Publication Abstracts

Martre et al. 2017

Martre, P., M.P. Reynolds, S. Asseng, F. Ewert, P.D. Alderman, D. Cammarano, A. Maiorano, A.C. Ruane, P.K. Aggarwal, J. Anothai, B. Basso, C. Biernath, A.J. Challinor, G. De Sanctis, J. Doltra, B. Dumont, E. Fereres, M. Garcia-Vila, S. Gayler, G. Hoogenboom, L.A. Hunt, R.C. Izaurralde, M. Jabloun, C.D. Jones, B.T. Kassie, K.C. Kersebaum, A.K. Koehler, C. Müller, S.N. Kumar, B. Liu, D.B. Lobell, C. Nendel, G. O'Leary, J.E. Olesen, T. Palosuo, E. Priesack, E. Eyshi Rezaei, D. Ripoche, R.P. Rötter, M.A. Semenov, C. Stöckle, P. Stratonovitch, T. Streck, I. Supit, F. Tao, P. Thorburn, K. Waha, E. Wang, J.W. White, J. Wolf, Z. Zhao, and Y. Zhu, 2017: The International Heat Stress Genotype Experiment for modeling wheat response to heat: Field experiments and AgMIP-Wheat multi-model simulations. Open Data. J. Agric. Res., doi:10.18174/odjar.v3i1.15766.

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.

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BibTeX Citation

@article{ma07210x,
  author={Martre, P. and Reynolds, M. P. and Asseng, S. and Ewert, F. and Alderman, P. D. and Cammarano, D. and Maiorano, A. and Ruane, A. C. and Aggarwal, P. K. and Anothai, J. and Basso, B. and Biernath, C. and Challinor, A. J. and De Sanctis, G. and Doltra, J. and Dumont, B. and Fereres, E. and Garcia-Vila, M. and Gayler, S. and Hoogenboom, G. and Hunt, L. A. and Izaurralde, R. C. and Jabloun, M. and Jones, C. D. and Kassie, B. T. and Kersebaum, K. C. and Koehler, A. K. and Müller, C. and Kumar, S. N. and Liu, B. and Lobell, D. B. and Nendel, C. and O'Leary, G. and Olesen, J. E. and Palosuo, T. and Priesack, E. and Eyshi Rezaei, E. and Ripoche, D. and Rötter, R. P. and Semenov, M. A. and Stöckle, C. and Stratonovitch, P. and Streck, T. and Supit, I. and Tao, F. and Thorburn, P. and Waha, K. and Wang, E. and White, J. W. and Wolf, J. and Zhao, Z. and Zhu, Y.},
  title={The International Heat Stress Genotype Experiment for modeling wheat response to heat: Field experiments and AgMIP-Wheat multi-model simulations},
  year={2017},
  journal={Open Data. J. Agric. Res.},
  doi={10.18174/odjar.v3i1.15766},
}

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RIS Citation

TY  - JOUR
ID  - ma07210x
AU  - Martre, P.
AU  - Reynolds, M. P.
AU  - Asseng, S.
AU  - Ewert, F.
AU  - Alderman, P. D.
AU  - Cammarano, D.
AU  - Maiorano, A.
AU  - Ruane, A. C.
AU  - Aggarwal, P. K.
AU  - Anothai, J.
AU  - Basso, B.
AU  - Biernath, C.
AU  - Challinor, A. J.
AU  - De Sanctis, G.
AU  - Doltra, J.
AU  - Dumont, B.
AU  - Fereres, E.
AU  - Garcia-Vila, M.
AU  - Gayler, S.
AU  - Hoogenboom, G.
AU  - Hunt, L. A.
AU  - Izaurralde, R. C.
AU  - Jabloun, M.
AU  - Jones, C. D.
AU  - Kassie, B. T.
AU  - Kersebaum, K. C.
AU  - Koehler, A. K.
AU  - Müller, C.
AU  - Kumar, S. N.
AU  - Liu, B.
AU  - Lobell, D. B.
AU  - Nendel, C.
AU  - O'Leary, G.
AU  - Olesen, J. E.
AU  - Palosuo, T.
AU  - Priesack, E.
AU  - Eyshi Rezaei, E.
AU  - Ripoche, D.
AU  - Rötter, R. P.
AU  - Semenov, M. A.
AU  - Stöckle, C.
AU  - Stratonovitch, P.
AU  - Streck, T.
AU  - Supit, I.
AU  - Tao, F.
AU  - Thorburn, P.
AU  - Waha, K.
AU  - Wang, E.
AU  - White, J. W.
AU  - Wolf, J.
AU  - Zhao, Z.
AU  - Zhu, Y.
PY  - 2017
TI  - The International Heat Stress Genotype Experiment for modeling wheat response to heat: Field experiments and AgMIP-Wheat multi-model simulations
JA  - Open Data. J. Agric. Res.
DO  - 10.18174/odjar.v3i1.15766
ER  -

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