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Asseng, SentholdMartre, PierreMaiorano, AndreaRötter, ReimundO’Leary, Garry JFitzgerald, Glenn JGirousse, ChristineMotzo, RosellaGiunta, FrancescoBabar, Muhammad AliReynolds, Matthew PKheir, AhmedThorburn, Peter JWaha, KatharinaRuane, AlexAggarwal, Pramod KAhmed, MukhtarBalkovic, JurajBasso, BrunoBiernath, ChristianBindi, MarcoCammarano, DavideChallinor, Andrew J.De Sanctis, GiacomoDumont, BenjaminRezaei, Ehsan EyshiFereres, EliasFerrise, RobertoGarcia-Vila, MargaritaGayler, SebastianGao, YujingHoran, HeidiHoogenboom, GerritIzaurralde, Roberto CesarJabloun, MohamedJones, Curtis DKassie, Belay TKersebaum, Kurt ChristianKlein, ChristianKöhler, Ann-KristinLiu, BingMinoli, SaraMontesino, ManuelMüller, ChristophKumar, Soora NareshNendel, ClaasOlesen, Jørgen EPalosuo, TaruPorter, John RPriesack, EckartRipoche, DominiqueSemenov, Mikhail AStöckle, ClaudioStratonovitch, PierreStreck, ThiloSupit, IwanTao, FuluVan der Velde, MarijnWallach, DanielWang, EnliWebber, HeidiWolf, JoostXiao, LiujunZhang, ZhaoZhao, ZhiganZhu, YanEwert, Frank[Climate change impact and adaptation for wheat protein]Climate change impact and adaptation for wheat protein

Using a global atmospheric chemistry model, we have quantified for the first time, intercontinental transboundary contributions to crop ozone exposure and subsequent yield reductions in the Northern Hemisphere. We apply four metrics (AOT40, M7, M12, W126) to assess the impacts of 100% reductions ...


Hollaway MJArnold, S.R.Challinor, Andrew J.Emberson LD[Intercontinental trans-boundary contributions to ozone-induced crop yield losses in the Northern Hemisphere]Intercontinental trans-boundary contributions to ozone-induced crop yield losses in the Northern Hemisphere
Ramírez Villegas, JuliánKöhler, Ann-KristinChallinor, Andrew J.[Assessing uncertainty and complexity in regional-scale crop model simulations]Assessing uncertainty and complexity in regional-scale crop model simulations

We present a framework for prioritizing adaptation approaches at a range of timeframes. The framework is illustrated by four case studies from developing countries, each with associated characterization of uncertainty. Two cases on near-term adaptation planning in Sri Lanka and on stakeholder sce...


Vermeulen, Sonja J.Challinor, Andrew J.Thornton, Philip K.Campbell, Bruce M.Eriyagama, NishadiVervoort, Joost M.Kinyangi, JamesJarvis, AndyLäderach, PeterRamírez Villegas, JuliánNicklin, K.J.Hawkins, E.Smith, D.R.[Addressing uncertainty in adaptation planning for agriculture]Addressing uncertainty in adaptation planning for agriculture
Asseng, SentholdEwert, FrankRosenzweig, CynthiaJones, James W.Hatfield, Jerry L.Ruane, Alex C.Boote, Kenneth J.Thorburn, Peter J.Rötter, Reimund P.Cammarano, DavideBrisson, NadineBasso, BrunoMarthe, PAggarwal, Pramod K.Angulo, CarlosBertuzzi, PatrickBiernath, ChristianChallinor, Andrew J.Doltra, JordiGayler, SebastianGoldberg, Richard A.Grant, RobertHeng, LeeHooker, JoshHunt, Leslie A.Ingwersen, JoachimIzaurralde, Roberto CésarKersebaum, Kurt-ChristianMüller, ChristophNaresh Kumar, SooraNendel, ClaasO'Leary, Garry J.Olesen, J.E.Osborne, Tom M.Palosuo, TaruPriesack, EckartRipoche, DominiqueSemenov, Mikhail A.Shcherbak, IuriiSteduto, PasqualeStöckle, Claudio O.Stratonovitch, PierreStreck, ThiloSupit, IwanTao, FuluTravasso, MariaWaha, KatharinaWallach, DanielWhite, Jeffrey W.Williams, JRWolf, J.[Uncertainty in simulating wheat yields under climate change]Uncertainty in simulating wheat yields under climate change

