Nimai Senapati

Name	Nimai Senapati
Job title	Research Scientist - Modeller
Email address	nimai.senapati@rothamsted.ac.uk
Department	Sustainable Soils and Crops
Research cluster	PS: Crop Productivity and Quality
ORCID	https://orcid.org/0000-0002-0238-6694
Office	Harpenden

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Research outputs

A dataset of CMIP6-based climate scenarios for climate change impact assessment in Great Britain

Semenov, M. A., Senapati, N., Coleman, K. and Collins, A. L. 2024. A dataset of CMIP6-based climate scenarios for climate change impact assessment in Great Britain. Data in Brief. 55 (4 July), p. 110709. https://doi.org/10.1016/j.dib.2024.110709

Enriched soil amendments influenced soil fertility, herbage yield and bioactive principle of medicinal plant (Cassia angustifolia Vahl.) grown in two different soils

B, P. K., Basak, B. B., Patel, V. J., Senapati, N., Ramani, V. P., Gajbhiye, N. A. and Kalola, A. D. 2024. Enriched soil amendments influenced soil fertility, herbage yield and bioactive principle of medicinal plant (Cassia angustifolia Vahl.) grown in two different soils. Heliyon. 10 (3), p. e24874. https://doi.org/10.1016/j.heliyon.2024.e24874

A high-yielding traits experiment for modeling potential production of wheat: field experiments and AgMIP-Wheat multi-model simulations

Guarin, J. R., Martre, P., Ewert, F., Webber, H., Dueri, S., Calderini, D., Reynolds, M., Molero, G., Miralles, D., Slafer, G. A., Giunta, F., Pequano, D. N. L., Stella, T., Ahmed, M., Alerman, P. D., Basso, B., Berger, A. G., Bindi, M., Bracho-Mujica, G., Cammarano, D., Chen, Y., Dumont, B., Rezaei, E. .E, Fereres, E., Ferrise, R., Gaiser, T., Gao, Y., Garcia-Vila, M., Gayler, S., Hochman, Z., Hoogenboom, G., Hunt, L. A., Kersebaum, K. C., Nendel, C., Olesen, J. E., Palosuo, T., Priesack, E., Pullens, J. W. M., Rodriguez ,A., Rotter, R. P., Ruiz Ramos, M., Semenov, M. A., Senapati, N., Siebert,S., Srivastava, A. K., Stockle, C., Supit, I., Tao, F., Thorburn, P., Wang, E., Weber, T. K. D., Xiao, L., Zhang, Z., Zhao, C., Zhao, J., Zhao, Z., Zhu, Y. and Asseng, S. 2023. A high-yielding traits experiment for modeling potential production of wheat: field experiments and AgMIP-Wheat multi-model simulations. Open Data Journal for Agricultural Research (ODjAR). 9, pp. 26-33. https://doi.org/10.18174/odjar.v9i0.18573

Evidence for increasing global wheat yield potential

Guarin, J. R., Martre, P., Ewert, F., Webber, H., Dueri, S., Calderini, D., Reynolds, M., Molero, G., Miralles, D., Garcia, G., Slafer, G., Giunta, F., Pequeno, D. N. L., Stella, T., Ahmed, M., Alderman, P. D., Basso, B., Berger, A. G., Bindi, M., Bracho-Mujica, G., Cammarano, D., Chen, Y., Dumont, B., Rezae, E. E., Fereres, E., Ferrise, R., Gaiser, T., Gao, Y., Garcia-Vila, M., Gayler, S., Hochman, Z., Hoogenboom, G., Hunt, L. A., Kersebaum, K. C., Nendel, C., Olesen, J. E., Palosuo, T., Priesack, E., Pullens, J. W. M., Rodríguez, A., Rötter, R. P., Ruiz Ramos, M., Semenov, M. A., Senapati, N., Siebert, S., Srivastava, A. K., Stöckle, C., Supit, I., Tao, F., Thorburn, P., Wang, E., Weber, T. K. D., Xiao, L., Zhang, Z., Zhao, C., Zhao, J., Zhao, Z., Zhu, Y. and Asseng, S. 2022. Evidence for increasing global wheat yield potential. Environmental Research Letters. 17, p. 124045. https://doi.org/10.1088/1748-9326/aca77c

Global wheat production could benefit from closing the genetic yield gap

Senapati, N., Semenov, M. A., Halford, N. G., Hawkesford, M. J., Asseng, S., Cooper, M., Ewert, F., Ittersum, M. K. V., Martre, P., Olesen, J. E., Reynolds, M., Rotter, R. P. and Webber, H. 2022. Global wheat production could benefit from closing the genetic yield gap. Nature Food. 3 (July), pp. 532-541. https://doi.org/10.1038/s43016-022-00540-9

Simulation of winter wheat response to variable sowing dates and densities in a high-yielding environment

