Читать книгу Enhancing Agricultural Research and Precision Management for Subsistence Farming by Integrating System Models with Experiments - Группа авторов - Страница 12

1 Ali, S., Islam, A., & Ojasvi, P. R. (2022). Modeling water dynamics for assessing and managing ecosystem services in India. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 69–103). ASA, CSSA, and SSSA. DOI

2 Araya, A., Prasad, P. V. V., Ciampitti, I. A., Rice, C. W., & Gowda, P. H. (2022). Using crop simulation models as tools to quantify effects of crop management practices and climate change scenarios on wheat yields in northern Ethiopia. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 29–47). ASA, CSSA, and SSSA. DOI

3 Beah, A., Kamara, A. Y., Jibrin, J. M., Akinseye, F. M., Tofa, A. I., & Adam, A. M. (2021). Simulating the response of drought–tolerant maize varieties to nitrogen application in contrasting environments in the Nigeria Savannas using the APSIM model. Agronomy, 11, 76. https://doi.org/10.3390/agronomy11010076

4  Birnholz, C., Paul, B., Sommer, R., & Nijbroek, R. (2022). Modeling soil erosion impacts and trade‐offs of sustainable land management practices in the Upper Tana Region of the Central Highlands in Kenya. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 6–28). ASA, CSSA, and SSSA. doi 10.1002/9780891183891

5 Falconnier, G. N., Corbeels, M., Boote, K. J., Affholder, F., Adam, M., MacCarthy, D. S., Ruane, A. C., Nendel, C., Whitbread, A. M., Justes, É., Ahuja, L. R., Akinseye, F. M., Alou, I. N., Amouzou, K. A., Anapalli, S. S., Baron, C., Basso, B., Baudron, F., Bertuzzi, P., … Webber, H. (2020). Modelling climate change impacts on maize yields under low nitrogen input conditions in sub‐Saharan Africa. Global Change Biology, 26, 5942–5964. https://doi.org/10.1111/gcb.15261

6 Gao, X., Huo, Z., Qu, Z., & Tang, P. (2022). Modeling agricultural hydrology and water productivity to enhance water management in the Arid Irrigation District of China. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 104–133). ASA, CSSA, and SSSA. doi 10.1002/9780891183891

7 Jaradat, A. A., & Timlin, D. (2022). Constraints to productivity of subsistence dryland agroecosystems in the Fertile Crescent: Simulation and statistical modeling. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 155–189). ASA, CSSA, and SSSA. doi 10.1002/9780891183891

8 Ko, J., Jeong, S., Kim, H.‐Y., & Lee, B. (2022). Use of data and models in simulating regional and geospatial variations in climate change impacts on rice and barley in the Republic of Korea. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 134–154). ASA, CSSA, and SSSA. doi 10.1002/9780891183891

9 MacCarthy, D. S., Adiku, S. G. K., Kamara, A. Y., Freduah, B. S., & Kugbe, J. (2022). The role of crop simulation modeling in managing fertilizer use in maize production systems in northern Ghana. In D. Timlin (Ed.), Enhancing agricultural research and precision management for subsistence farming by integrating system models with experiments (pp. 48–68). ASA, CSSA, and SSSA. doi 10.1002/9780891183891