800143 Rajcan, I. Tollenaar, M.2651999020160zenvZea Mays L.Leaf longevityOld and new maize hybridsPost-silking periodSoluble carbohydratesN uptakeN mobilisation86854403784290S037842909800143…enOryza sativa L.Oryza glaberrima Steud.Weed competitionVigorLeaf area indexSpecific leaf areaMean tip angleExtinction coefficient0en_asciiQRelationships between upland rice canopy characteristics and weed competitivenessenQRelationships between upland rice canopy characteristics and weed competitivenessFLA792Dingkuhn, M. Johnson, D.E.Sow, A.Audebert, A.Y.enARRAY(0x827ecc)1S0378429098001522Dingkuhn, M. Johnson, D.E.Sow, A.Audebert, A.Y.9519990361enOryza sativa L.Oryza glaberrima Steud.Weed competitionVigorLeaf area indexSpecific leaf areaMean tip angleExtinction coefficient13533103784290S037842909800152„[enWGenetic engineeringMolecular markersYeastTransportUptakeIronZincCopperManganeseJen_ascii^Molecular approaches for increasing the micronutrient density in edible portions of food cropsen^Molecular approaches for increasing the micronutrient density in edible portions of food cropsFLA81Schachtman, D.P.Barker, S.J.enARRAY(0x7b43bc)1-2S037842909800134Schachtman, D.P.Barker, S.J.9219990160[enWGenetic engineeringMolecular markersYeastTransportUptakeIronZincCopperManganese03784290S037842909800134…JenFDroughtOsmotic adjustmentCarbohydrate accumulationFree prolinePeas‚en_asciiTurgor maintenance, osmotic adjustment and soluble sugar and proline accumulation in 49 pea cultivars in response to water stressenTurgor maintenance, osmotic adjustment and soluble sugar and proline accumulation in 49 pea cultivars in response to water stressFLA225F Sanchez, F.J.Manzanares, M.de Andres, E.F. Tenorio, J.L. Ayerbe, L.enARRAY(0x72adb8)3S037842909800125F Sanchez, F.J.Manzanares, M.de Andres, E.F. Tenorio, J.L. Ayerbe, L.23519981259JenFDroughtOsmotic adjustmentCarbohydrate accumulationFree prolinePeas03784290S037842909800125…rennIndirect selectionTriticum durumGenotype _ environment interactionSelection indexMorphophysiological trait‚en_asciiYield vs. morphophysiological trait-based criteria for selection of durum wheat in a semi-arid Mediterranean region (northern Syria)enYield vs. morphophysiological trait-based criteria for selection of durum wheat in a semi-arid Mediterranean region (northern Syria)FLA163Annicchiarico, P.Pecetti, L.enARRAY(0x796534)3S037842909800116Annicchiarico, P.Pecetti, L.17319981259rennIndirect selectionTriticum durumGenotype _ environment interactionSelection indexMorphophysiological trait03784290S037842909800116„KmeniLeaf area expansion,Nitrogen,Nitrate,Radiation use efficiency,Specific leaf nitrogen,Specific leaf weightXen_asciieEffect of nitrogen supply on leaf growth, leaf nitrogen economy and photosynthetic capacity in potatoeneEffect of nitrogen supply on leaf growth, leaf nitrogen economy and photosynthetic capacity in potatoFLA63Vos, J.van der Putten, P.E.L.enARRAY(0x741648)1S037842909800107Vos, J.van der Putten, P.E.L.7219981059meniLeaf area expansion,Nitrogen,Nitrate,Radiation use efficiency,Specific leaf nitrogen,Specific leaf weight03784290S037842909800107…NenJSugarcane,Harvest date,Scheduling,Operations research,Crop cycle,Fallowing‚Den_asciiOptimising harvest date in sugar production: a case study for the Mossman mill region in Australia II. Sensitivity to crop age and crop class distributionenOptimising harvest date in sugar production: a case study for the Mossman mill region in Australia II. Sensitivity to crop age and crop class distributionFLA2431Muchow, R.C. Higgins, A.J. Rudd, A.V. Ford, A.W.enARRAY(0x98da18)3S0378429097001351Muchow, R.C. Higgins, A.J. Rudd, A.V. Ford, A.W.25119980657NenJSugarcane,Harvest date,Scheduling,Operations research,Crop cycle,Fallowing03784290S037842909700135ƒ /en+Wheat,Yield,Yield stability,National trendsen_asciiEChanges in yield and yield stability in wheat during the 20th centuryenEChanges in yield and yield stability in wheat during the 20th centuryFLA335Calderini, D.F.Slafer, G.A.enARRAY(0x998ca4)3S037842909800080Calderini, D.F.Slafer, G.A.34719980657/en+Wheat,Yield,Yield stability,National trends03784290S037842909800080„7eenaShort-season cotton,Chlorophyll meter,Nitrogen nutrition diagnosis,Lint yield,Regression analysisfenlChlorophyll meter to predict nitrogen sidedress requirements for short-season cotton (Gossypium hirsutum L.)en_asciilChlorophyll meter to predict nitrogen sidedress requirements for short-season cotton (Gossypium hirsutum L.)FLA309Wu, F.Wu, L.Xu, F.enARRAY(0x62c8b0)3S037842909700108Wu, F.Wu, L.Xu, F.31419980456eenaShort-season cotton,Chlorophyll meter,Nitrogen nutrition diagnosis,Lint yield,Regression analysis03784290S037842909700108„m\enXAPSIM-wheat,Model performance,Crop development,Yield,Soil water,Soil nitrogen,Simulationen9Performance of the APSIM-wheat model in Western Australiaen_ascii9Performance of the APSIM-wheat model in Western AustraliaFLA163k Asseng, S. Keating, B.A.Fillery, I.R.P. Gregory, P.J.Bowden, J.W.Turner, N.C.Palta, J.A. Abrecht, D.G.enARRAY(0x57645c)2S037842909700117k Asseng, S. Keating, B.A.Fillery, I.R.P. Gregory, P.J.Bowden, J.W.Turner, N.C.Palta, J.A. Abrecht, D.G.1791998052957\enXAPSIM-wheat,Model performance,Crop development,Yield,Soil water,Soil nitrogen,Simulation03784290S037842909700117%BenCool-season Forage Grassesen_asciiCool-season Forage GrassesBRV239Owens, V.N.2S037842909700144Owens, V.N.240199805295703784290S037842909700144ƒo2en.Rice production,Asia,Irrigation,Fertilizer useJen^Economics of nutrient management in Asian rice systems: Towards increasing knowledge intensityen_ascii^Economics of nutrient management in Asian rice systems: Towards increasing knowledge intensityFLA1571 Pingali, P.L.Hossain, M. Pandey, S.Price, L.L.enARRAY(0x627624)1-2S0378429097001261 Pingali, P.L.Hossain, M. Pandey, S.Price, L.L.176199803562en.Rice production,Asia,Irrigation,Fertilizer use03784290S037842909700126pen?Tropical Tuber crops: Problems, Prospects and Future Strategiesen_ascii?Tropical Tuber crops: Problems, Prospects and Future StrategiesBRV284Goenaga, R.3S037842909700081Goenaga, R.285199802025503784290S037842909700081„I^enZRice,Single seed descent,Pedigree and modified pedigree methods,Bulk method,Plant breeding@enYQuantitative genetics of rice II. A comparison of the efficiency of four breeding methodsen_asciiYQuantitative genetics of rice II. A comparison of the efficiency of four breeding methodsFLA2577 Fahim, M.Dhanapala, M.P. Senadhira, D.Lawrence, M.J.enARRAY(0x63db50)3S0378429097000907 Fahim, M.Dhanapala, M.P. Senadhira, D.Lawrence, M.J.2661998020255^enZRice,Single seed descent,Pedigree and modified pedigree methods,Bulk method,Plant breeding03784290S037842909700090 ðXH#H8õ\Lúêð<,ëÛ¨˜ ö ædT÷m]ô ®ô©ƒuE6ûµ¬†{QBÐ»}rHA ÕÑµ£kb<5òä£’;,ÙÇ~k ÜÎ9-{k7+ÿî·¦oeüÉÃ¢—lY÷ìÁ«YFäØ«˜]MÇ·‚{G®’E4 ý õ Ð Ã r j E 6 ýÜÎ˜yl=/þó§ŽG9 ñ ® f X ' Ù Å ˆ | O ? ô³¨}oëÉ`Zøè“ŒXCóâq[ØÒ^OÆ¾wñw–T1037842909600015037842909600035S037842909700117Crop developmentCrop developmentCrop deve‚gNen_ascii`The role of roots in controlling soil water extraction during drought: an analysis by simulationen`The role of roots in controlling soil water extraction during drought: an analysis by simulationFLA267Jamieson, P.D. Ewert, F.enARRAY(0x862ba4)3S037842909800144Jamieson, P.D. Ewert, F.280199902016037667703784290S037842909800144…YenUChickpea (Cicer arietinum L.)Cold toleranceGamete developmentPollenOvulesPod set‚en_asciiCold tolerance during early reproductive growth of chickpea (Cicer arietinum L.): genetic variation in gamete development and functionenCold tolerance during early reproductive growth of chickpea (Cicer arietinum L.): genetic variation in gamete development and functionFLA209)Srinivasan, A.Saxena, N.P.Johansen, C.enARRAY(0x83a0d4)3S037842909800126)Srinivasan, A.Saxena, N.P.Johansen, C.2221999020160YenUChickpea (Cicer arietinum L.)Cold toleranceGamete developmentPollenOvulesPod set13187503784290S037842909800126„KYenUZea mays L.PhotosynthesisChlorophyll fluorescencePhotosynthetic electron transport‚en_asciizUsing chlorophyll fluorometry to compare photosynthetic performance of commercial maize (Zea mays L.) hybrids in the fieldenzUsing chlorophyll fluorometry to compare photosynthetic performance of commercial maize (Zea mays L.) hybrids in the fieldFLA201 Earl, H.J. Tollenaar, M.enARRAY(0x7839e8)3S037842909800162 Earl, H.J. Tollenaar, M.21019990561YenUZea mays L.PhotosynthesisChlorophyll fluorescencePhotosynthetic electron transport31315003784290S037842909800162…GenCRiceIrrigationProfitabilityPartial budgetingNitrogen fertilizer‚(en_asciiSoil fertility management in irrigated rice systems in the Sahel and Savanna regions of West Africa Part II. Profitability and risk analysisenSoil fertility management in irrigated rice systems in the Sahel and Savanna regions of West Africa Part II. Profitability and risk analysisFLA1472Donovan, C.Wopereis, M.C.S. Guindo, D. Nebie, B.enARRAY(0x742a80)2S0378429098001532Donovan, C.Wopereis, M.C.S. Guindo, D. Nebie, B.16219990461GenCRiceIrrigationProfitabilityPartial budgetingNitrogen fertilizer8247303784290S037842909800153ƒ 1en-Trace mineralsBioavailabilityMicronutrients&en_asciiLMicronutrient bioavailability techniques: Accuracy, problems and limitationsenLMicronutrient bioavailability techniques: Accuracy, problems and limitationsFLA93Van Campen, D.R.Glahn, R.P.enARRAY(0x7572d4)1-2S037842909800135Van Campen, D.R.Glahn, R.P.113199901601en-Trace mineralsBioavailabilityMicronutrients03784290S037842909800135„1EenAPigeonpeaCajanus cajanGenotype-by-environment interactionYieldden_asciikGenotype-by-environment interaction effect on yield and its physiological bases in short-duration pigeonpeaenkGenotype-by-environment interaction effect on yield and its physiological bases in short-duration pigeonpeaFLA1413 Chauhan, Y.S. Wallace, D.H.Johansen, C. Singh, L.enARRAY(0x6d31c4)2S0378429098001173 Chauhan, Y.S. Wallace, D.H.Johansen, C. Singh, L.15019981159EenAPigeonpeaCajanus cajanGenotype-by-environment interactionYield03784290S037842909800117„?venrGrain crops,Geostatistics,Semivariograms,Self-similarity,Self-affinity,Statistical fractal dimension,Yield advance*en_asciiNFractal analysis of Mexico's annual mean yields of maize, bean, wheat and riceenNFractal analysis of Mexico's annual mean yields of maize, bean, wheat and riceFLA53'Valdez-Cepeda, R.D.Olivares-Saenz, E.enARRAY(0x74a38c)1S037842909800108'Valdez-Cepeda, R.D.Olivares-Saenz, E.6219981059venrGrain crops,Geostatistics,Semivariograms,Self-similarity,Self-affinity,Statistical fractal dimension,Yield advance03784290S0378429098001082den_ascii+Contents of Field Crops Research, Volume 58en+Contents of Field Crops Research, Volume 58OCN2353S037842909880001236199809585880903784290S037842909880001…henIrrigated rice,Sahel,Development rate,Phenological models,Photothermal responses,Photoperiodism,Genotype x environment interactions,Cultivar differencesden_asciikRice crop duration and leaf appearance rate in a variable thermal environment. II. Comparison of genotypesenkRice crop duration and leaf appearance rate in a variable thermal environment. II. Comparison of genotypesFLA1293Sie, M.Dingkuhn, M.Wopereis, M.C.S.Miezan, K.M.enARRAY(0xb6ea48)2S0378429098000903Sie, M.Dingkuhn, M.Wopereis, M.C.S.Miezan, K.M.14019980858enIrrigated rice,Sahel,Development rate,Phenological models,Photothermal responses,Photoperiodism,Genotype x environment interactions,Cultivar differences5880903784290S037842909800090‚PenEGrain yield in wheat: Effects of radiation during spike growth perioden_asciiEGrain yield in wheat: Effects of radiation during spike growth