Projections of the response of crop yield to climate change at different spatial scales are known to vary. However, understanding of the causes of systematic differences across scale is limited. Here, we hypothesize that heterogeneous cropping intensity is one source of scale dependency. Analysis...


Challinor, Andrew J.Parkes BRamírez Villegas, Julián[Crop yield response to climate change varies with cropping intensity]Crop yield response to climate change varies with cropping intensity

Many studies warn that climate change may undermine global food security. Much work on this topic focuses on modelling crop-weather interactions but these models do not generally account for the ways in which socio-economic factors influence how harvests are affected by weather. To address this g...


Simelton, ElisabethFraser EDGTermansen, MetteBenton, T.G.Gosling SNSouth AArnell, N.W.Challinor, Andrew J.Dougill, Andrew J.Forster PM[The socioeconomics of food crop production and climate change vulnerability: a global scale quantitative analysis of how grain crops are sensitive to drought]The socioeconomics of food crop production and climate change vulnerability: a global scale quantitative analysis of how grain crops are sensitive to drought

Recent changes in climate have had a measurable impact on crop yield in China. The objective of this study is to investigate how climate variability affects wheat yield in China at different spatial scales. First the response of wheat yield to the climate at the provincial level from 1978 to 1995...


Li SWheeler, TimChallinor, Andrew J.Erda, LinJu HYinlong X[The observed relationships between wheat and climate in China]The observed relationships between wheat and climate in China

Agriculture and food security are key sectors for intervention under climate change. Agricultural production is highly vulnerable even to 2C (low-end) predictions for global mean temperatures in 2100, with major implications for rural poverty and for both rural and urban food security. Agricultur...


Vermeulen, Sonja J.Aggarwal, Pramod K.Ainslie, A.Angelone, C.Campbell, Bruce M.Challinor, Andrew J.Hansen, JamesIngram, J.S.I.Jarvis, AndyKristjanson, Patricia M.Lau, CharlotteNelson, Gerald C.Thornton, Philip K.Wollenberg, Eva K.[Options for support to agriculture and food security under climate change]Options for support to agriculture and food security under climate change
Martre, PierreKimball, Bruce A.Ottman, Michael J.Wall, Gerard W.White, Jeffrey W.Asseng, SentholdEwert, FrankCammarano, DavideMaiorano, AndreaAggarwal, Pramod K.Anothai, JakaratBasso, BrunoBiernath, ChristianChallinor, Andrew J.Sanctis, Giacomo deDoltra, JordiDumont, BenjaminFereres, EliasGarcía Vila, MargaritaGayler, SebastianHoogenboom, GerritHunt, Leslie A.Izaurralde, Roberto CésarJabloun, MohamedJones, Curtis D.Kassie, Belay T.Kersebaum, Kurt-ChristianKöhler, Ann-KristinMüller, ChristophKumar, Soora NareshLiu, BingLobell, David B.Nendel, ClaasO'Leary, Garry J.Olesen, Jørgen E.Palosuo, TaruPriesack, EckartRezaei, Ehsan EyshiRipoche, DominiqueRötter, Reimund P.Semenov, Mikhail A.Stöckle, Claudio O.Stratonovitch, PierreStreck, ThiloSupit, IwanTao, FuluThorburn, Peter J.Waha, KatharinaWang, EnliWolf, JoostZhao, ZhiganZhu, Yan[The Hot Serial Cereal Experiment for modeling wheat response to temperature: field experiments and AgMIP-Wheat multi-model simulations]The Hot Serial Cereal Experiment for modeling wheat response to temperature: field experiments and AgMIP-Wheat multi-model simulations

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