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The International Heat Stress Genotype Experiment for modeling wheat response to heat: field experiments and AgMIP-Wheat multi-model simulations

Harvard Dataverse (Africa Rice Center, Bioversity International, CCAFS, CIAT, IFPRI, IRRI and WorldFish)

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Title The International Heat Stress Genotype Experiment for modeling wheat response to heat: field experiments and AgMIP-Wheat multi-model simulations
 
Identifier https://doi.org/10.7910/DVN/1WCFHK
 
Creator Martre, Pierre
Reynolds, Matthew
Asseng, Senthold
Ewert, Frank
Alderman,Phillip
Cammarano, Davide
Maiorano, Andrea
Ruane, Alexander
Aggarwal, Pramod
Anothai, Jakarat
Basso, Bruno
Biernath, Christian
Challinor, Andrew
De Sanctis, Giacomo
Doltra, Jordi
Dumont, Benjamin
Fereres, Elias
Garcia-Vila, Margarita
Gayler, Sebastian
Hoogenboom, Gerrit
Hunt, Leslie
Izaurralde, RobertoIzaurralde, Roberto
Jabloun, Mohamed
Jones, Curtis
Kassie, Belay
Kersebaum, Christian
Koehler, Ann-Kristin
Müller, Christoph
Naresh Kumar, Soora
Liu, Bing
Lobell, David
Nendel, Claas
O’Leary, Garry
Olesen, Jørgen
Palosuo, Taru
Priesack, Eckart
Eyshi Rezaei, Ehsan
Ripoche, Dominique
Rötter, Reimund
Semenov, Mikhail
Stöckle, Claudio
Stratonovitch, Pierre
Streck, Thilo
Supit, Iwan
Tao, Fulu
Thorburn, Peter
Waha, Katharina
Wang, Enli
White, Jeffrey
Wolf, Joost
Zhao, Zhigan
Zhu, Yan
 
Publisher Harvard Dataverse
 
Description The data set contains a portion of the International Heat Stress Genotype Experiment (IHSGE) data used in the AgMIP-Wheat project to analyze the uncertainty of 30 wheat crop models and quantify the impact of heat on global wheat yield productivity. It includes two spring wheat cultivars grown during two consecutive winter cropping cycles at hot, irrigated, and low latitude sites in Mexico (Ciudad Obregon and Tlaltizapan), Egypt (Aswan), India (Dharwar), the Sudan (Wad Medani), and Bangladesh (Dinajpur). Experiments in Mexico included normal (November-December) and late (January-March) sowing dates. Data include local daily weather data, soil characteristics and initial soil conditions, crop measurements (anthesis and maturity dates, anthesis and final total above ground biomass, final grain yields and yields components), and cultivar information. Simulations include both daily in-season and end-of-season results from 30 wheat models.
 
Subject Agricultural Sciences
Wheat
Field experimental data
heat stress
Crop model simulations
AgMIP
 
Contributor Martre, Pierre