periodERR3177Abbate, P.E. Andrade, F.H.Culot, J.P.Bindraban, P.S.3S0378429098000817Abbate, P.E. Andrade, F.H.Culot, J.P.Bindraban, P.S.3181998045603784290S037842909800081,enSorghum Scienceen_asciiSorghum ScienceBRV240Vanderlip, R.L.2S037842909700145Vanderlip, R.L.240199805295703784290S037842909700145„1]enYHuman nutrition,Millet grain quality,Phosphorus fertilizer,Phytate:zinc molar ratio,Sahel4enSPhosphorus application affects the nutritional quality of millet grain in the Sahelen_asciiSPhosphorus application affects the nutritional quality of millet grain in the SahelFLA2232Buerkert, A. Haake, C.Ruckwied, M. Marschner, H.enARRAY(0x623d04)2S0378429097001362Buerkert, A. Haake, C.Ruckwied, M. Marschner, H.2351998052957]enYHuman nutrition,Millet grain quality,Phosphorus fertilizer,Phytate:zinc molar ratio,Sahel03784290S037842909700136…IwensChickpea (Cicer arietinum L.),Cold tolerance,Pod set,Northern India,Genetic variation,Germplasm screening,Flowering‚*en Cold tolerance during early reproductive growth of chickpea (Cicer arietinum L.): Characterization of stress and genetic variation in pod seten_ascii Cold tolerance during early reproductive growth of chickpea (Cicer arietinum L.): Characterization of stress and genetic variation in pod setFLA181)Srinivasan, A.Johansen, C.Saxena, N.P.enARRAY(0x5a56cc)2S037842909700118)Srinivasan, A.Johansen, C.Saxena, N.P.1931998052957wensChickpea (Cicer arietinum L.),Cold tolerance,Pod set,Northern India,Genetic variation,Germplasm screening,Flowering03784290S037842909700118„#SenONitrogen-removal index,Biological window,Cropping systems,Maize,Sorghum,Soybean4enSLong-term nitrogen use and nitrogen-removal index in continuous crops and rotationsen_asciiSLong-term nitrogen use and nitrogen-removal index in continuous crops and rotationsFLA156Yamoah, C.F.Varvel, G.E. Waltman, W.J. Francis, C.A.enARRAY(0x5aab4c)1S0378429097001096Yamoah, C.F.Varvel, G.E. Waltman, W.J. Francis, C.A.271998050857SenONitrogen-removal index,Biological window,Cropping systems,Maize,Sorghum,Soybean03784290S037842909700109ƒKenGNutrient budget,Nutrient-use efficiency,Rice,Soil organic matter,Sulfurxen5Sulfur and carbon research in rice production systemsen_ascii5Sulfur and carbon research in rice production systemsFLA177 Blair, G. Lefroy, R.enARRAY(0x6276f0)1-2S037842909700127 Blair, G. Lefroy, R.18119980356KenGNutrient budget,Nutrient-use efficiency,Rice,Soil organic matter,Sulfur03784290S037842909700127ñ/ ZJÊºN>ueû&ƒs â ÒiYH8¸¨Ü(šÜ¿“‡[U5ÜÒªŸu] ýÑ¿‡t:-îãˆn%ì×˜…J=üÃº“…TJ!ì¯¤yoF2õè¹³’‰!÷ä©—ÖÎ©¢sF9 ”ŠƒJ8en4PhotoperiodLeaf numberFloweringSeed growthQuinoa*en_asciiNPhotoperiod-sensitive development phases in quinoa (Chenopodium quinoa Willd.)enNPhotoperiod-sensitive development phases in quinoa (Chenopodium quinoa Willd.)FLA231$ Bertero, H.D. King, R.W. Hall, A.J.enARRAY(0x8582f0)3S037842909800128$ Bertero, H.D. King, R.W. Hall, A.J.24319990201608en4PhotoperiodLeaf numberFloweringSeed growthQuinoa19503503784290S037842909800128„~FenBTemperate legumesBiomass productionN fixationRice-based systems‚>en_asciiProductivity and residual effects of legumes in rice-based cropping systems in a warm-temperate environment I. Legume biomass production and N fixationenProductivity and residual effects of legumes in rice-based cropping systems in a warm-temperate environment I. Legume biomass production and N fixationFLA23( Schulz, S.Keatinge, J.D.H.Wells, G.J.enARRAY(0x827c20)1S037842909800146( Schulz, S.Keatinge, J.D.H.Wells, G.J.3519990361FenBTemperate legumesBiomass productionN fixationRice-based systems13533103784290S037842909800146„EenAPeanut,Heritability,Arachis hypogaea,Selection,Groundnut,Breedingten_asciisHeritability of components of a simple physiological model for yield in groundnut under semiarid rainfed conditionsensHeritability of components of a simple physiological model for yield in groundnut under semiarid rainfed conditionsFLA25Ntare, B.R.Williams, J.H.enARRAY(0x69c768)1S037842909800083Ntare, B.R.Williams, J.H.3319980758EenAPeanut,Heritability,Arachis hypogaea,Selection,Groundnut,Breeding03784290S037842909800083„gden`Spring wheat,Stratospheric ozone depletion,UV-B radiation,Crop structure,Growth,Yield components‚en_asciiEffects of enhanced ultraviolet-B radiation on crop structure, growth and yield components of spring wheat under field conditionsenEffects of enhanced ultraviolet-B radiation on crop structure, growth and yield components of spring wheat under field conditionsFLA253Li, Y.Yue, M.Wang, X.enARRAY(0x94ba6c)3S037842909700138Li, Y.Yue, M.Wang, X.26319980657den`Spring wheat,Stratospheric ozone depletion,UV-B radiation,Crop structure,Growth,Yield components03784290S037842909700138ƒ;en7Maize,Ear growth,Kernel number,Intercepted PAR,Zea maysen=Grain yield components in maize I. Ear growth and kernel seten_ascii=Grain yield components in maize I. Ear growth and kernel setFLA247Otegui, M.E.Bonhomme, R.enARRAY(0x5ee57c)3S037842909700093Otegui, M.E.Bonhomme, R.25619980456;en7Maize,Ear growth,Kernel number,Intercepted PAR,Zea mays03784290S037842909700093…aen]Herbivory,Compensation,Lepidoptera,Gossypium hirsutum,Bacillus thuringiensis,Helicoverpa spp.‚Xen$Herbivory tolerance of cotton expressing insecticidal proteins from Bacillus thuringiensis: responses to damage caused by Helicoverpa spp. and to manual bud removalen_ascii$Herbivory tolerance of cotton expressing insecticidal proteins from Bacillus thuringiensis: responses to damage caused by Helicoverpa spp. and to manual bud removalFLA287 Sadras, V.O.enARRAY(0x5eef68)3S037842909880003 Sadras, V.O.29919980456aen]Herbivory,Compensation,Lepidoptera,Gossypium hirsutum,Bacillus thuringiensis,Helicoverpa spp.03784290S037842909880003…SenBiomass production,Daily irrigation and fertilization,Growth dynamics,Light interception,Nitrogen dynamics,Phalaris arundinacea‚enGrowth and nitrogen dynamics of reed canarygrass (Phalaris arundinacea L.) subjected to daily fertilization and irrigation in the fielden_asciiGrowth and nitrogen dynamics of reed canarygrass (Phalaris arundinacea L.) subjected to daily fertilization and irrigation in the fieldFLA153'Katterer, T. Andren, O.Pettersson, R.enARRAY(0x59dbec)1-2S037842909700075'Katterer, T. Andren, O.Pettersson, R.16419980155enBiomass production,Daily irrigation and fertilization,Growth dynamics,Light interception,Nitrogen dynamics,Phalaris arundinacea03784290S037842909700075„Xden`Photoperiod sensitivity,Juvenile period,Panicle initiation,Sorghum [Sorghum bicolor (L.) Moench]\engDurations of the photoperiod-sensitive and -insensitive phases of time to panicle initiation in sorghumen_asciigDurations of the photoperiod-sensitive and -insensitive phases of time to panicle initiation in sorghumFLA1,Alagarswamy, G.Reddy, D.M.Swaminathan, G.enARRAY(0x5d8194)1-2S037842909700039,Alagarswamy, G.Reddy, D.M.Swaminathan, G.1019980155den`Photoperiod sensitivity,Juvenile period,Panicle initiation,Sorghum [Sorghum bicolor (L.) Moench]03784290S037842909700039„&JenFWheat,Isolines,Development,Thermal time,Cardinal temperatures,ModelinglenoEffect of early sowing on development in wheat isolines differing in vernalisation and photoperiod requirementsen_asciioEffect of early sowing on development in wheat isolines differing in vernalisation and photoperiod requirementsFLA91$Gomez-Macpherson, H.Richards, R.A.enARRAY(0x5f6970)2-3S037842909700057$Gomez-Macpherson, H.Richards, R.A.10719970954JenFWheat,Isolines,Development,Thermal time,Cardinal temperatures,Modeling03784290S037842909700057…=en9Brassica,Linseed,Nitrogen,Oilseed,Pathogen,Rotation,Wheat‚.enComparison of canola, Indian mustard and Linola in two contrasting environments. II. Break-crop and nitrogen effects on subsequent wheat cropsen_asciiComparison of canola, Indian mustard and Linola in two contrasting environments. II. Break-crop and nitrogen effects on subsequent wheat cropsFLA179DKirkegaard, J.A. Hocking, P.J.Angus, J.F. Howe, G.N. Gardner, P.A.enARRAY(0x60a468)1-2S037842909601057DKirkegaard, J.A. Hocking, P.J.Angus, J.F. Howe, G.N. Gardner, P.A.19119970552=en9Brassica,Linseed,Nitrogen,Oilseed,Pathogen,Rotation,Wheat03784290S037842909601057„jpenlOryza sativa,Rice,Drainage,Root condition,Redox,Nitrogen,Yield formation,Translocation,Cytokinins,SenescenceenHYield formation in rice in response to drainage and nitrogen applicationen_asciiHYield formation in rice in response to drainage and nitrogen applicationFLA651Ramasamy, S.ten Berge, H.F.M.Purushothaman, S.enARRAY(0x68e880)1-2-Special Issue: Applications of Rice ModellingS0378429096010391Ramasamy, S.ten Berge, H.F.M.Purushothaman, S.8219970351penlOryza sativa,Rice,Drainage,Root condition,Redox,Nitrogen,Yield formation,Translocation,Cytokinins,Senescence03784290S037842909601039‚~EenaEffects of high temperature and CO₂ concentration on spikelet sterility in indica riceen_asciiVEffects of high temperature and CO2 concentration on spikelet sterility in indica riceFLA213. Matsui, T.Namuco, O.S.Ziska, L.H. Horie, T.enARRAY(0x6bdb20)3S037842909603451. Matsui, T.Namuco, O.S.Ziska, L.H. Horie, T.2191997045103784290S037842909603451D^en(The Oat Crop: Production and Utilizationen_ascii(The Oat Crop: Production and UtilizationBRV278 Holland, J.B.2-3037842909688790 Holland, J.B.2791996084703784290037842909688790…@[enWBackcrossing,Bean common mosaic virus,Common bean,Disease resistance,Phaseolus vulgaris‚ben)Developing cultivars of the common bean (Phaseolus vulgaris L.) for southern Africa: bean common mosaic virus resistance, consumer preferences and agronomic requirementsen_ascii)Developing cultivars of the common bean (Phaseolus vulgaris L.) for southern Africa: bean common mosaic virus resistance, consumer preferences and agronomic requirementsFLA165&Mukoko, O.Z.Galwey, N.W.Allen, D.J.enARRAY(0x7d0b44)3037842909400101&Mukoko, O.Z.Galwey, N.W.Allen, D.J.17719950340[enWBackcrossing,Bean common mosaic virus,Common bean,Disease resistance,Phaseolus vulgaris03784290037842909400101"ñC4rc¡‘8(ØÈÁ±° ñá ç× Ë »'o_ÿd(dª‡q0#ô×ˆo(ÎÂ•D"ÉÀ™}0%úñÊÁš‹XB÷Îº}xYP)öìÃ¾Ÿ“fTîÛ ˆC4ìœ‡7#æÄkOõÆ·„j!ñäµ›RFÝ¿na2 ä Ó œ Z Köç£œyl=.ûçª’M' Æ ¥ N ) Ê › ( ÝÉŒPD ÛÄp9)ôä¯Œ1ÑoÑ…7en3YieldPhenologyG*E interactionsDroughtAdaptation‚5en_asciiRainfed lowland rice breeding strategies for Northeast Thailand.. I. Genotypic variation and genotype * environment interactions for grain yieldenRainfed lowland rice breeding strategies for Northeast Thailand.. I. Genotypic variation and genotype × environment interactions for grain yieldFLA131A Cooper, M.Rajatasereekul, S. Immark, S. Fukai, S. Basnayake, J.enARRAY(0x8a7aa8)1-2 abcaaS037842909900056A Cooper, M.Rajatasereekul, S. Immark, S. Fukai, S. Basnayake, J.15119991164en:Genotype,Oryza sativa,N-use efficiency,N-uptake efficiency.en_asciiPGenotypic variation in nitrogen use efficiency in medium- and long-duration riceenPGenotypic variation in nitrogen use efficiency in medium- and long-duration riceFLA35N Singh, U.Ladha, J.K.Castillo, E.G.Punzalan, G.Tirol-Padre, A.Duqueza, M.enARRAY(0x69c0c8)1S037842909800084N Singh, U.Ladha, J.K.Castillo, E.G.Punzalan, G.Tirol-Padre, A.Duqueza, M.5319980758>en:Genotype,Oryza sativa,N-use efficiency,N-uptake efficiency03784290S037842909800084ƒE;en7Maize,Kernel weight,Hybrids,Postsilking growth,Zea mays enIGrain yield components in maize II. Postsilking growth and kernel weighten_asciiIGrain yield components in maize II. Postsilking growth and kernel weightFLA257)Maddonni, G.A.Otegui, M.E.Bonhomme, R.enARRAY(0x5f163c)3S037842909700094)Maddonni, G.A.Otegui, M.E.Bonhomme, R.26419980456;en7Maize,Kernel weight,Hybrids,Postsilking growth,Zea mays03784290S037842909700094-den+Contents of Field Crops Research, Volume 56en_ascii+Contents of Field Crops Research, Volume 56OCN3193S0378429098800043201998045603784290S037842909880004ƒXenTModern cultivars,Nutrient _ water interaction,Nutrient-use efficiency,Rice,Yield gapXeneToward increasing nutrient-use efficiency in rice cropping systems: the next generation of technologyen_asciieToward increasing nutrient-use efficiency in rice cropping systems: the next generation of technologyFLA1 Fischer, K.S.enARRAY(0x627fd4)1-2S037842909700139 Fischer, K.S.619980356XenTModern cultivars,Nutrient _ water interaction,Nutrient-use efficiency,Rice,Yield gap03784290S037842909700139„PenLMaize,Water deficit,Crop water stress index,Hybrids,Soil quality,Zea mays L.6enTCrop water stress index of three maize hybrids grown in soils with different qualityen_asciiTCrop water stress index of three maize hybrids grown in soils with different qualityFLA165(Carcova, J.Maddonni, G.A.Ghersa, C.M.enARRAY(0x620b98)1-2S037842909700076(Carcova, J.Maddonni, G.A.Ghersa, C.M.17419980155PenLMaize,Water deficit,Crop water stress index,Hybrids,Soil quality,Zea mays L.03784290S037842909700076‚N-en)Sugarcane,Salt stress,Juice quality,Yield`en)Soil salinity and sugarcane juice qualityen_ascii)Soil salinity and sugarcane juice qualityFLA259Lingle, S.E. Wiegand, C.L.enARRAY(0x5ffa18)2-3S037842909700058Lingle, S.E. Wiegand, C.L.26819970954-en)Sugarcane,Salt stress,Juice quality,Yield03784290S037842909700058„W]enYCommon beam,Photosynthesis,Relative growth rate,Phaseolus vulgaris,Seed size,Leaf anatomyXeneEarly-season growth in relation to region of domestication, seed size, and leaf traits in common beanen_asciieEarly-season growth in relation to region of domestication, seed size, and leaf traits in common beanFLA694Sexton, P.J.Peterson, C.M.Boote, K.J.White, J.W.enARRAY(0x58d1ac)1-2S0378429096034524Sexton, P.J.Peterson, C.M.Boote, K.J.White, J.W.7819970552]enYCommon beam,Photosynthesis,Relative growth rate,Phaseolus vulgaris,Seed size,Leaf anatomy03784290S037842909603452ƒ\8en4Lodging,Rice,Oryza sativa (L.),Yield,Yield potential8enULodging reduces yield of rice by self-shading and reductions in canopy photosynthesisen_asciiULodging reduces yield of rice by self-shading and reductions in canopy photosynthesisFLA95+Setter, T.L.Laureles, E.V.Mazaredo, A.M.enARRAY(0x5de8d4)2-3S037842909601058+Setter, T.L.Laureles, E.V.Mazaredo, A.M.106199702498en4Lodging,Rice,Oryza sativa (L.),Yield,Yield potential03784290S037842909601058Rnen0Production and Improvement of Crops for Drylandsen_ascii0Production and Improvement of Crops for DrylandsBRV279 Saxena, M.C.2-3037842909688791 Saxena, M.C.2801996084703784290037842909688791ƒ@Aen=Bean,Evaporation,Maize,Transpiration,Transpiration efficiencyen@Transpiration efficiencies of maize and beans in semi-arid Kenyaen_ascii@Transpiration efficiencies of maize and beans in semi-arid KenyaFLA179* Pilbeam, C.J.Simmonds, L.P.Kavilu, A.W.enARRAY(0x623c20)3037842909500011* Pilbeam, C.J.Simmonds, L.P.Kavilu, A.W.18819950641Aen=Bean,Evaporation,Maize,Transpiration,Transpiration efficiency03784290037842909500011ƒ,)en%Leaf appearance,Modelling,TemperatureenAPrediction of leaf appearance in wheat: a question of temperatureen_asciiAPrediction of leaf appearance in wheat: a question of temperatureFLA358Jamieson, P.D.Brooking, I.R.Porter, J.R.Wilson, D.R.enARRAY(0xe066a8)10378429094001028Jamieson, P.D.Brooking, I.R.Porter, J.R.Wilson, D.R.4419950441)en%Leaf appearance,Modelling,Temperature03784290037842909400102ñM>òã´¥K;ˆx—‡ » «° ñ á**¬œ7(õ7À™z2ÛÅ„l'¾³ˆ}RL+ÞÑ¢—lc<0ÿž“hOáÑœ~-¶¡bÄbè»¨md–Š<'èÕš•vgßÐŒ‚c‚en_asciizRainfed lowland rice breeding strategies for northeast Thailand. II. Comparison of intrastation and interstation selectionenzRainfed lowland rice breeding strategies for northeast Thailand. II. Comparison of intrastation and interstation selectionFLA153 M Cooper1-2S037842909900057 M Cooper176199912076403784290S037842909900057‚c‚en_asciizSubmergence tolerance and yield performance of lowland rice as affected by agronomic management practices in eastern IndiaenzSubmergence tolerance and yield performance of lowland rice as affected by agronomic management practices in eastern IndiaFLA187 AR Sharma3S037842909900039 AR Sharma198199911026303784290S037842909900039„lBen>RiceChickpeaFallowN dynamicsN balance15NAlfisolVertisollen_asciioNitrogen dynamics and crop growth on an alfisol and a vertisol under rainfed lowland rice-based cropping systemenoNitrogen dynamics and crop growth on an alfisol and a vertisol under rainfed lowland rice-based cropping systemFLA237D Singh, U.Patil, S.K. Das, R.O. Padilla, J.L.Singh, V.P. Pal, A.R.enARRAY(0x79e338)3S037842909800166D Singh, U.Patil, S.K. Das, R.O. Padilla, J.L.Singh, V.P. Pal, A.R.25219990561MenIRiceChickpeaFallowN dynamicsN balance¹⁵NAlfisolVertisol31315003784290S037842909800166ƒnLenHSorghumArchitectureMorphogenesisDevelopmentPartitioning3D-structure&en_asciiLArchitecture and morphogenesis of grain sorghum, Sorghum bicolor (L.) MoenchenLArchitecture and morphogenesis of grain sorghum, Sorghum bicolor (L.) MoenchFLA51&Kaitaniemi, P. Room, P.M.Hanan, J.S.enARRAY(0x8741e8)1S037842909800148&Kaitaniemi, P. Room, P.M.Hanan, J.S.6019990361LenHSorghumArchitectureMorphogenesisDevelopmentPartitioning3D-structure13533103784290S037842909800148…5venrSorghum bicolor,Leaf elongation rate,Leaf appearance rate,Meristem temperature,Vapor pressure deficit,Thermal time‚ en_asciiElongation rate of sorghum leaves has a common response to meristem temperature in diverse African and European environmental conditionsenElongation rate of sorghum leaves has a common response to meristem temperature in diverse African and European environmental conditionsFLA69'Lafarge, T.de Raissac, M.Tardieu, F.enARRAY(0x780ef0)1S037842909800085'Lafarge, T.de Raissac, M.Tardieu, F.7919980758venrSorghum bicolor,Leaf elongation rate,Leaf appearance rate,Meristem temperature,Vapor pressure deficit,Thermal time03784290S037842909800085-den_ascii+Contents of Field Crops Research, Volume 57en+Contents of Field Crops Research, Volume 57OCN3493S0378429098800053501998065703784290S037842909880005ƒyRenNGenotype-environment interaction,Principal components analysis,Stability,Yield.enPA comparison of univariate and multivariate methods to analyze G _ E interactionen_asciiPA comparison of univariate and multivariate methods to analyze G _ E interactionFLA271% Flores, F.Moreno, M.T.Cubero, J.I.enARRAY(0x5f2080)3S037842909700095% Flores, F.Moreno, M.T.Cubero, J.I.28619980456RenNGenotype-environment interaction,Principal components analysis,Stability,Yield03784290S037842909700095„S7en3Ley farming,Medicago spp.,Soil tillage,Wheat yields‚.enThe influence of soil tillage on the distribution of medic seeds in the soil, regeneration of medics and wheat yields in a medic wheat rotationen_asciiThe influence of soil tillage on the distribution of medic seeds in the soil, regeneration of medics and wheat yields in a medic wheat rotationFLA175,Kotze, T.N.Langenhoven, W.R. Agenbag, G.A.enARRAY(0x622374)1-2S037842909700077,Kotze, T.N.Langenhoven, W.R. Agenbag, G.A.181199801557en3Ley farming,Medicago spp.,Soil tillage,Wheat yields03784290S037842909700077‚eenEGrain yield in wheat: Effects of radiation during spike growth perioden_asciiEGrain yield in wheat: Effects of radiation during spike growth periodFLA2457Abbate, P.E. Andrade, F.H.Culot, J.P.Bindraban, P.S.enARRAY(0x61e0c8)2-3S0378429097000597Abbate, P.E. Andrade, F.H.Culot, J.P.Bindraban, P.S.2571997095403784290S037842909700059ƒ_IenECrop model,Water balance,Yield probability,Climatic risk,SARRA-milletTencEmpirically modelling the interaction between intensification and climatic risk in semiarid regionsen_asciicEmpirically modelling the interaction between intensification and climatic risk in semiarid regionsFLA79 Affholder, F.enARRAY(0x575068)1-2S037842909603453 Affholder, F.9319970552IenECrop model,Water balance,Yield probability,Climatic risk,SARRA-millet03784290S037842909603453…1PenLFaba bean,Determinate,Indeterminate,Water stress,Leaf area,Biomass,Phenology‚6enEffects of different water regimes on field-grown determinate and indeterminate faba bean (Vicia faba L.). I. Canopy growth and biomass productionen_asciiEffects of different water regimes on field-grown determinate and indeterminate faba bean (Vicia faba L.). I. Canopy growth and biomass productionFLA83?De Costa, W.A.J.M. Dennett, M.D.Ratnaweera, U.Nyalemegbe, K.enARRAY(0x5eff80)2-3S037842909601059?De Costa, W.A.J.M. Dennett, M.D.Ratnaweera, U.Nyalemegbe, K.9319970249PenLFaba bean,Determinate,Indeterminate,Water stress,Leaf area,Biomass,Phenology03784290S037842909601059„XeenaSolanum spp.,Radiation interception,Radiation-use efficincy,Moisture stress,Dry matter productionbenjVariation among clonal lines of potato in response to irrigation regimes in an isohyperthermic environmenten_asciijVariation among clonal lines of potato in response to irrigation regimes in an isohyperthermic environmentFLA191'Demagante, A.L.Harris, P.M Zaag, P.V.enARRAY(0x61ca3c)2-3037842909600020'Demagante, A.L.Harris, P.M Zaag, P.V.20019960847eenaSolanum spp.,Radiation interception,Radiation-use efficincy,Moisture stress,Dry matter production03784290037842909600020†-oenkCotton,Gene-transfer methods,Rice,Secondary metabolites,Soybean,Transgenic plants,Transformation techniques‚enElectric discharge particle acceleration (Accell®) technology for the creation of transgenic plants with altered characteristicsen_asciiElectric discharge particle acceleration (Accell(R)) technology for the creation of transgenic plants with altered characteristicsFLA143 Christou, P.enARRAY(0x583c38)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909600002 Christou, P.15119960545oenkCotton,Gene-transfer methods,Rice,Secondary metabolites,Soybean,Transgenic plants,Transformation techniques03784290037842909600002„J]enYCannabis sativa,Fibre hemp,Morphology,Plant density,Self-thinning,Stem quality,Stem yieldDen[Plant density and self-thinning affect yield and quality of fibre hemp (Cannabis sativa L.)en_ascii[Plant density and self-thinning affect yield and quality of fibre hemp (Cannabis sativa L.)FLA1538van der Werf, H.M.G.Wijlhuizen, M.de Schutter, J.A.A.enARRAY(0x6b0490)30378429094001038van der Werf, H.M.G.Wijlhuizen, M.de Schutter, J.A.A.16419950340]enYCannabis sativa,Fibre hemp,Morphology,Plant density,Self-thinning,Stem quality,Stem yield03784290037842909400103ƒ"9en5Oryza,Emergence,Plant population,Management practicesenGEmergence date mediation of rice yield responses to equidistant spacingen_asciiGEmergence date mediation of rice yield responses to equidistant spacingFLA167Counce, P.A.Keisling, T.C.enARRAY(0x630b2c)3037842909500012Counce, P.A.Keisling, T.C.171199506419en5Oryza,Emergence,Plant population,Management practices03784290037842909500012ñˆyJ;Ì¼ÝÍŒ|qàÐ4$ ‡ wSC99ÁšŒ[J ãÒ›ŠSNÿú¨—`KÿÐÀ{n.) þdLù·¤i[*ÖÐ¯–ODòìËÅ¤›tg8+üðÃ¼™ŠF7âÙ²¤sh=1ûÔÊ¡|Éµxf-j_ :L :ÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿÿ„[enWSesamePlant productivityCapsule dehiscenceSeed retentionPlant growth regulatorsIAAZen_asciifThe effect of plant growth regulator treatments on plant productivity and capsule dehiscence in sesameenfThe effect of plant growth regulator treatments on plant productivity and capsule dehiscence in sesameFLA15 Day, JamieenARRAY(0x899994)1S037842909900076 Day, Jamie2420000466[enWSesamePlant productivityCapsule dehiscenceSeed retentionPlant growth regulatorsIAA14233203784290S037842909900076„"WenSOryza sativaRoot systemDroughtSubmergenceGene mappingMarker assisted selection,en_asciiOUse of molecular markers in plant improvement programs for rainfed lowland riceenOUse of molecular markers in plant improvement programs