Author Bibliographies
Publications by Jose R. Guarin
This citation list includes papers published while the author has been on staff at the NASA Goddard Institute for Space Studies. It may include some publications based on research conducted prior to their having joined the institute staff.
2022
Dueri, S., H. Brown, S. Asseng, F. Ewert, H. Webber, M. George, R. Craigie, Simulation of winter wheat response to variable sowing dates and densities in a high-yielding environment. J. Exp. Bot., 73, no. 16, 5715-5729, doi:10.1093/jxb/erac221.
, D.N.L. Pequeno, T. Stella, M. Ahmed, P.D. Alderman, B. Basso, A.G. Berger, G.B. Mujica, D. Cammarano, Y. Chen, B. Dumont, E.E. Rezaei, E. Fereres, R. Ferrise, T. Gaiser, Y. Gao, M. Garcia-Vila, S. Gayler, Z. Hochman, G. Hoogenboom, K.C. Kersebaum, C. Nendel, J.E. Olesen, G. Padovan, T. Palosuo, E. Priesack, J.W.M. Pullens, A. Rodríguez, R.P Rötter, M.R. Ramos, M.A. Semenov, N. Senapati, S. Siebert, A.K. Srivastava, C. Stöckle, I. Supit, F. Tao, P. Thorburn, E. Wang, T.K.D. Weber, L. Xiao, C. Zhao, J. Zhao, Z. Zhao, Y. Zhu, and P. Martre, 2022:Improving wheat production and breeding strategies using crop models. In Wheat Improvement: Food Security in a Changing Climate. M.P. Reynolds and H.-J. Braun, Eds., Springer, pp. 573-591, doi:10.1007/978-3-030-90673-3_31.
, and S. Asseng, 2022:Evidence for increasing global wheat yield potential. Environ. Res. Lett., 17, no. 12, 124045, doi:10.1088/1748-9326/aca77c.
, P. Martre, F. Ewert, H. Webber, S. Dueri, D. Calderini, M. Reynolds, G. Molero, D. Miralles, G. Garcia, G. Slafer, F. Giunta, D. Noleto Luz Pequeno, T. Stella, M. Ahmed, P.D. Alderman, B. Basso, A.G. Berger, M. Bindi, G. Bracho Mujica, D. Cammarano, Y. Chen, B. Dumont, E. Eyshi Rezaei, E. Fereres, R. Ferrise, T. Gaiser, Y. Gao, M. Garcia-Vila, S. Gayler, Z. Hochman, G. Hoogenboom, L.A. Hunt, C. Kersebaum, C. Nendel, J. Olesen, T. Palosuo, E. Priesack, J. Pullens, A. Rodriguez, R.P. Rötter, M. Ruiz-Ramos, M.A. Semenov, N. Senapati, S. Siebert, A.K. Srivastava, C.O. Stöckle, I. Supit, F. Tao, P.J. Thorburn, E. Wang, T.K.D. Weber, L. Xiao, Z. Zhang, C. Zhao, J. Zhao, Z. Zhao, Y. Zhu, and S. Asseng, 2022:2021
Climate impacts on global agriculture emerge earlier in new generation of climate and crop models. Nat. Food, 2, no. 11, 873-885, doi:10.1038/s43016-021-00400-y.
, C. Müller, , J. Elliott, J. Balkovic, O. Castillo, B. Faye, I. Foster, C. Folberth, J.A. Franke, K. Fuchs, J. Guarin, J. Heinke, G. Hoogenboom, T. Iizumi, A.K. Kain, D. Kelly, N. Khabarov, S. Lange, T.-S. Lin, W. Liu, O. Mialyk, S. Minoli, E.J. Moyer, M. Okada, , C. Porter, S. Rabin, C. Scheer, J.M. Schneider, J.F. Schyns, R. Skalsky, A. Smerald, T. Stella, H. Stephens, H. Webber, F. Zabel, and , 2021:2019
Impacts of tropospheric ozone and climate change on Mexico wheat production. Climatic Change, 155, no. 2, 157-174, doi:10.1007/s10584-019-02451-4.
, L. Emberson, D. Simpson, I.M. Hernandez-Ochoa, D. Rowland, and S. Asseng, 2019:Modeling the effects of tropospheric ozone on wheat growth and yield. Eur. J. Agron., 105, 13-23, doi:10.1016/j.eja.2019.02.004.
, B. Kassie, A.M. Mashaheet, K. Burkey, and S. Asseng, 2019:2017
Wheat crop modelling to improve yields. In Achieving Sustainable Cultivation of Wheat, vol. 2, Burliegh Dodds, pp. 107-141, doi:10.19103/AS.2016.0004.27.
, and Asseng. S., 2017: