GISS Personnel Directory

Dr. Jose R. Guarin

Autonomic Integra LLC

NASA Goddard Institute for Space Studies
2880 Broadway
New York, NY 10025 USA

E-mail: jose.r.guarin@nasa.gov
Phone: 212-678-5605
MS: 573

Recent Publications

Martre, P., S. Dueri, H. Brown, S. Asseng, F. Ewert, H. Webber, M. George, R. Craigie, J. Guarin, D. Pequeno, T. Stella, M. Ahmed, P. Alderman, B. Basso, A. Berger, G. Bracho Mujica, D. Cammarano, Y. Chen, B. Dumont, E. Rezaei, E. Fereres, R. Ferrise, T. Gaiser, Y. Gao, M. Garcia-Vila, S. Gayler, Z. Hochman, G. Hoogenboom, K. Kersebaum, C. Nendel, J. Olesen, G. Padovan, T. Palosuo, E. Priesack, J. Pullens, A. Rodríguez, R. Rötter, M. Ruiz Ramos, M. Semenov, N. Senapati, S. Siebert, A. Srivastava, C. Stöckle, I. Supit, F. Tao, P. Thorburn, E. Wang, T. Weber, L. Xiao, C. Zhao, J. Zhao, Z. Zhao, and Y. Zhu, 2024: Winter wheat experiments to optimize sowing dates and densities in a high-yielding environment in New Zealand: field experiments and AgMIP-Wheat multi-model simulations. Open Data J. Agric. Res., 10, 14-21, doi:10.18174/odjar.v10i0.18442.

Guarin, J.R., J. Jägermeyr, E.A. Ainsworth, F.A.A. Oliveira, S. Asseng, K. Boote, J. Elliott, L. Emberson, I. Foster, G. Hoogenboom, D. Kelly, A.C. Ruane, and K. Sharps, 2024: Modeling the effects of tropospheric ozone on the growth and yield of global staple crops with DSSAT v4.8.0. Geosci. Model Dev., 17, no. 7, 2547-2567, doi:10.5194/gmd-17-2547-2024.

Martre, P., S. Dueri, J.R. Guarin, F. Ewert, H. Webber, D. Calderini, G. Molero, M. Reynolds, D. Miralles, G. Garcia, H. Brown, M. George, R. Craigie, J.-P. Cohan, J.-C. Deswarte, G. Slafer, F. Giunta, D. Cammarano, R. Ferrise, T. Gaiser, Y. Gao, Z. Hochman, G. Hoogenboom, L.A. Hunt, K.C. Kersebaum, C. Nendel, G. Padovan, A.C. Ruane, A.K. Srivastava, T. Stella, I. Supit, P. Thorburn, E. Wang, J. Wolf, C. Zhao, Z. Zhao, and S. Asseng, 2024: Global nitrogen needs to improve wheat yield under climate change. Nat. Plants, 10, 1081-1090, doi:10.1038/s41477-024-01739-3.

Guarin, J., P. Martre, F. Ewert, H. Webber, S. Dueri, D. Calderini, M. Reynolds, G. Molero, D. Miralles, G. Garcia, G. Slafer, F. Giunta, D. Pequeno, T. Stella, M. Ahmed, P. Alderman, B. Basso, A. 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. Hunt, K. Kersebaum, C. Nendel, J. Olesen, T. Palosuo, E. Priesack, J. Pullens, A. Rodriguez, R. Rotter, M. Ruiz Ramos, M. Semenov, N. Senapati, S. Siebert, A. Srivastava, C. Stockle, I. Supit, F. Tao, P. Thorburn, E. Wang, T. Weber, L. Xiao, Z. Zhang, C. Zhao, J. Zhao, Z. Zhao, Y. Zhu, and S. Asseng, 2023: A high-yielding traits experiment for modeling potential production of wheat: Field experiments and AgMIP-Wheat multi-model simulations. Open Data J. Agric. Res., 9, 26-33, doi:10.18174/odjar.v9i0.18573.

Stella, T., H. Webber, E.E. Rezaei, S. Asseng, P. Martre, S. Dueri, J.R. Guarin, D. Pequeno, D.F. Calderini, G. Slafer, G. Molero, D. Miralles, G. Garcia, F. Giunta, Y.-U. Kim, C. Wang, A.C. Ruane, and F. Ewert, 2023: Wheat crop traits conferring high yield potential may also improve yield stability under climate change. In Silico Plants, 5, no. 2, diad013, doi:10.1093/insilicoplants/diad013.

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