for rainfed lowland riceFLA177+ Mackill, D.J.Nguyen, H.T.Zhang, JingxianenARRAY(0x8ce188)1-2abbS037842909900058+ Mackill, D.J.Nguyen, H.T.Zhang, Jingxian18519991164^enZOryza sativaRoot systemDroughtSubmergenceGene mappingMarker assisted selection23108803784290S037842909900058ƒHen_ascii]Modelling sugarcane production systems I. Development and performance of the sugarcane moduleen]Modelling sugarcane production systems I. Development and performance of the sugarcane moduleFLA2536 Keating, B.A.Robertson, M.J.Muchow, R.C. Huth, N.I.enARRAY(0x74eb8c)3S0378429098001676 Keating, B.A.Robertson, M.J.Muchow, R.C. Huth, N.I.2711999056131315003784290S037842909800167ƒGenCGreen manureGrain legumesFertilizerLong-termShort-termBenefitsen_asciiFEvaluation of green manure technology in tropical lowland rice systemsenFEvaluation of green manure technology in tropical lowland rice systemsFLA61Ali, M.enARRAY(0x871ab4)1S037842909800149Ali, M.7819990361GenCGreen manureGrain legumesFertilizerLong-termShort-termBenefits13533103784290S037842909800149…ieneSilage maize,Nitrogen recovery,Nitrogen surplus,Residual nitrogen,Response model,Slurry,Soil samplingfen_asciilEffects of N application on agronomic and environmental parameters in silage maize production on sandy soilsenlEffects of N application on agronomic and environmental parameters in silage maize production on sandy soilsFLA55>Schroder, J.J.Neeteson, J.J.Withagen, J.C.M.Noij, I.G.A.M.enARRAY(0x6ec344)1S037842909800086>Schroder, J.J.Neeteson, J.J.Withagen, J.C.M.Noij, I.G.A.M.6719980758ieneSilage maize,Nitrogen recovery,Nitrogen surplus,Residual nitrogen,Response model,Slurry,Soil sampling03784290S037842909800086ƒy=en9Avena sativa,Germination,Long-term storage,Seed viability,enOViability of Avena sativa L. seeds after 10 years of storage in base collectionen_asciiOViability of Avena sativa L. seeds after 10 years of storage in base collectionFLA183: Pita, J.M.Perez-Garcia, F.Escudero, A.de la Cuadra, C.enARRAY(0x576bec)1-2S037842909700078: Pita, J.M.Perez-Garcia, F.Escudero, A.de la Cuadra, C.18719980155=en9Avena sativa,Germination,Long-term storage,Seed viability03784290S037842909700078„?_en[Hordeum vulgare,Erysiphe graminis f. sp hordei,Disease tolerance,Selection,Assessment,ELISA@enYThe interaction of fertiliser treatment with tolerance to powdery mildew in spring barleyen_asciiYThe interaction of fertiliser treatment with tolerance to powdery mildew in spring barleyFLA452Newton, A.C.Thomas, W.T.B. 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Phenology, canopy development, radiation absorbtion and biomass partitioningFLA29) Loss, S.P.Siddique, K.H.M.Martin, L.D.enARRAY(0x574af0)1-2S037842909603454) Loss, S.P.Siddique, K.H.M.Martin, L.D.4119970552lenhAdaptation,Biomass partitioning,Canopy development,Mediterranean environment,PAR,Phenology,Vicia faba L.03784290S037842909603454„@EenADurum wheat,Grain-filling,Spike fertility,Earliness,Grain protein‚enRelationships between grain-filling parameters, fertility, earliness and grain protein of durum wheat in a Mediterranean environmenten_asciiRelationships between grain-filling parameters, fertility, earliness and grain protein of durum wheat in a Mediterranean environmentFLA129 Motzo, R. Giunta, F. Deidda, M.enARRAY(0x5851a0)2-3037842909600021 Motzo, R. Giunta, F. 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I: Genetic diversity and crop productivityendPhotosynthesis of wheat in a warm, irrigated environment. I: Genetic diversity and crop productivityFLA37aReynolds, M.P.Delgado B., M.I.%Gutiérrez-Rodríguez, M.Larqué-Saavedra, A.enARRAY(0x8359dc)1abbbS037842909900077LReynolds, M.P.Delgado B., M.I.Gutierrez-Rodriguez, M.Larque-Saavedra, A.5020000466]enXA_n, Net photosynthetic rateg_s, Stomatal conductanceC_i, Intercellular CO₂ concentrationChl a:b, Chlorophyll a:b ratioR, Dark respiration rate14233203784290S037842909900077„ KenGRainfed riceCrop improvementEconomics of breedingBreak-even analysisNen_ascii`Economics of plant breeding: the value of shorter breeding cycles for rice in Northeast Thailanden`Economics of plant breeding: the value of shorter breeding cycles for rice in Northeast ThailandFLA187 Pandey, S.Rajatasereekul, S.enARRAY(0x8d4128)1-2abS037842909900059 Pandey, S.Rajatasereekul, S.19719991164KenGRainfed riceCrop improvementEconomics of breedingBreak-even analysis23108803784290S037842909900059Œ#„/en„*CROPGROCrop modelCalibrationGlycine max L.Soybeana, intercept of the linear regressionb, slope of the linear regressiond, index of agreementDSSAT, Decision support system for agrotechnology transferHI, harvest indexLAI, leaf area indexLAImax, maximum leaf area indexLFmax, maximum leaf photosynthesis ratepd, photothermal dayRMSE, root mean square errorR5, beginning seedR7, physiological maturitySLA, specific leaf areaSR, daily total solar radiationTb, base temperatureTmax, daily maximum temperatureTmin, daily minimum temperatureZen_asciifEvaluation and improvement of CROPGRO-soybean model for a cool environment in Galicia, northwest SpainenfEvaluation and improvement of CROPGRO-soybean model for a cool environment in Galicia, northwest SpainFLA273&Sau, F.Boote, K.J.Ruiz-Nogueira, B.enARRAY(0x782964)3S037842909800168&Sau, F.Boote, K.J.Ruiz-Nogueira, B.29119990561„fen„aCROPGROCrop modelCalibrationGlycine max L.Soybeana, intercept of the linear regressionb, slope of the linear regressiond, index of agreementDSSAT, Decision support system for agrotechnology transferHI, harvest indexLAI, leaf area indexLAI_max, maximum leaf area indexLF_max, maximum leaf photosynthesis ratepd, photothermal dayRMSE, root mean square errorR5, beginning seedR7, physiological maturitySLA, specific leaf areaSR, daily total solar radiationT_b, base temperatureT_max, daily maximum temperatureT_min, daily minimum temperature31315003784290S037842909800168…b}enyLeaf initiation,Leaf appearance,Leaf expansion,Maize,Modeling,Photoperiod,Ontogeny,Tassel initiation,Temperature,Zea mays‚:en_asciiModelling leaf production and crop development in maize (Zea mays L.) after tassel initiation under diverse conditions of temperature and photoperiodenModelling leaf production and crop development in maize (Zea mays L.) after tassel initiation under diverse conditions of temperature and photoperiodFLA81'Birch, C.J. 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Voltas, J.Nakkoul, H.Nachit, M.M.enARRAY(0x595798)3S037842909700079:Araus, J.L. Amaro, T. Voltas, J.Nakkoul, H.Nachit, M.M.2231998020255TenPDurum wheat,Yield,Drought,Chlorophyll fluorescence,Carbon isotope discrimination03784290S037842909700079„{wensAdaptation,Drought,Harvest index,Mediterranean environment,Seed yield,Time of sowing,Vicia faba L.,Yield componentsxenuAdaptation of faba bean (Vicia faba L.) to dryland Mediterranean-type environments I. Seed yield and yield componentsen_asciiuAdaptation of faba bean (Vicia faba L.) to dryland Mediterranean-type environments I. Seed yield and yield componentsFLA17 Loss, S.P.Siddique, K.H.M.enARRAY(0x60a5ac)1-2S037842909603455 Loss, S.P.Siddique, K.H.M.2819970552wensAdaptation,Drought,Harvest index,Mediterranean environment,Seed yield,Time of sowing,Vicia faba L.,Yield components03784290S037842909603455_zen6Plant Biotechnology: Commercial Prospects and Problemsen_ascii6Plant Biotechnology: Commercial Prospects and ProblemsBRV77Hannapel, D.J.1S037842909781160Hannapel, D.J.771996114903784290S037842909781160ƒpBen>Sugarcane,Nitrogen,Sucrose,Yield accumulation,N-use efficiency"enJEffect of nitrogen on the time-course of sucrose accumulation in sugarcaneen_asciiJEffect of nitrogen on the time-course of sucrose accumulation in sugarcaneFLA1436Muchow, R.C.Robertson, M.J. Wood, A.W. Keating, B.A.enARRAY(0x5f0af0)2-30378429096000226Muchow, R.C.Robertson, M.J. Wood, A.W. Keating, B.A.15319960847Ben>Sugarcane,Nitrogen,Sucrose,Yield accumulation,N-use efficiency03784290037842909600022„p+en'Drought,Harvest index,Oryza sativa,RicedenkGrowth and grain yield of contrasting rice cultivars grown under different conditions of water availabilityen_asciikGrowth and grain yield of contrasting rice cultivars grown under different conditions of water availabilityFLA139lJearakongman, S.Rajatasereekul, S.Naklang, K. Romyen, P. Fukai, S.Skulkhu, E.Jumpaket, B. Nathabutr, K.enARRAY(0x72eb50)2-3037842909500050lJearakongman, S.Rajatasereekul, S.Naklang, K. Romyen, P. Fukai, S.Skulkhu, E.Jumpaket, B. Nathabutr, K.15019951244+en'Drought,Harvest index,Oryza sativa,Rice03784290037842909500050‚|enPhenology,Photoperiod,Wheaten?The influence of daylength on final leaf number in spring wheaten_ascii?The influence of daylength on final leaf number in spring wheatFLA155+Brooking, I.R.Jamieson, P.D.Porter, J.R.enARRAY(0x5e0ce0)3037842909500014+Brooking, I.R.Jamieson, P.D.Porter, J.R.16519950641enPhenology,Photoperiod,Wheat03784290037842909500014„8en4Breeding strategy,Stress tolerance,Triticum aestivum‚ en~Carbon isotope discrimination and grain yield for three bread wheat germplasm groups grown at different levels of water stressen_ascii~Carbon isotope discrimination and grain yield for three bread wheat germplasm groups grown at different levels of water stressFLA45%Sayre, K.D.Acevedo, E.Austin, R.B.enARRAY(0xe07050)1037842909400105%Sayre, K.D.Acevedo, E.Austin, R.B.54199504418en4Breeding strategy,Stress tolerance,Triticum aestivum03784290037842909400105ñóäþï9*$PAG8ÒÂªš5% ¢ ’A1ÙÉ ‚ÖûÝ»cRçßº¬{r*–‡T7èÒ‘€I@º¥fW$è× ŒO9òã° ò·„{C+´¥re%¹PD÷ñÐÃƒvG8ù¬Ÿpaýêž˜woQD · ± ‚ Q F ñÝ ‹LH+òª ø º ® O 5 O„lVenRSustainabilityOrganicConventionalLegume cover cropsMaizeTomatoWaterNitrogen|en_asciiwCrop yields over the first nine years of LTRAS, a long-term comparison of field crop systems in a Mediterranean climateenwCrop yields over the first nine years of LTRAS, a long-term comparison of field crop systems in a Mediterranean climateFLA267) Denison, R.F.Bryant, D.C. Kearney, T.E.enARRAY(0x75851c)2-3[DOI] 10.1016/j.fcr.2003.08.01) Denison, R.F.Bryant, D.C. Kearney, T.E.2772003031086VenRSustainabilityOrganicConventionalLegume cover cropsMaizeTomatoWaterNitrogen03784290[DOI] 10.1016/j.fcr.2003.08.01†'enAn, Net photosynthetic rategs, Stomatal conductanceCi, Intercellular CO2 concentration[Chl], Chlorophyll concentration estimateden_asciikPhotosynthesis of wheat in a warm, irrigated environment. II. Traits associated with genetic gains in yieldenkPhotosynthesis of wheat in a warm, irrigated environment. II. Traits associated with genetic gains in yieldFLA51P%Gutiérrez-Rodríguez, M.Reynolds, M.P.Larqué-Saavedra, A.enARRAY(0x840bbc)1abaS037842909900078;Gutierrez-Rodriguez, M.Reynolds, M.P.Larque-Saavedra, A.6220000466HenCA_n, Net photosynthetic rateg_s, Stomatal conductanceC_i, Intercellular CO₂ concentration[Chl], Chlorophyll concentration estimate14233203784290S037842909900078„V_en[NitrogenMoist savannaRoot length densityRoot mass densitySpecific root lengthPlinthite8en_asciiUGrowth and distribution of maize roots under nitrogen fertilization in plinthite soilenUGrowth and distribution of maize roots under nitrogen fertilization in plinthite soilFLA1=Oikeh, S.O.Kling, J.G.Horst, W.J.Chude, V.O.Carsky, R.J.enARRAY(0x47a994)1S037842909800169=Oikeh, S.O.Kling, J.G.Horst, W.J.Chude, V.O.Carsky, R.J.131999060162_en[NitrogenMoist savannaRoot length densityRoot mass densitySpecific root lengthPlinthite2806403784290S037842909800169„OwensAsh content,Barley,Canopy temperature,Carbon isotope discrimination,Grain yield,Salt tolerance,Stomatal conductanceDen_ascii[Validity of various physiological traits as screening criteria for salt tolerance in barleyen[Validity of various physiological traits as screening criteria for salt tolerance in barleyFLA97Isla, R.Aragues, R.Royo, A.enARRAY(0xb8fa3c)2S037842909800088Isla, R.Aragues, R.Royo, A.10719980858wensAsh content,Barley,Canopy temperature,Carbon isotope discrimination,Grain yield,Salt tolerance,Stomatal conductance5880903784290S037842909800088$enBook reviewen_asciiBook reviewBRV315 Smith, O.3S037842909700098 Smith, O.3161998045603784290S037842909700098„cCen?Rice (Oryza sativa),Flowering,Temperature,Photoperiod,ModellingPenaA model for photothermal responses of flowering in rice I. Model description and parameterizationen_asciiaA model for photothermal responses of flowering in rice I. Model description and parameterizationFLA189X Xinyou, Y.Kropff, M.J. Horie, T.Nakagawa, H.Centeno, H.G.S. Defeng, Z. Goudriaan, J.enARRAY(0x6eaec0)3S037842909603456X Xinyou, Y.Kropff, M.J. Horie, T.Nakagawa, H.Centeno, H.G.S. Defeng, Z. Goudriaan, J.20019970451Cen?Rice (Oryza sativa),Flowering,Temperature,Photoperiod,Modelling03784290S037842909603456‚4enSThe Last Harvest: The Genetic Gamble that Threatens to Destroy American Agricultureen_asciiSThe Last Harvest: The Genetic Gamble that Threatens to Destroy American AgricultureBRV77 Simmonds, N.1S037842909781161 Simmonds, N.781996114903784290S037842909781161„dXenTSugarcane,Solar radiation,Biomass accumulation,Partitioning,Radiation-use efficiency‚ en~Growth of sugarcane under high input conditions in tropical Australia. I. Radiation use, biomass accumulation and partitioningen_ascii~Growth of sugarcane under high input conditions in tropical Australia. I. Radiation use, biomass accumulation and partitioningFLA11(Robertson, M.J. Wood, A.W.Muchow, R.C.enARRAY(0x5cd068)1037842909600041(Robertson, M.J. Wood, A.W.Muchow, R.C.2519960948XenTSugarcane,Solar radiation,Biomass accumulation,Partitioning,Radiation-use efficiency03784290037842909600041ƒxJenFSpikelet initiation,Floret initiation,Tiller,Triticale,Wheat,ModellingrenrSpikelet and floret initiation on tillers of winter triticale and winter wheat in different years and sowing datesen_asciirSpikelet and floret initiation on tillers of winter triticale and winter wheat in different years and sowing datesFLA155 Ewert, F.enARRAY(0x5f2678)2-3037842909600023 Ewert, F.16619960847JenFSpikelet initiation,Floret initiation,Tiller,Triticale,Wheat,Modelling03784290037842909600023ƒCzen6Multidisciplinary assessment of transgenic crop plantsen_ascii6Multidisciplinary assessment of transgenic crop plantsFLA1!Hokkanen, H.M.T.Tsaftaris, S.A.1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909600005!Hokkanen, H.M.T.Tsaftaris, S.A.41996054503784290037842909600005„:en6Fertilizer,Glucosinolate,Nitrogen,Oilseed rape,Sulphur~enxRate of nitrogen and sulphur fertilizers on yield, yield components and seed quality of oilseed rape (Brassica napus L.)en_asciixRate of nitrogen and sulphur fertilizers on yield, yield components and seed quality of oilseed rape (Brassica napus L.)FLA41 Asare, E.Scarisbrick, D.H.enARRAY(0x648cb0)1037842909500051 Asare, E.Scarisbrick, D.H.4619951144:en6Fertilizer,Glucosinolate,Nitrogen,Oilseed rape,Sulphur03784290037842909500051ƒ4IenEBroad-leaf crops,Nitrogen,Rotations,Soil conditions,Sowing date,Wheat.enPEffects of broad-leaf crops and their sowing time on subsequent wheat productionen_asciiPEffects of broad-leaf crops and their sowing time on subsequent wheat productionFLA19 Heenan, D.P.enARRAY(0x95a248)1037842909500033 Heenan, D.P.2919950943IenEBroad-leaf crops,Nitrogen,Rotations,Soil conditions,Sowing date,Wheat03784290037842909500033ƒdNenJBreeding,Drought,Susceptibility index,Triticum aestivum,Water stress,WheatenEVariation in drought susceptibility among closely related wheat linesen_asciiEVariation in drought susceptibility among closely related wheat linesFLA147*Lazar, M.D.Salisbury, C.D. Worrall, W.D.enARRAY(0x5c491c)3037842909500015*Lazar, M.D.Salisbury, C.D. Worrall, W.D.15319950641NenJBreeding,Drought,Susceptibility index,Triticum aestivum,Water stress,Wheat03784290037842909500015ƒ|/en+Flowering,Photoperiod,Pigeonpea,TemperaturexenuFlowering of pigeonpea (Cajanus cajan) in Kenya: Responses of early-maturing genotypes to location and date of sowingen_asciiuFlowering of pigeonpea (Cajanus cajan) in Kenya: Responses of early-maturing genotypes to location and date of sowingFLA25&Omanga, P.A.Summerfield, R.J.Qi, A.enARRAY(0xe073c8)1037842909400106&Omanga, P.A.Summerfield, R.J.Qi, A.3419950441/en+Flowering,Photoperiod,Pigeonpea,Temperature03784290037842909400106ñ.Éº¬Ê»úëßÐìÜ à Ð½ {kºªÏ±´r´œt^ä×—jU®™ZHÖÄj`7'òã°£tOð×y6Ä°spD/ðâ±©„yNEîæÁ¹”Ž+ÔµbU&ÞÓ¨župQCÌ·xe*ÍÉ¬šaOÆº}qD; Æ ¼ “ ‡ Z K ÔÇxl.%íæ¢”SD ú · ® Ý Ï Z V ÒºB0£–$ÅºD/ßÏxkÚÕà nà ‹„$„037842909500043037842909500044037842909400092037842909500048037842909500049037842909400ƒsƒeS037842909800150S037842909800163S037842909800164037842909500011037842909500037037842909500044037842909400093037842909500048037842909600007037842909600031S037842909700017S037842909700062S037842909700063S037842909700071S037842909700076S037842909700092S037842909700093S037842909700094S037842909900034S037842909800087037842909400107S037842909601028S037842909700109S037842909700119S037842909601062S037842909601066S037842909700132S03784290980ƒ{9en5NIRSFecalCalibrationProteinDigestibilityMineralsXen_asciieDirect and indirect means of predicting forage quality through near infrared reflectance spectroscopyeneDirect and indirect means of predicting forage quality through near infrared reflectance spectroscopyFLA45 Stuth, J.Jama, A.Tolleson, D.enARRAY(0x734344)1-2[DOI] 10.1016/S037842900300140 Stuth, J.Jama, A.Tolleson, D.56 200310/11849en5NIRSFecalCalibrationProteinDigestibilityMinerals03784290[DOI] 10.1016/S037842900300140ƒYOenKLeaf starch accumulationPhloem-isolated nodesSoybeanDefoliationGirdling en_asciiILeaf starch accumulation and seed set at phloem-isolated nodes in soybeanenILeaf starch accumulation and seed set at phloem-isolated nodes in soybeanFLA113Bruening, W.P. Egli, D.B.enARRAY(0x8f65e8)2S037842900000110Bruening, W.P. Egli, D.B.1202000101068OenKLeaf starch accumulationPhloem-isolated nodesSoybeanDefoliationGirdling14233203784290S037842900000110/&en_asciiIntroductionenIntroductionEDI91 Graham, Peter Vance, Carrol2-3S037842909900079 Graham, Peter Vance, Carrol912000036512218303784290S037842909900079„ \enXAtmospheric CO2 concentration,Crop yield,Hay,Oryza,Rice,Triticum,Wheat,Yield improvementaen_asciidPerspective on the relative insignificance of increasing atmospheric CO2 concentration to crop yieldenoPerspective on the relative insignificance of increasing atmospheric CO₂ concentration to crop yieldFLA109 Amthor, J.S.enARRAY(0xb6e708)2S037842909800089 Amthor, J.S.12719980858gencAtmospheric CO₂ concentration,Crop yield,Hay,Oryza,Rice,Triticum,Wheat,Yield improvement5880903784290S037842909800089~enDBeyond Silent Spring: Integrated Pest Management and Chemical Safetyen_asciiDBeyond Silent Spring: Integrated Pest Management and Chemical SafetyBRV127 Johnson, M.W.1S037842909700099 Johnson, M.W.128199805085703784290S037842909700099„JenFRice (Oryza sativa),Flowering,Temperature,Photoperiod,Model comparison&enLA model for photothermal responses of flowering in rice II. Model evaluationen_asciiLA model for photothermal responses of flowering in rice II. Model evaluationFLA201= Xinyou, Y.Kropff, M.J.Nakagawa, H. Horie, T. Goudriaan, J.enARRAY(0x6ccd1c)3S037842909603457= Xinyou, Y.Kropff, M.J.Nakagawa, H. Horie, T. Goudriaan, J.21119970451JenFRice (Oryza sativa),Flowering,Temperature,Photoperiod,Model comparison03784290S037842909603457zenDEco-Regional Approaches for Sustainable Land Use and Food Productionen_asciiDEco-Regional Approaches for Sustainable Land Use and Food ProductionBRV78 Cassman, K.G.1S037842909781162 Cassman, K.G.791996114903784290S037842909781162„ ?en;Sugarcane,Sucrose accumulation,Harvest index,Cane yield,CCSxenuGrowth of sugarcane under high input conditions in tropical Australia. II. Sucrose accumulation and commercial yielden_asciiuGrowth of sugarcane under high input conditions in tropical Australia. II. Sucrose accumulation and commercial yieldFLA27(Muchow, R.C.Robertson, M.J. Wood, A.W.enARRAY(0x6143e0)1037842909600042(Muchow, R.C.Robertson, M.J. Wood, A.W.3619960948?en;Sugarcane,Sucrose accumulation,Harvest index,Cane yield,CCS03784290037842909600042ƒ1,en(Foliar applied methanol,C3 growth,Cotton@enYFoliar-applied methanol effects on cotton (Gossypium hirsutum L.) gas exchange and growthen_asciiYFoliar-applied methanol effects on cotton (Gossypium hirsutum L.) gas exchange and growthFLA227Faver, K.L.Gerik, T.J.enARRAY(0x5e3248)2-3037842909600024Faver, K.L.Gerik, T.J.234199608477en3Foliar applied methanol,C₃ growth,Cotton03784290037842909600024„ NenJField pea,Long-term trial,Maize grain,Manure,Nitrogen,Phosphorus,Potassiumenen:EnsetFermentationKochoLeaf pruningStapleTransplanting‚,en_asciiInfluence of repetitive transplanting and leaf pruning on dry matter and food production of enset (Ensete ventricosum Welw. (Cheesman))enInfluence of repetitive transplanting and leaf pruning on dry matter and food production of enset (Ensete ventricosum Welw. (Cheesman))FLA61Tsegaye, AdmasuStruik, P.C.enARRAY(0x828630)1abS037842900000111Tsegaye, AdmasuStruik, P.C.742000092968>en:EnsetFermentationKochoLeaf pruningStapleTransplanting03784290S037842900000111…]enRadiation-conversion efficiency,Non-structural carbohydrates,Nitrogen uptake,Grain-filling percentage,Yield components,Phenological developmentFen\Physiological characteristics of high-yielding rice inferred from cross-location experimentsen_ascii\Physiological characteristics of high-yielding rice inferred from cross-location experimentsFLA55H Horie, T.Ohnishi, M.Angus, J.F.Lewin, L.G.Tsukaguchi, T. Matano, T.enARRAY(0x61d91c)1-2S037842909603458H Horie, T.Ohnishi, M.Angus, J.F.Lewin, L.G.Tsukaguchi, T. Matano, T.6719970552enRadiation-conversion efficiency,Non-structural carbohydrates,Nitrogen uptake,Grain-filling percentage,Yield components,Phenological development03784290S037842909603458„,LenHBrassica napus L.,Rapeseed,Waterlogging,Yield components,Nutrient uptakedenkNote on the effects of winter and spring waterlogging on growth, chemical composition and yield of rapeseeden_asciikNote on the effects of winter and spring waterlogging on growth, chemical composition and yield of rapeseedFLA175)Boem, F.H.G.Lavado, R.S.Porcelli, C.A.enARRAY(0x5d942c)2-3037842909600025)Boem, F.H.G.Lavado, R.S.Porcelli, C.A.17919960847LenHBrassica napus L.,Rapeseed,Waterlogging,Yield components,Nutrient uptake03784290037842909600025ƒ\'en#Maize,Yield,China,Yield improvement$enKA review of advances in maize production in Jilin Province during 1974-1993en_asciiKA review of advances in maize production in Jilin Province during 1974-1993FLA65HChun-Gui, Q. Yu-Jie, W. Hai-Ao, G.Xue-Jun, C. Jia-Yu, L. Shu-Qiang, L.enARRAY(0x7aefbc)1037842909600007HChun-Gui, Q. Yu-Jie, W. Hai-Ao, G.Xue-Jun, C. Jia-Yu, L. Shu-Qiang, L.7519960747'en#Maize,Yield,China,Yield improvement03784290037842909600007„mQenMPlant breeding,Field trials,Review,Risk assessment,Scale-up,Transgenic plantsenDOECD's biosafety work on _large-scale_ releases of transgenic plantsen_asciiDOECD's biosafety work on _large-scale_ releases of transgenic plantsFLA187 Sumida, S.enARRAY(0x5cb26c)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500071 Sumida, S.19419960545QenMPlant breeding,Field trials,Review,Risk assessment,Scale-up,Transgenic plants03784290037842909500071†>enBiosafety,Matrix-associated region (MAR),Position effect,Regulation,Risk assessment,Strategy,Variability of transgene expressionLen_From transgene expression to public acceptance of transgenic plants: a matter of predictabilityen_ascii_From transgene expression to public acceptance of transgenic plants: a matter of predictabilityFLA5%Nap, J. Mlynarova, L.Stiekema, W.J.enARRAY(0x5cc044)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500053%Nap, J. Mlynarova, L.Stiekema, W.J.1019960545enBiosafety,Matrix-associated region (MAR),Position effect,Regulation,Risk assessment,Strategy,Variability of transgene expression03784290037842909500053ƒ}meniMillet,Modelling,Pennisetum glaucum,Root distribution,Stomatal conductance,Transpiration,Water extractionzen6Water uptake by pearl millet in a semiarid environmenten_ascii6Water uptake by pearl millet in a semiarid environmentFLA67'McIntyre, B.D. Riha, S.J.Flower, D.J.enARRAY(0x8b32b4)2-3037842909500035'McIntyre, B.D. Riha, S.J.Flower, D.J.7619951043meniMillet,Modelling,Pennisetum glaucum,Root distribution,Stomatal conductance,Transpiration,Water extraction03784290037842909500035…`en\Cannabis sativa,Fertilizer,Fibre hemp,Management practices,Morphology,Nitrogen,Self-thinninghenmNitrogen fertilization and row width affect self-thinning and productivity of fibre hemp (Cannabis sativa L.)en_asciimNitrogen fertilization and row width affect self-thinning and productivity of fibre hemp (Cannabis sativa L.)FLA27Gvan der Werf, H.M.G.van Geel, W.C.A.van Gils, L.J.C.Haverkort, A.J.enARRAY(0xb66ec0)1037842909500017Gvan der Werf, H.M.G.van Geel, W.C.A.van Gils, L.J.C.Haverkort, A.J.3719950742`en\Cannabis sativa,Fertilizer,Fibre hemp,Management practices,Morphology,Nitrogen,Self-thinning03784290037842909500017ñ œ…v ‘òãF7=.eU ú ù é†vö f {+íä¾°€q?6ðçÁ¶Œ}ö¸ƒ|ZHðÞ¦wp-ÞÍvd½¯ ÖÊžVLòã°ª‰~S@ÿÞÓ¨’@-òìË¿’D4ÿë®žib.