Wang, EnliMartre, PierreZhao, ZhiganEwert, FrankMaiorano, AndreaRötter, Reimund P.Kimball, Bruce A.Ottman, Michael J.Wall, Gerard W.White, Jeffrey W.Reynolds, Matthew P.Alderman, Phillip D.Aggarwal, Pramod K.Anothai, JakaratBasso, BrunoBiernath, ChristianCammarano, DavideChallinor, Andrew J.De Sanctis, GiacomoDoltra, JordiDumont, BenjaminFereres, EliasGarcia-Vila, MargaritaGayler, SebastianHoogenboom, GerritHunt, Leslie A.Izaurralde, Roberto C.Jabloun, MohamedJones, Curtis D.Kersebaum, Kurt C.Koehler, Ann-KristinLiu, LeileiMüller, ChristophNaresh Kumar, SooraNendel, ClaasO'Leary, GarryOlesen, Jørgen E.Palosuo, TaruPriesack, EckartEyshi Rezaei, EhsanRipoche, DominiqueRuane, Alex C.Semenov, Mikhail A.Shcherbak, IuriiStöckle, ClaudioStratonovitch, PierreStreck, ThiloSupit, IwanTao, FuluThorburn, PeterWaha, KatharinaWallach, DanielWang, ZhiminWolf, JoostZhu, YanAsseng, Senthold2024-12-202024-12-20https://hdl.handle.net/10568/168178The uncertainty of crop yield projections is reduced by improved temperature response functions