Ramesh Kumar Sahni | Farm Machinery | Best Researcher Award

Published on by Natural Scientist Awards

Dr. Ramesh Kumar Sahni | Farm Machinery | Best Researcher Award

Scientist | ICAR-Central Institute of Agricultural Engineering, Bhopal | India

Dr. Ramesh Kumar Sahni is an accomplished researcher and scientist at ICAR-Central Institute of Agricultural Engineering (CIAE), Bhopal, with extensive experience in the fields of agricultural mechanization, precision agriculture, and automation in farming systems. His research primarily focuses on the design and development of advanced agricultural technologies, including automatic irrigation systems, high-speed seed metering mechanisms, automated soil nutrient sensing systems, and drone-based solutions for spraying, yield prediction, and plant disease detection. He has contributed significantly to the standardization and promotion of drone spraying systems for major crops such as wheat and maize, reflecting his commitment to sustainable and technology-driven agriculture. Dr. Sahni has a strong record of applied research outcomes, supported by numerous national and international awards, including the Young Scientist Award (2023), multiple Best Research Paper Awards, and recognition for innovation and excellence in agricultural engineering. His research publications address critical issues such as farm mechanization trends, energy-efficient crop residue management, and precision agrochemical application, contributing to the modernization of Indian agriculture. In addition to his research achievements, he has served as Associate Editor of the Journal of Agricultural Engineering (India) and as a reviewer for several reputed international journals, underscoring his leadership in scientific communication and peer review. His work bridges the gap between theoretical research and field-level implementation, promoting smart, sustainable, and data-driven farming solutions that enhance productivity, reduce resource consumption, and support the long-term transformation of agricultural practices in India and beyond.

Profile:  Scopus  |  ORCID Google Scholar  |  ResearchGate

Featured Publications

Tiwari, P. S., Singh, K. K., Sahni, R. K., & Kumar, V. (2019). Farm mechanization – trends and policy for its promotion in India. Indian Journal of Agricultural Sciences, 89(10), 1555–1562.

Sahni, R. K., Kumari, S., Kumar, M., Kumar, M., & Kumar, A. (2020). Status of Litchi cultivation in India. International Journal of Current Microbiology and Applied Sciences, 9(4), 1–10.*

Singh, R. S., & Sahni, R. K. (2019). Transformation of Indian agriculture through mechanization. Economic Affairs, 64(2), 297–303.*

Gatkal, N. R., Nalawade, S. M., Sahni, R. K., Walunj, A. A., Kadam, P. B., Bhanage, G. B., & others. (2024). Present trends, sustainable strategies and energy potentials of crop residue management in India: A review. Heliyon, 10(21), e00000.*

Sahni, R. K., Kumar, S. P., Thorat, D., Rajwade, Y., Jyoti, B., Ranjan, J., & Anand, R. (2024). Drone spraying system for efficient agrochemical application in precision agriculture. In Applications of computer vision and drone technology in agriculture 4.0 (pp. 225–244).

Farzad Rasouli | Abiotic Stress | Best Researcher Award

Published on by Natural Scientist Awards

Assoc. Prof. Dr. Farzad Rasouli | Abiotic Stress | Best Researcher Award

Researcher | University of Maragheh | Iran

Assoc. Prof. Dr. Farzad Rasouli is a highly accomplished researcher with over a decade of experience in plant physiology, breeding, and sustainable agriculture. His research primarily focuses on understanding the effects of arbuscular mycorrhiza on plant growth under both normal and stress conditions, with the broader goal of enhancing sustainable food production. Dr. Rasouli has authored nearly 60 peer-reviewed publications in high-impact international journals, earning 926 citations across 51 indexed documents and achieving an h-index of 18, which reflects the strong influence and consistency of his scholarly contributions. His expertise spans a wide range of experimental and analytical techniques, including vegetable production, grafting, in vitro culture, and the assessment of biochemical parameters such as photosynthetic pigments, proteins, carbohydrates, MDA, proline, and H₂O₂. He is also highly proficient in data analysis and modeling using R, SAS, SPSS, Minitab, and MSTATC, and has strong familiarity with bioinformatics platforms like Geneious Prime, MEGA11, Cytoscape, and CLC Genomic Workbench. Dr. Rasouli’s innovative research has explored plant responses to environmental stresses, nanomaterial interactions, and the development of biostimulants and nanocomposites for improved crop tolerance and productivity. Notable studies include work on salinity stress in tomato and grape, growth responses in lettuce under mycorrhiza inoculation, and the dual role of carbon nanotubes in plant physiology. Having also reviewed around 100 scientific papers, he actively contributes to advancing scientific rigor and dissemination in the field. His dedication, innovation, and impactful research position him as a leading figure in agricultural and plant science research.

Profile:  Scopus  |  ORCID  |  Google Scholar ResearchGate

Featured Publications

Gohari, G., Safai, F., Panahirad, S., Akbari, A., Rasouli, F., Dadpour, M. R., & Fotopoulos, V. (2020). Modified multiwall carbon nanotubes display either phytotoxic or growth promoting and stress protecting activity in Ocimum basilicum L. in a concentration-dependent manner. Chemosphere, 249, 126171.

Ostadi, A., Javanmard, A., Machiani, M. A., Morshedloo, M. R., Nouraein, M., Rasouli, F., & Maggi, F. (2020). Effect of different fertilizer sources and harvesting time on the growth characteristics, nutrient uptakes, essential oil productivity and composition of Mentha × piperita L. Industrial Crops and Products, 148, 112290.

Aazami, M. A., Rasouli, F., & Ebrahimzadeh, A. (2021). Oxidative damage, antioxidant mechanism and gene expression in tomato responding to salinity stress under in vitro conditions and application of iron and zinc. BMC Plant Biology, 21(1), 597.

Aazami, M. A., Maleki, M., Rasouli, F., & Gohari, G. (2023). Protective effects of chitosan-based salicylic acid nanocomposite (CS-SA NCs) in grape (Vitis vinifera cv. ‘Sultana’) under salinity stress. Scientific Reports, 13(1), 883.

Rasouli, F., Amini, T., Asadi, M., Hassanpouraghdam, M. B., & Aazami, M. A. (2022). Growth and antioxidant responses of lettuce (Lactuca sativa L.) to arbuscular mycorrhiza inoculation and seaweed extract foliar application. Agronomy, 12(2), 401.