•y,äÜ·ªYQ,êäÃµ„`S$ å Ú Ž u . ïØ•„M?ûÀ¬oc6& ñ æ » « V A ñ àoYÖÇ>7òê’…5'€j Ã·ãÝ4%ž˜%ÌJÌ‡R6037842909400092037842909400093S037842909800141037842909600039G"S037842909900047S037842909600040Yield variabilityYield variabilityYield variabilityrc037842909500038037842909600002037842909600024S037842909700086S037842909900004S037842909700111CottonCottonCotton„T^enZRice (Oryza sativa L.)Developmental geneticsTransparencyChalkiness areaGenetic effectsben_asciijGenetic analysis of transparency and chalkiness area at different filling stages of rice (Oryza sativa L.)enjGenetic analysis of transparency and chalkiness area at different filling stages of rice (Oryza sativa L.)FLA1, Shi, C.H.Wu, J.G. Lou, X.B.Zhu, J.Wu, P.enARRAY(0xa89050)1S037842900200011, Shi, C.H.Wu, J.G. Lou, X.B.Zhu, J.Wu, P.920020676^enZRice (Oryza sativa L.)Developmental geneticsTransparencyChalkiness areaGenetic effects03784290S037842900200011„nVenRRadiation-use efficiencyLeaf area indexSpecific leaf areaSpecific leaf nitrogen‚*en_ascii Radiation-use efficiency in flue-cured tobacco (Nicotiana tabacum L.): response to nitrogen supply, climatic variability and sink limitationsen Radiation-use efficiency in flue-cured tobacco (Nicotiana tabacum L.): response to nitrogen supply, climatic variability and sink limitationsFLA117 Ceotto, E.Castelli, F.enARRAY(0x7a7844)2-3S037842900100201 Ceotto, E.Castelli, F.1302002031574VenRRadiation-use efficiencyLeaf area indexSpecific leaf areaSpecific leaf nitrogen8937303784290S037842900100201„aGenCRoot length densitySoil waterConservation tillageBarleySemiarid|en_asciiwRoot growth, soil water content and yield of barley under different tillage systems on two soils in semiarid conditionsenwRoot growth, soil water content and yield of barley under different tillage systems on two soils in semiarid conditionsFLA27DLampurlanés, J.Angás, P.Cantero-Martínez, C.enARRAY(0x794a60)1S037842900000130/Lampurlanes, J. Angas, P.Cantero-Martinez, C.4020010169GenCRoot length densitySoil waterConservation tillageBarleySemiarid69808303784290S037842900000130ƒUenQSucrose yieldAPSIM sugarcane modelQCANE sugarcane modelCANEGRO sugarcane modelLen_ascii_A review of three sugarcane simulation models with respect to their prediction of sucrose yielden_A review of three sugarcane simulation models with respect to their prediction of sucrose yieldFLA97O'Leary, Garry J.enARRAY(0x85f11c)2S037842900000112O'Leary, Garry J.1112000101068UenQSucrose yieldAPSIM sugarcane modelQCANE sugarcane modelCANEGRO sugarcane model14233203784290S037842900000112„IHenDWheat,Yield model,N response model,N balance-sheet,Triticum aestivumpenqModeling grain yield and grain yield response to nitrogen in spring wheat crops in the Argentinean Southern Pampaen_asciiqModeling grain yield and grain yield response to nitrogen in spring wheat crops in the Argentinean Southern PampaFLA2416Gonzalez Montaner, J.H.Maddonni, G.A.DiNapoli, M.R.enARRAY(0x6a1f2c)3S0378429096034596Gonzalez Montaner, J.H.Maddonni, G.A.DiNapoli, M.R.25219970451HenDWheat,Yield model,N response model,N balance-sheet,Triticum aestivum03784290S037842909603459…GEenACanola,Secondary metabolites,Water potential,Water release curves‚enSeed glucosinolate, oil and protein contents of field-grown rape (Brassica napus L.) affected by soil drying and evaporative demanden_asciiSeed glucosinolate, oil and protein contents of field-grown rape (Brassica napus L.) affected by soil drying and evaporative demandFLA93eJensen, C.R.Mogensen, V.O. Mortensen, G.Fieldsend, J.K.Milford, G.F.J.Andersen, M.N.Thage, J.H.enARRAY(0x5d9588)2-3037842909600026eJensen, C.R.Mogensen, V.O. Mortensen, G.Fieldsend, J.K.Milford, G.F.J.Andersen, M.N.Thage, J.H.10519960847EenACanola,Secondary metabolites,Water potential,Water release curves03784290037842909600026ƒxcen_Cereal cyst nematode,Wheat,Fallow,Transpiration,Root growth,Triticum aestivum,Heterodera avenae(enMCereal cyst nematode effects on wheat water use, and on root and shoot growthen_asciiMCereal cyst nematode effects on wheat water use, and on root and shoot growthFLA13Amir, J.Sinclair, T.R.enARRAY(0x7d4ed8)1037842909600008Amir, J.Sinclair, T.R.1919960747cen_Cereal cyst nematode,Wheat,Fallow,Transpiration,Root growth,Triticum aestivum,Heterodera avenae03784290037842909600008…HenDBrassica,Development,Phenology,Photoperiod,Temperature,Vernalization‚FenPhenological development of Brassica campestris, B. juncea, B. napus and B. carinata grown in controlled environments and from 14 sowing dates in the fielden_asciiPhenological development of Brassica campestris, B. juncea, B. napus and B. carinata grown in controlled environments and from 14 sowing dates in the fieldFLA934 Nanda, R.Bhargava, S.C. Tomar, D.P.S.Rawson, H.M.enARRAY(0x6d008c)1-30378429095000904 Nanda, R.Bhargava, S.C. Tomar, D.P.S.Rawson, H.M.10319960646HenDBrassica,Development,Phenology,Photoperiod,Temperature,Vernalization03784290037842909500090…`en\Bioassay,Fitness,Standard procedures,Transgenic crops,Weed control,Weediness characteristicsen;Growth behavior and competitive ability of transgenic cropsen_ascii;Growth behavior and competitive ability of transgenic cropsFLA11Fredshavn, J.R. Poulsen, G.S.enARRAY(0x59dd34)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500054Fredshavn, J.R. Poulsen, G.S.1819960545`en\Bioassay,Fitness,Standard procedures,Transgenic crops,Weed control,Weediness characteristics03784290037842909500054ƒT8öã—Ž¸®·ò©›jWìÞœeTÉ¹toP= í ® ¨ ‡ ` S $ èÜ¯¨…v2#ÎÀƒVM& ó Þ Ÿ ‹ N < ø Í À ‘ ƒ 0 ÜÈ‹‚:*ÓÎ¯š[RíÊ+ãØœZE¨d‚0‚Sƒ3ƒ!S037842909800151S037842909900042S037842909900050S037842909900056S037842909900057S037842909900058S037842909900060S037842909603455037842909500013037842909500015037842909500042037842909500046037842909500050037842909500084037842909500086037842909500087S037842909600045S037842909601033S037842909700040S037842909601067S037842909700079S037842909700086S037842909800125S037842909900002S037842909900003DroughtDroughtDroughtS037842909900048S037842909900056S037842909900060S037842909603454S037842909603455S037842909601006037842909500087S037842909700042 Adaptation AdaptationAdaptationu]S037842909900010S037842909900013S0378429099000>S037842900000065Irrigation managementIrrigation managementIrrigation management2S037842900000063Pink stem borerPink stem borerPink stem borer;"S037842909900082S037842909900009InoculationInoculationInoculation6S037842909900080Plant improvementPlant improvementPlant improvementTS037842909601012S037842909900065S037842909601032037842909400109S037842909800117#Genotype-by-environment interaction#Genotype-by-environment interactionGenotype-by-environment interaction‚c‚M037842909600013037842909600015S037842909900033S037842909800170037842909600039037842909500086S037842909601013S037842909900050S037842909900056037842909500090S037842909900073S037842909603454S037842909601043S037842909601059S037842909700122S037842909700047S037842909700072S037842909700073037842909500014037842909400080 Phenology PhenologyPhenology>S037842909900059Economics of breedingEconomics of breedingEconomics of breedingS037842909900029Vigna:en_asciiINSTRUCTION TO AUTHORSenINSTRUCTION TO AUTHORSPUB851[DOI] 10.1016/S03784290040011588200406108849470703784290[DOI] 10.1016/S037842900400115}2en_asciiCONTENTS OF VOLUMEenCONTENTS OF VOLUMEMIS2172-3S0378429002001112182002097703784290S037842900200111men_ascii?Improving tolerance to abiotic stresses in rainfed lowland riceen?Improving tolerance to abiotic stresses in rainfed lowland riceEDI89 Wade, L.J.2-3S037842900200030 Wade, L.J.902002077603784290S037842900200030†MsenoOryza sativaRoot growthDrought resistanceGenotypexenvironment interactionWater extractionQTLSoil moisture‚6en_asciiUpland rice grown in soil-filled chambers and exposed to contrasting water-deficit regimes - I. Root distribution, water use and plant water statusenUpland rice grown in soil-filled chambers and exposed to contrasting water-deficit regimes - I. Root distribution, water use and plant water statusFLA11gPrice, A.H.Steele, K.A. Gorham, J. Bridges, J.M.Moore, B.J.Evans, J.L.Richardson, P. Jones, R.G.W.enARRAY(0xa64098)1S037842900200012gPrice, A.H.Steele, K.A. Gorham, J. Bridges, J.M.Moore, B.J.Evans, J.L.Richardson, P. Jones, R.G.W.2420020676senoOryza sativaRoot growthDrought resistanceGenotypexenvironment interactionWater extractionQTLSoil moisture03784290S037842900200012„3YenUCarbon exchange rateCured leavesDry matterIrrigationSalinityNicotiana tabacum L.ben_asciijThe effect of increasing NaCl in irrigation water on growth, gas exchange and yield of tobacco Burley typeenjThe effect of increasing NaCl in irrigation water on growth, gas exchange and yield of tobacco Burley typeFLA81Sifola, M.I.Postiglione, L.enARRAY(0x824d64)1S037842900100202Sifola, M.I.Postiglione, L.912002021574YenUCarbon exchange rateCured leavesDry matterIrrigationSalinityNicotiana tabacum L.13533103784290S037842900100202…X[enWGenotype*environment interactionBroad and specific adaptationMulti-environment trialsFen_ascii\Genotype-by-management interactions for grain yield and grain protein concentration of wheaten\Genotype-by-management interactions for grain yield and grain protein concentration of wheatFLA47E Cooper, M.Woodruff, D.R.Phillips, I.G. Basford, K.E. Gilmour, A.R.enARRAY(0x8331dc)1 abaacS037842900000131E Cooper, M.Woodruff, D.R.Phillips, I.G. Basford, K.E. Gilmour, A.R.6720010169Aen<Genotype×environment interactionBroad and specific adaptationMulti-environment trials69808303784290S037842900000131„?FenBCanavaliaCover cropsCrotalariaGreen manureLablabMucunaUganda^en_asciihAnnual soil improving legumes: agronomic effectiveness, nutrient uptake, nitrogen fixation and water useenhAnnual soil improving legumes: agronomic effectiveness, nutrient uptake, nitrogen fixation and water useFLA75+Wortmann, C.S.McIntyre, B.D.Kaizzi, C.K.enARRAY(0x86b1c4)1abcS037842900000113+Wortmann, C.S.McIntyre, B.D.Kaizzi, C.K.832000092968ben^CanavaliaCover cropsCrotalariaGreen manureLablabMucunaUganda03784290S037842900000113ƒ*IenEBiomass production,Crop