Eetela Sathyanarayana | Soil Science | Best Researcher Award

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Dr. Eetela Sathyanarayana | Soil Science | Best Researcher Award

Professor Jayashankar Telangana Agricultural University | India

Dr. Eetela Sathyanarayana is a highly accomplished agricultural scientist and Professor at Professor Jayashankar Telangana State Agricultural University, Hyderabad. His research primarily focuses on sustainable agriculture, soil fertility enhancement, integrated nutrient management, and plant responses to abiotic stresses. With expertise spanning crop improvement, microbial biocontrol, and nanotoxicology, he has contributed significantly to climate-smart agricultural practices. Dr. Eetela Sathyanarayana publications in reputed journals such as Scientific Reports, Chemosphere, and Frontiers in Plant Science reflect his dedication to advancing knowledge in soil–plant interactions, genotoxicity mechanisms, and eco-friendly pest management. He has authored influential book chapters and a book on ecosystem services, underscoring his interdisciplinary reach. As Chief Executive Editor of Nature Science Magazine, he actively promotes scientific discourse and innovation. With 12 publications, 167 citations, and collaborations with 82 co-authors worldwide, his scholarly impact and commitment to agricultural sustainability

Profile: Scopus | Orcid | Google Scholar | ResearchGate

Featured Publications

1. Banerjee, S., Rajput, P., Naz, I., Anand, V., Rajput, V. D., Sathyanarayana, E., Chauhan, A., Mandzhieva, S., Minkina, T., & Sousa, J. R. (2025). Nanoparticles and plant DNA damage: A review of genotoxic mechanisms and research outlook. Chemosphere.

2. Sathyanarayana, E. (2022). Ecosystem services: Types, management and benefits. Nova Science Publishers.

3. Sathyanarayana, E. (2022). Physiological mechanisms and adaptation strategies of plants under nutrient deficiency and toxicity conditions. In Plant Perspectives to Global Climate Changes (pp. [pages not specified]).

4. Sathyanarayana, E. (2022). Fungal endophytes to combat biotic and abiotic stresses for climate-smart and sustainable agriculture. Frontiers in Plant Science, 13, 953836.

5. Kumari, A., Sharma, B., Singh, B. N., Hidangmayum, A., Jatav, H. S., Chandra, K., Singhal, R. K., Sathyanarayana, E., Patra, A., & Mohapatra, K. K. (2021). Physiological mechanisms and adaptation strategies of plants under nutrient deficiency and toxicity conditions. In Plant Perspectives to Global Climate Changes: Developing Climate-Resilient Plants.

6. Sathyanarayana, E. (2021). Roles of nitric oxide in conferring multiple abiotic stress tolerance in plants and crosstalk with other plant growth regulators. Journal of Plant Growth Regulation.

David Clay | Soil Science Award | Best Researcher Award

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Prof Dr. David Clay | Soil Science Award | Best Researcher Award

Prof Dr. David Clay, South Dakota State University, United States

🌱 David Edward Clay, Distinguished Professor of Plant Science and holder of the SD Corn Endowed Chair in Precision Farming at South Dakota State University, is a leading expert in soil science and precision agriculture. With a Ph.D. in Soil Biogeochemistry, his research spans over 300 papers and numerous awards, including two ASA Precision Agriculture Systems Impact Awards. Clay’s work focuses on sustainable agricultural practices, including phytoremediation and carbon sequestration. As a prolific author and editor, he contributes significantly to agronomy literature. His dedication to advancing agricultural knowledge and training future generations is evident through his extensive teaching and leadership roles. 🌾

Publication Profile:

Scopus

Google Scholar

Education:

πŸŽ“ David Edward Clay’s academic journey began with a B.S. in Soil Science and Natural Resources from the University of Wisconsin in 1976. He furthered his studies with an M.S. in Soil Fertility from the University of Idaho in 1984, exploring nitrogen’s impact on strawberry production. Clay then pursued a Ph.D. in Soil Biogeochemistry at the University of Minnesota, St. Paul, focusing on the intricate relationships between nitrogen, tillage, residue management, and corn production. His post-doctoral research at the university’s Water Quality Center from 1988 to 1990 deepened his expertise. Clay’s commitment to continuous growth is evident in his completion of leadership training in 2010. 🌱

 

Awards:

πŸ† Throughout his illustrious career, David Edward Clay has amassed a collection of prestigious awards and accolades, affirming his dedication to excellence in agricultural research and education. From the Ag/Biol College Deans Award for Research Excellence in 1994 to the USDA-ARS Collaboration Award in 2006, Clay’s contributions have been consistently recognized. Notably, his promotion to Distinguished Professor in 2019 and selection as the SD Corn Endowed Chair in Precision Farming in 2022 underscore his significant impact on the field. Awards such as the PrecisionAG Award of Excellence and ASA Precision Agriculture Systems Impact Award further highlight Clay’s pioneering work in precision agriculture. 🌾

 

Research Focus:

πŸ”¬ David Edward Clay’s research focus primarily revolves around soil science, precision agriculture, and environmental sustainability. With a keen interest in soil properties and their interactions with agricultural practices, he explores topics such as nutrient management, soil health, and water stress responses in crops. Clay’s work delves into the application of innovative technologies like remote sensing and GIS in agriculture, aiming to enhance productivity while minimizing environmental impact. His expertise in soil-electrical conductivity and its correlation with soil properties underscores his commitment to advancing precision farming techniques. Through interdisciplinary approaches, Clay contributes significantly to optimizing agricultural systems for sustainable food production. 🌱

 

Publication Top Notes:

Relating apparent electrical conductivity to soil properties across the north-central USA 🌱 (2005) – Cited by 511
πŸ“š Phosphorus sorption and availability from biochars and soil/biochar mixtures 🌱 (2014) – Cited by 425
πŸ“š Cover crop and soil quality interactions in agroecosystems 🌱 (1998) – Cited by 337
πŸ“š Nitrate sorption and desorption in biochars from fast pyrolysis 🌱 (2013) – Cited by 252
πŸ“š Ammonia volatilization from urea as influenced by soil temperature, soil water content, and nitrification and hydrolysis inhibitors 🌱 (1990) – Cited by 201
πŸ“š Molecular characterization of biochars and their influence on microbiological properties of soil 🌱 (2014) – Cited by 177
πŸ“š Using soil electrical conductivity to improve nutrient management 🌱 (2003) – Cited by 162
πŸ“š Characterizing water and nitrogen stress in corn using remote sensing 🌱 (2006) – Cited by 159
πŸ“š Sewage sludge organic matter and soil properties 🌱 (1986) – Cited by 152
πŸ“š Do synergistic relationships between nitrogen and water influence the ability of corn to use nitrogen derived from fertilizer and soil? 🌱 (2008) – Cited by 140