San Nyunt Nan | Sustainable Agriculture | Research Excellence Award

Published on by Plant Scientist

Ms. San Nyunt Nan | Sustainable Agriculture | Research Excellence Award

National Taiwan University | Taiwan

Nan San Nyunt is an agricultural professional from a farming community with a strong focus on climate-smart agriculture, crop modeling, and sustainable farming practices. She earned her M.Sc. in Global Agriculture Technology and Genomic Science from National Taiwan University, where she conducted research on climate change risk assessment and adaptation strategies for potato production in Myanmar using the DSSAT model. Her bachelor’s degree in Agricultural Science from Yezin Agricultural University involved experimental work on controlling root-knot nematodes in tomato crops. Nan has extensive experience working with NGOs and international organizations, leading farmer-centered initiatives, capacity-building programs, and agricultural innovation projects. She co-founded Taungthutada (TTTD), managing projects aimed at food security, women’s empowerment in agribusiness, and improving access to innovative agricultural services. Her roles include research assistant and teaching assistant at National Taiwan University, where she focuses on crop modeling, crop rotation simulations, and research manuscript preparation. She has presented her work at international conferences and published research on the impacts of climate change on potato production. Nan’s interests include crop modeling, agronomic research, climate adaptation strategies, and sustainable agricultural value chains. She has been recognized with the NTU-SEARCA Joint Scholarship for her academic and research excellence. Nan continues to bridge research and practice to advance climate-resilient agriculture.

Profile : Orcid

Featured Publication

Utpol Kumar | Soil Science | Best Researcher Award

Published on by Plant Scientist

Dr. Utpol Kumar | Soil Science | Best Researcher Award

Soil Resource Development Institute | Bangladesh

Dr. Utpol Kumar is a soil scientist with a PhD in Soil Science (Bangladesh Agricultural University, 2022), and earlier MSc (Horticulture, BAU, 2001) and BSc Agriculture (BAU, 1996). He has ~19 years of professional experience with the Soil Resource Development Institute (SRDI), Bangladesh, in roles spanning field-based soil survey & mapping, soil fertility monitoring, fertilizer & soil health card preparation, quality control of fertilizers, and extension/training work for sustainable agriculture. His research interest centers on sustainable and conservation agriculture (including residue retention), integrated nutrient management, soil classification and soil health, land and resource use mapping, and the influence of climatic change on soil fertility. He has authored over 10 international and 6 national peer-reviewed journal articles (among many other publications such as books, bulletins, proceedings), with a current h-index of 4, total citations of 47, and peer-review article count of 6. Awards include selected international trainings (e.g. “Writing for impact” at Murdoch University, agricultural project management in India) and successful projects in food security & soil component work. In conclusion, Dr. Kumar’s work contributes substantially to understanding and improving soil health and sustainable agricultural productivity in the South Asian tropics; his combination of field, laboratory, training and publication work positions him as a capable researcher-practitioner impacting both policy and farmer practice.

Profiles: Scopus | Orcid

Featured Publications

Maniruzzaman, M., Cheng, M., Eiti Mony, A. M., Islam, M. A., Kumar, U., Islam, M. J., Nasreen, S. S., Akhter, S., Jahiruddin, M., & Bell, R. W. (2025). Conservation agriculture increases system yield and improves phosphorus balance in rice-based intensive cropping systems. Soil Use and Management.

Kumar, U., Cheng, M., Islam, M. J., Maniruzzaman, M., Nasreen, S. S., Haque, M. E., Akhter, S., Jahiruddin, M., Bell, R. W., & Jahangir, M. M. R. (2025). Are recommended fertilizer rates able to maintain nutrient balance in soil and optimize crop profit in intensive rice-based crop rotations: Evidence from a 20-year study. Journal of Soil Science and Plant Nutrition.

Kumar, U. (2025, January 2). Are recommended fertilizer rates able to maintain nutrient status and balance in soil and optimize crop profit in intensive rice-based crop rotations: Evidence from a 20-year study [Conference abstract]. In Global Symposium on Soil Information and Data: Measure, Monitor, Manage.

Maniruzzaman, M., Cheng, M., Islam, A., Kumar, U., Islam, J., Nasreen, S. S., Haque, E., Akhter, S., Jahiruddin, M., & Bell, R. (2024). Conservation agriculture increases phosphorus pools and stock in the top 30 cm of soil: A three-year study on a subtropical legume–rice rotation. Soil Use and Management.

Kumar, U., Cheng, M., Islam, M. J., Maniruzzaman, M., Nasreen, S. S., Haque, M. E., Hossain, M. B., Jahiruddin, M., Bell, R. W., & Jahangir, M. M. R. (2024). Retention of crop residue increases crop productivity and maintains positive sulfur balance in intensive rice-based cropping systems. Journal of Soil Science and Plant Nutrition.