model,Photosynthesis,Ontogeny,Oryza sativa L.en?Leaf nitrogen, plant age and crop dry matter production in riceen_ascii?Leaf nitrogen, plant age and crop dry matter production in riceFLA107Hasegawa, T. Horie, T.enARRAY(0x5df928)2-3037842909600027Hasegawa, T. Horie, T.11619960847IenEBiomass production,Crop model,Photosynthesis,Ontogeny,Oryza sativa L.03784290037842909600027ƒ\VenRWheat,Cereal cyst nematode,Straw mulch,No-till,Triticum aestivum,Heterodera avenae&enLA straw mulch system to allow continuous wheat production in an arid climateen_asciiLA straw mulch system to allow continuous wheat production in an arid climateFLA21Amir, J.Sinclair, T.R.enARRAY(0x7d0e24)1037842909600009Amir, J.Sinclair, T.R.3119960747VenRWheat,Cereal cyst nematode,Straw mulch,No-till,Triticum aestivum,Heterodera avenae03784290037842909600009,enSpecialty Cornsen_asciiSpecialty CornsBRV183 Orozco, A.M.1-3037842909500091 Orozco, A.M.1841996064603784290037842909500091…9enEnvironmental stress,Resistance,herbicide,Medicago sativa,Nicotiana tabacum,Petunia hybrida,Transgenic plants,Transinactivationen9Stress inactivation of foreign genes in transgenic plantsen_ascii9Stress inactivation of foreign genes in transgenic plantsFLA19 Broer, I.enARRAY(0x5ca068)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500055 Broer, I.2519960545enEnvironmental stress,Resistance,herbicide,Medicago sativa,Nicotiana tabacum,Petunia hybrida,Transgenic plants,Transinactivation03784290037842909500055„>en:Maize,Modelling,Solar radiation,Temperature,Yield,Zea mayslenoModel analysis of temperature and solar radiation limitations to maize potential productivity in a cool climateen_asciioModel analysis of temperature and solar radiation limitations to maize potential productivity in a cool climateFLA1+Wilson, D.R.Muchow, R.C.Murgatroyd, C.J.enARRAY(0x9e3c80)1037842909500037+Wilson, D.R.Muchow, R.C.Murgatroyd, C.J.1819950943>en:Maize,Modelling,Solar radiation,Temperature,Yield,Zea mays03784290037842909500037ƒH4en0Mungbean,Rice,Seedling establishment,Upland cropPenaA non-conventional method for establishing upland crops following lowland rice in saturated soilsen_asciiaA non-conventional method for establishing upland crops following lowland rice in saturated soilsFLA31 Garrity, D.P.Liboon, S.P.enARRAY(0x9e3f50)1037842909500019 Garrity, D.P.Liboon, S.P.42199509434en0Mungbean,Rice,Seedling establishment,Upland crop03784290037842909500019ñ-ôÚÊ¥•“ƒC3™‰ « › 3 ‹Y‹èÇp]"Æ¹Šx.!ÑÊ§škgJ0çÚ« eX)ÛÍ‹u4(ûè˜YFü¸‚uF= ÕÅxU?þï¼©]Ið£’[MÄ«dHû÷ÚÈ~GAþä›‡J;÷¯–OH%º¤0+ û ç ª ] P àÓ¤—h]2)ìƒ~_L ë œ Ž ] 9 Ü Ë ƒ y . &ñæªœZPñ´ªxUI¶£WAïã•†ÊTÊype- JN -isbni\S037842900000075$LTFE, long-term fertility experiment$LTFE, long-term fertility experimentLTFE, long-term fertility experiment…z…l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eaf area indexLeaf area indexLeaf area indexM2037842909500041S037842909900015S037842900000135Grain weightGrain weightGrain weightQ"S037842900000135S037842909800163Grain-filling durationGrain-filling durationGrain-filling durationK"S037842900000126S037842909601045Rice-wheat rotationRice-wheat rotationRice-wheat rotationvS037842909800149S037842909800150S037842909900066037842909400097S037842909601003S037842909700142S037842900000113Green manureGreen manureGreen manure‚!‚S037842909700058037842909500040037842909600022S037842900000097S037842900000100037842909600041037842909600042S037842909600043037842909500039S037842909700116S037842909900042S037842909800115S037842909700135S037842909601019S037842909700038S037842909700065 Sugarcane SugarcaneSugarcane(S037842909900066 Rice-wheat Rice-wheatRice-wheat<S037842909900066Chemical fertilizersChemical fertilizersChemical fertilizersJ3S037842909800109S037842909800110S037842909900065 Fertiliser FertiliserFertiliserA"S037842909800142S037842909800143Leaf longevi,en_asciiEDITORIAL BOARDenEDITORIAL BOARDMISii1[DOI] 10.1016/S037842900300045ii20030320825992903784290[DOI] 10.1016/S037842900300045gen_asciiIFCenIFCMISCO22-3S037842900300021CO2200302208131315003784290S037842900300021…\en RiceSalinity toleranceElongation abilitySubmergencePhosphorus deficiencyZn deficiencyIron toxicityAluminum toxicityAbiotic stress4en_asciiSProgress in breeding for salinity tolerance and associated abiotic stresses in riceenSProgress in breeding for salinity tolerance and associated abiotic stresses in riceFLA91SGregorio, G.B. Senadhira, D. Mendoza, R.D.Manigbas, N.L.Roxas, J.P.Guerta, C.Q.enARRAY(0xa664ec)2-3S037842900200031SGregorio, G.B. Senadhira, D. Mendoza, R.D.Manigbas, N.L.Roxas, J.P.Guerta, C.Q.10120020776en RiceSalinity toleranceElongation abilitySubmergencePhosphorus deficiencyZn deficiencyIron toxicityAluminum toxicityAbiotic stress03784290S037842900200031…cen_Colour changeDry weightHarvest maturityMoisture contentPhysiological maturityPod earliness‚enDifferences in development of common bean (Phaseolus vulgaris L.) crops and pod fractions within a crop - I. Seed growth and maturityen_asciiDifferences in development of common bean (Phaseolus vulgaris L.) crops and pod fractions within a crop - I. Seed growth and maturityFLA63)Muasya, R.M.Lommen, W.J.M.Struik, P.C.enARRAY(0x7b1db8)1S037842900200013)Muasya, R.M.Lommen, W.J.M.Struik, P.C.782002032875cen_Colour changeDry weightHarvest maturityMoisture contentPhysiological maturityPod earliness51179803784290S037842900200013„>\enXOryza sativaIndicaJaponicaDry matter accumulationNitrogen accumulationTranslocationden_asciikDry matter and N accumulation and translocation for Indica and Japonica rice under Mediterranean conditionsenkDry matter and N accumulation and translocation for Indica and Japonica rice under Mediterranean conditionsFLA93Ntanos, D.A.Koutroubas, S.D.enARRAY(0x7be898)1S037842900100203Ntanos, D.A.Koutroubas, S.D.1012002021574\enXOryza sativaIndicaJaponicaDry matter accumulationNitrogen accumulationTranslocation13533103784290S037842900100203†enArachis hypogeaCajanus cajanCicer arietinumGlycine maxLathyrus spp.Lens culinarisVicia fabaVigna mungoNitrogen fixationhen_asciimOn-farm measurements of nitrogen fixation by winter and summer legumes in the Hill and Terai regions of NepalenmOn-farm measurements of nitrogen fixation by winter and summer legumes in the Hill and Terai regions of NepalFLA2098Maskey, S.L. Bhattarai, S. Peoples, M.B.Herridge, D.F.enARRAY(0x87fdac)3aabcS0378429001001408Maskey, S.L. Bhattarai, S. Peoples, M.B.Herridge, D.F.2212001050170Arachis hypogeaCajanus cajanCicer arietinumGlycine maxLathyrus spp.Lens culinarisVicia fabaVigna mungoNitrogen fixation03784290S037842900100140„#[enWLegumeCottonNitrogenPetiole nitrateSoil nitrateN fertiliserFibre qualityMaturity(en_asciiMEstimation of the N fertiliser requirement of cotton grown after legume cropsenMEstimation of the N fertiliser requirement of cotton grown after legume cropsFLA43.Rochester, I.J. Peoples, M.B.Constable, G.A.enARRAY(0xa6b284)1abaS037842900000150.Rochester, I.J. Peoples, M.B.Constable, G.A.532001040170[enWLegumeCottonNitrogenPetiole nitrateSoil nitrateN fertiliserFibre qualityMaturity16270903784290S037842900000150…AoenkBoehmeria nivea (L.) Gaud.Fiber finenessFiber yieldMicrostructure of fiberPlant growth regulatorsRamiegen_asciiiEffect of growth regulators on yield and fiber quality in ramie (Boemheria nivea (L.) Gaud.), China grassenpEffect of growth regulators on yield and fiber quality in ramie (Boemheria nivea (L.) Gaud.), China grassFLA41E Liu, FeihuLiang, Xueni Zhang, NaigenHuang, YoushengZhang, ShouwenenARRAY(0x7bbdac)1 aabbcS037842900000132E Liu, FeihuLiang, Xueni Zhang, NaigenHuang, YoushengZhang, Shouwen4620010169venrBoehmeria nivea (L.) Gaud.Fiber finenessFiber yieldMicrostructure of fiberPlant growth regulatorsRamie69808303784290S037842900000132„EHenDCultivar mixturesCombining ability analysisMixing ability analysis~en_asciixUsing mixing ability analysis from two-way cultivar mixtures to predict the performance of cultivars in complex mixturesenxUsing mixing ability analysis from two-way cultivar mixtures to predict the performance of cultivars in complex mixturesFLA121&Lopez, Cesar G.Mundt, Christopher C.enARRAY(0x822ec0)2a,bcS037842900000114&Lopez, Cesar G.Mundt, Christopher C.1322000101068HenDCultivar mixturesCombining ability analysisMixing ability analysis14233203784290S037842900000114„Aen=Database,Genome mapping,Oryza sativa,Review,Transgenic plants^en(Transgenic rice and rice genome researchen_ascii(Transgenic rice and rice genome researchFLA27 Havukkala, I.enARRAY(0x5ca94c)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500056 Havukkala, I.3519960545Aen=Database,Genome mapping,Oryza sativa,Review,Transgenic plants03784290037842909500056ƒB;en7Antagonistic bacteria,Cotton,Disease,Gossipium hirsutumenCThe use of bacterial antagonists for the control of cotton diseasesen_asciiCThe use of bacterial antagonists for the control of cotton diseasesFLA51/Safiyazov, J.S.Mannanov, R.N.Sattarova, R.K.enARRAY(0x328d10)1037842909500038/Safiyazov, J.S.Mannanov, R.N.Sattarova, R.K.5419950943;en7Antagonistic bacteria,Cotton,Disease,Gossipium hirsutum03784290037842909500038ñÃ´RCQB>.ÖÆ?/aQáÑ ¢ ’p`|l0Ø„X/en+RiceAnther cultureSalt toleranceCultivar@en_asciiYDevelopment of the first salt-tolerant rice cultivar through indica/indica anther cultureenYDevelopment of the first salt-tolerant rice cultivar through indica/indica anther cultureFLA103j Senadhira, D.Zapata-Arias, F.J.Gregorio, G.B.Alejar, M.S.de la Cruz, H.C.Padolina, T.F.Galvez, A.M.enARRAY(0xa847c4)2-3S037842900200032j Senadhira, D.Zapata-Arias, F.J.Gregorio, G.B.Alejar, M.S.de la Cruz, H.C.Padolina, T.F.Galvez, A.M.11020020776/en+RiceAnther cultureSalt toleranceCultivar03784290S037842900200032…benCommon beanElectrical conductivity testHarvest maturityMoisture contentPhysiological maturityPod earlinessTetrazolium test‚enDifferences in development of common bean (Phaseolus vulgaris L.) crops and pod fractions within a crop - II. Seed viability and vigouren_asciiDifferences in development of common bean (Phaseolus vulgaris L.) crops and pod fractions within a crop - II. Seed viability and vigourFLA79)Muasya, R.M.Lommen, W.J.M.Struik, P.C.enARRAY(0x7a4260)1S037842900200014)Muasya, R.M.Lommen, W.J.M.Struik, P.C.892002032875enCommon beanElectrical conductivity testHarvest maturityMoisture contentPhysiological maturityPod earlinessTetrazolium test28462803784290S037842900200014† en Winter wheatTriticum aestivum L.NitrogenSimulation modelGreen area indexRadiation use efficiencyGrain yieldNitrogen nutrition indexren_asciirComparison of methods for simulating effects of nitrogen on green area index and dry matter growth in winter wheatenrComparison of methods for simulating effects of nitrogen on green area index and dry matter growth in winter wheatFLA131QOlesen, J.E.Petersen, B.M.Berntsen, J. Hansen, S.Jamieson, P.D. Thomsen, A.G.enARRAY(0x7a79a0)2-3S037842900100204QOlesen, J.E.Petersen, B.M.Berntsen, J. Hansen, S.Jamieson, P.D. Thomsen, A.G.1492002031574en Winter wheatTriticum aestivum L.NitrogenSimulation modelGreen area indexRadiation use efficiencyGrain yieldNitrogen nutrition index8937303784290S037842900100204„-ZenVCropping systemCrop residueImmobilisationNitrogenSimulationSoil waterTemperature en_asciiIModelling decomposition of sugar cane surface residues with APSIM-ResidueenIModelling decomposition of sugar cane surface residues with APSIM-ResidueFLA223:Thorburn, Peter J.Probert, Mervyn E.Robertson, Fiona A.enARRAY(0x8057c8)3aabS037842900100141:Thorburn, Peter J.Probert, Mervyn E.Robertson, Fiona A.2322001050170ZenVCropping systemCrop residueImmobilisationNitrogenSimulationSoil waterTemperature03784290S037842900100141„nIenELegumeCottonN2 fixationN fertilizerCropping