Dueri, S., Brown, H., Asseng, S., Ewert, F., Webber, H., George, M., Craigie, R., Guarin, J. R., Pequeno, D. N. L., Stella, T., Ahmed, M., Alderman, P. D., Basso, B., Berger, A. G., Mujica, G. B., Cammarano, D., Chen, Y., Dumont, B., Rezaei, E. E., Fereres, E., Ferrise, R., Gaiser, T., Gao, Y., Garcia-Vila, M., Gayler, S., Hochman, Z., Hoogenboom, G., Kersebaum, K. C., Nendel, C., Olesen, J. E., Padovan, G., Palosuo, T., Priesack, E., Pullens, J. W. M., Rodríguez, A., Rotter, R. P., Ramos, M. R., Semenov, M. A., Senapati, N., Siebert, S., Srivastava, A. K., Stockle, C., Supit, I., Tao, F., Thorburn, P., Wang, E., Weber, T. K. D., Xiao, L., Zhao, C., Zhao, J., Zhao, Z., Zhu, Y. and Martre, P. 2022. Simulation of winter wheat response to variable sowing dates and densities in a high-yielding environment. Journal of Experimental Botany. 73 (16), pp. 5715-5729. https://doi.org/10.1093/jxb/erac221

Local impacts of climate change on winter wheat in Great Britain

Putelat, T., Whitmore, A. P., Senapati, N. and Semenov, M. A. 2021. Local impacts of climate change on winter wheat in Great Britain. Royal Society Open Science. 8 (6), p. 201669. https://doi.org/10.1098/rsos.201669

Vulnerability of European wheat to extreme heat and drought around flowering under future climate

Senapati, N., Halford, N. G. and Semenov, M. A. 2021. Vulnerability of European wheat to extreme heat and drought around flowering under future climate. Environmental Research Letters. 16 (2), p. 024052. https://doi.org/10.1088/1748-9326/abdcf3

Stability of farm income: The role of agricultural diversity and agri-environment scheme payments

Harkness, C., Areal, F. J., Semenov, M. A., Senapati, N., Shield, I. F. and Bishop, J. 2021. Stability of farm income: The role of agricultural diversity and agri-environment scheme payments. Agricultural Systems. 187, p. 103009. https://doi.org/10.1016/j.agsy.2020.103009

Substantial increase in yield predicted by wheat ideotypes for Europe under future climate

Senapati, N., Griffiths, S, Hawkesford, M. J., Shewry, P. R. and Semenov, M. A. 2020. Substantial increase in yield predicted by wheat ideotypes for Europe under future climate. Climate Research. 80 (3), p. 189–201. https://doi.org/10.3354/cr01602

Adverse weather conditions for UK wheat production under climate change

Harkness, C., Semenov, M. A., Areal, F., Senapati, N., Trnka, M., Balek, J. and Bishop, J. 2020. Adverse weather conditions for UK wheat production under climate change. Agricultural and Forest Meteorology. 282-283, p. 107862. https://doi.org/10.1016/j.agrformet.2019.107862

Large genetic yield potential and genetic yield gap estimated for wheat in Europe

Semenov, M. A. and Senapati, N. 2020. Large genetic yield potential and genetic yield gap estimated for wheat in Europe. Global Food Security. 24, p. 100340. https://doi.org/10.1016/j.gfs.2019.100340

Modeling Carbon and Water Fluxes of Managed Grasslands: Comparing Flux Variability and Net Carbon Budgets between Grazed and Mowed Systems

Puche, N., Senapati, N., Flechard, R., Klumpp, K., Kirschbaum, M. U. F. and Chabbi, A. 2019. Modeling Carbon and Water Fluxes of Managed Grasslands: Comparing Flux Variability and Net Carbon Budgets between Grazed and Mowed Systems. Agronomy. 9 (4), p. 183. https://doi.org/10.3390/agronomy9040183

Assessing yield gap in high productive countries by designing wheat ideotypes

Senapati, N. and Semenov, M. A. 2019. Assessing yield gap in high productive countries by designing wheat ideotypes. Scientific Reports. 9 (1), p. 5516. https://doi.org/10.1038/s41598-019-40981-0

Raising genetic yield potential in high productive countries: Designing wheat ideotypes under climate change

Senapati, N., Brown, H. E. and Semenov, M. A. 2019. Raising genetic yield potential in high productive countries: Designing wheat ideotypes under climate change. Agricultural and Forest Meteorology. 271, pp. 33-45. https://doi.org/10.1016/j.agrformet.2019.02.025

Drought tolerance during reproductive development is important for increasing wheat yield potential under climate change in Europe

Senapati, N., Stratonovitch, P., Paul, M. J. and Semenov, M. A. 2019. Drought tolerance during reproductive development is important for increasing wheat yield potential under climate change in Europe. Journal of Experimental Botany. 70 (9), pp. 2549-2560. https://doi.org/10.1093/jxb/ery226

Modelling daily to seasonal carbon fluxes and annual net ecosystem carbon balance of cereal grain-cropland using DailyDayCent: A model data comparison

Senapati, N., Chabbi, A. and Smith, P. 2018. Modelling daily to seasonal carbon fluxes and annual net ecosystem carbon balance of cereal grain-cropland using DailyDayCent: A model data comparison. Agriculture, Ecosystems & Environment. 252, pp. 159-177. https://doi.org/10.1016/j.agee.2017.10.003

Towards stability of food production and farm income in a variable climate

Harkness, C., Areal, F. J., Semenov, M. A., Senapati, N., Shield, I. F. and Bishop, J. 2023. Towards stability of food production and farm income in a variable climate. Ecological Economics. 204 (Part A), p. 107676. https://doi.org/10.1016/j.ecolecon.2022.107676