systemsSoil strengthPen_asciiaUsing legumes to enhance nitrogen fertility and improve soil condition in cotton cropping systemsenaUsing legumes to enhance nitrogen fertility and improve soil condition in cotton cropping systemsFLA27JRochester, I.J. Peoples, M.B.Hulugalle, N.R.Gault, R.R.Constable, G.A.enARRAY(0x84960c)1 abcbaS037842900000151JRochester, I.J. Peoples, M.B.Hulugalle, N.R.Gault, R.R.Constable, G.A.412001040170TenPLegumeCottonN₂ fixationN fertilizerCropping systemsSoil strength16270903784290S037842900000151…LIenESinkSourcePartitioningMetabolismTropicTriticum aestivum L.Wheat‚en_ascii}Partitioning and conversion of 14C-photoassimilates in developing grains of wheat plants grown under field conditions in CubaenPartitioning and conversion of ¹⁴C-photoassimilates in developing grains of wheat plants grown under field conditions in CubaFLA191`Cruz-Aguado, Jorge A.Rodés, RosaOrtega, EduardoPérez, Isel P.Dorado, MaydelinenARRAY(0x7986fc)3 abbaaS037842900000133RCruz-Aguado, Jorge A.Rodes, RosaOrtega, EduardoPerez, Isel P.Dorado, Maydelin19920010369PenLSinkSourcePartitioningMetabolismTropicTriticum aestivum L.Wheat16270903784290S037842900000133…cen_Water useWater extraction front velocityRoot length densityWater uptake rateSoil resistancefen_asciilPhysiological responses of argentine peanut varieties to water stress. Water uptake and water use efficiencyenlPhysiological responses of argentine peanut varieties to water stress. Water uptake and water use efficiencyFLA1336 Collino, D.J.Dardanelli, J.L. Sereno, R.Racca, R.W.enARRAY(0x838acc)2abcaS0378429000001156 Collino, D.J.Dardanelli, J.L. Sereno, R.Racca, R.W.1422000101068cen_Water useWater extraction front velocityRoot length densityWater uptake rateSoil resistance14233203784290S037842900000115„V#enSource-sinkStem reservesWheat‚en_asciiMorphological characteristics and yield components associated with accumulation and loss of dry mass in the internodes of wheatenMorphological characteristics and yield components associated with accumulation and loss of dry mass in the internodes of wheatFLA129WCruz-Aguado, Jorge A.Rodés, RosaPérez, Isel P.Dorado, MaydelínenARRAY(0xcbb838)2abaaS037842900000070BCruz-Aguado, Jorge A.Rodes, RosaPerez, Isel P.Dorado, Maydelin13920000566#enSource-sinkStem reservesWheat25990003784290S037842900000070„OenKFlood tolerance,Leaf area index,Oryza sativa,Deepwater rice,Tillering,Yield0enQGrowth and yield of modern deepwater rice: Comparisons with modern irrigated riceen_asciiQGrowth and yield of modern deepwater rice: Comparisons with modern irrigated riceFLA105+Mazaredo, A.M.Laureles, E.V.Setter, T.L.enARRAY(0x6d3708)1-3037842909500093+Mazaredo, A.M.Laureles, E.V.Setter, T.L.11619960646OenKFlood tolerance,Leaf area index,Oryza sativa,Deepwater rice,Tillering,Yield03784290037842909500093…pben^Endosperm mutants,Gene expression,Regulatory genes,Storage proteins,Transgenic plants,Zea mays|en7Genetic manipulations of protein quality in maize grainen_ascii7Genetic manipulations of protein quality in maize grainFLA37J Motto, M.Hartings, H. Maddaloni, M. Lohmer, S.Salamini, F.Thompson, R.enARRAY(0x5cbee4)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500057J Motto, M.Hartings, H. Maddaloni, M. Lohmer, S.Salamini, F.Thompson, R.4819960545ben^Endosperm mutants,Gene expression,Regulatory genes,Storage proteins,Transgenic plants,Zea mays03784290037842909500057„`\enXBrassica napus,Growth stages,Oilseed rape,Physiology,Waterlogging,Yield components,Yield‚enEffects of waterlogging at different growth stages on physiological characteristics and seed yield of winter rape (Brassica napus L.)en_asciiEffects of waterlogging at different growth stages on physiological characteristics and seed yield of winter rape (Brassica napus L.)FLA103 Weijun, Z.Xianqing, L.enARRAY(0x6f14bc)2-3037842909500075 Weijun, Z.Xianqing, L.11019951244\enXBrassica napus,Growth stages,Oilseed rape,Physiology,Waterlogging,Yield components,Yield03784290037842909500075„,JenFGenotype _ environment interaction,Selection,Selection index,SugarcaneventSelection of sugarcane families across variable environments I. Sources of variation and an optimal selection indexen_asciitSelection of sugarcane families across variable environments I. Sources of variation and an optimal selection indexFLA109"Jackson, P. McRae, T.Hogarth, M.enARRAY(0x8cd9d0)2-3037842909500039"Jackson, P. McRae, T.Hogarth, M.11819951043JenFGenotype _ environment interaction,Selection,Selection index,Sugarcane03784290037842909500039 ñ±¢¯ ªš”„J:íÝ µ ¥³£ Ý Í A 1âÒ»«$«(e«„gIenEBiomassMaizeTillagePrecision agricultureSpatial variabilityWheat‚en_asciiStability of spatial variability of wheat and maize biomass in a small field managed under two contrasting tillage systems over 3 yearsenStability of spatial variability of wheat and maize biomass in a small field managed under two contrasting tillage systems over 3 yearsFLA95' Yamagishi, J.Nakamoto, T.Richner, W.enARRAY(0x99d380)2-3S037842900200213' Yamagishi, J.Nakamoto, T.Richner, W.1082003022081IenEBiomassMaizeTillagePrecision agricultureSpatial variabilityWheat31315003784290S0378429002002132en_asciiContents continuedenContents continuedMIS2032-3S037842900300041203200302208131315003784290S037842900300041†hendCytoplasmResistanceSeptoria triticiMycosphaerella graminicolaTriticum aestivumVirulenceMorocco‚ren_ascii1Evidence of cytoplasm contributing resistance to specific groups of virulence of Mycosphaerella graminicola (Fuckel) Shroeter in two bread wheat genotypes (Triticum aestivum L.)en1Evidence of cytoplasm contributing resistance to specific groups of virulence of Mycosphaerella graminicola (Fuckel) Shroeter in two bread wheat genotypes (Triticum aestivum L.)FLA1974 Mazouz, H.Saadaoui, E.M.Jlibene, M. El Bouami, F.enARRAY(0x977630)2-3S0378429002001504 Mazouz, H.Saadaoui, E.M.Jlibene, M. El Bouami, F.2062002122079hendCytoplasmResistanceSeptoria triticiMycosphaerella graminicolaTriticum aestivumVirulenceMorocco13533103784290S037842900200150„MuenqAdverse soils toleranceAlkalinityFe toxicityP deficiencyPeat soilsRiceSalinityTidal wetlandsZn deficiencyBen_asciiZTolerance of rice germplasm to salinity and other soil chemical stresses in tidal wetlandsenZTolerance of rice germplasm to salinity and other soil chemical stresses in tidal wetlandsFLA111 Quijano-Guerta, C.Kirk, G.J.D.enARRAY(0xa62a84)2-3S037842900200033 Quijano-Guerta, C.Kirk, G.J.D.12120020776uenqAdverse soils toleranceAlkalinityFe toxicityP deficiencyPeat soilsRiceSalinityTidal wetlandsZn deficiency03784290S037842900200033 8en_asciiCONTENTS OF VOLUME 74enCONTENTS OF VOLUME 74MIS2592-3S03784290020001526020020315748937303784290S037842900200015ƒDBen>RiceOryza sativaWhole-milled grainDrain timeGrain moisture&en_asciiLDrain and harvest timing affects on rice grain drying and whole-milled grainenLDrain and harvest timing affects on rice grain drying and whole-milled grainFLA163McCauley, G.N. Way, M.O.enARRAY(0x835518)2-3S037842900100205McCauley, G.N. Way, M.O.1722002031574Ben>RiceOryza sativaWhole-milled grainDrain timeGrain moisture8937303784290S037842900100205ƒp,en(ModellingCropping systemsCajanus cajanen_asciiBPredicting growth and development of pigeonpea: a simulation modelenBPredicting growth and development of pigeonpea: a simulation modelFLA195KRobertson, M.J.Carberry, P.S. Chauhan, Y.S.Ranganathan, R. O'Leary, G.J.enARRAY(0x8193c8)3 abcccS037842900100160KRobertson, M.J.Carberry, P.S. Chauhan, Y.S.Ranganathan, R. O'Leary, G.J.21020010720713en/ModellingCropping systemsCajanus cajan03784290S037842900100160„&PenLMaize/bean intercroppingPAR interceptionPAR use efficiencyRow orientation\en_asciigComparisons of radiation use efficiency of mono-/inter-cropping systems with different row orientationsengComparisons of radiation use efficiency of mono-/inter-cropping systems with different row orientationsFLA17! Tsubo, M. Walker, S.Mukhala, E.enARRAY(0x5029d0)1aabS037842900100142! Tsubo, M. Walker, S.Mukhala, E.292001060571PenLMaize/bean intercroppingPAR interceptionPAR use efficiencyRow orientation9466703784290S037842900100142„WenSGrowth rateLeaf appearanceLeaf expansionSorghumSpecific leaf nitrogenStover N%$en_asciiKCritical and minimum N contents for development and growth of grain sorghumenKCritical and minimum N contents for development and growth of grain sorghumFLA55/van Oosterom, E.J.Carberry, P.S.Muchow, R.C.enARRAY(0xa74014)1abcS037842900000152/van Oosterom, E.J.Carberry, P.S.Muchow, R.C.732001040170WenSGrowth rateLeaf appearanceLeaf expansionSorghumSpecific leaf nitrogenStover N%16270903784290S037842900000152† lenhSolanum tuberosumPotatoHaulm killingIncubation periodChronological agePhysiological ageTuber yield‚nen_ascii/Physiological age index: a new, simple and reliable index to assess the physiological age of seed potato tubers based on haulm killing date and length of the incubation perioden/Physiological age index: a new, simple and reliable index to assess the physiological age of seed potato tubers based on haulm killing date and length of the incubation periodFLA696Caldiz, Daniel O.Fernandez, Laura V.Struik, Paul C.enARRAY(0x7bba54)1aabS0378429000001346Caldiz, Daniel O.Fernandez, Laura V.Struik, Paul C.7920010169senoSolanum tuberosumPotatoHaulm killingIncubation periodChronological agePhysiological ageTuber yield69808303784290S037842900000134„8rennGossypium hirsutumDevelopmentRadiation-use efficiency (RUE)Light interceptionCanopy extinction coefficient4en_asciiSTiming of crop maturity in cotton. Impact of dry matter production and partitioningenSTiming of crop maturity in cotton. Impact of dry matter production and partitioningFLA143Bange, M.P.Milroy, S.P.enARRAY(0x819648)2S037842900000116Bange, M.P.Milroy, S.P.1552000101068yenuGossypium hirsutumDevelopmentRadiation-use efficiency (RUE)Light interceptionCanopy extinction coefficient14233203784290S037842900000116„Aen=CalciumMagnesiumPhosphorusPotassiumRoot nematodesUltisol‚en_asciiyEffects of fertilizer and hot-water treatment upon establishment, survival and yield of plantain (Musa spp., AAB, French)enEffects of fertilizer and hot-water treatment upon establishment, survival and yield of plantain (Musa spp., AAB, French)FLA213 Hauser, S.enARRAY(0x9f8bb0)3S037842900000071 Hauser, S.22320000666Aen=CalciumMagnesiumPhosphorusPotassiumRoot nematodesUltisol14233203784290S037842900000071ƒt^enZAssimilation,Oryza sativa,Partitioning,Senescence,Source-sink relationship,Yield stability*enNEffect of drainage date on yield and dry matter partitioning in irrigated riceen_asciiNEffect of drainage date on yield and dry matter partitioning in irrigated riceFLA117Dingkuhn, M. Le Gal, P.enARRAY(0x63eb98)1-3037842909500094Dingkuhn, M. Le Gal, P.12619960646^enZAssimilation,Oryza sativa,Partitioning,Senescence,Source-sink relationship,Yield stability03784290037842909500094ƒq4enSAdaptation of cereal cultivars to extreme agroecologic environments of North Africaen_asciiSAdaptation of cereal cultivars to extreme agroecologic environments of North AfricaFLA49Benbelkacem, A.enARRAY(0x5c0820)1-3@Papers presented at the OECD/MAICH Workshop on _Multidisciplinary assessment of transgenic crop plants: Technical, Agronomic and Ecological Aspects_ 15-19 September 1993, Chania, Crete, Greece037842909500058Benbelkacem, A.551996054503784290037842909500058„>6en2Leaf number,Modelling,Triticum,Vernalization,WheatpenqVernalization in wheat II. Genetic variability for the interchangeability of plant age and vernalization durationen_asciiqVernalization in wheat II. Genetic variability for the interchangeability of plant age and vernalization durationFLA67CShi-Ying, W. Ward, R.W. Ritchie, J.T. Fisch