Baoping Zhao | Agronomy | Editorial Board Member

Published on by Agri Scientist

Prof. Baoping Zhao | Agronomy | Editorial Board Member

Deputy Dean | Inner Mongolia agriculturial University | China

Prof. Baoping Zhao, a distinguished researcher at Neimenggu Agricultural University, Hohhot, China, is a leading specialist in crop science, stress physiology, and sustainable agronomy whose work advances resilient cereal production and soil–plant health. His research focuses on understanding plant responses to salinity, drought, heavy-metal stress, microplastic contamination, and nutrient limitations, while developing innovative strategies to improve oat, buckwheat, and wheat performance under challenging environmental conditions. Emerging interests include multi-omics–guided crop improvement and nature-based soil amendments that enhance both yield and ecological sustainability. With a strong record of 70 publications, over 430 citations, and an h-index of 10, he has contributed extensively through collaborative, high-impact studies. His professional experience spans key academic roles in plant science research, where he has led and co-led projects revealing how crops respond to salinity and drought stress, including integrated germination and field assessments that identify saline–alkali-tolerant oat germplasm, molecular insights into drought-responsive pathways using multi-omics tools, and proteomic analysis of root respiratory metabolism under salt stress. Among his notable contributions are breakthroughs in improving crop resilience, such as demonstrating how fulvic acid enhances oat growth and grain yield under water-deficit by regulating antioxidant systems and carbon assimilation, and how manganese–zinc fertilizers mitigate cadmium toxicity in wheat, reducing potential human-health risks through safer grain production practices. His work has also illuminated the environmental risks posed by microplastics in agricultural soils, showing their effects on soil properties and buckwheat performance, thus informing soil-health monitoring and sustainable land-management policies. Through open-access contributions that strengthen global scientific accessibility, his research findings support innovations in crop breeding, fertilizer management, and climate-adaptive agriculture, offering practical applications for both farmers and industry stakeholders. Driven by the vision of building resilient agroecosystems, Prof. Zhao aims to translate advanced plant-response knowledge into solutions that enhance food security, protect soil ecosystems, and promote sustainable agricultural transformation. His ongoing commitment to interdisciplinary collaboration positions him as a key contributor to global efforts in adapting agriculture to environmental change while supporting healthier, more productive cropping systems for future generations.

Profile: Scopus

Featured Publications

1. Effects of preservatives and drying methods on the nutrient composition and mould counts of hay and pellet processing of oats. Scientific Reports.

2. Testing of saline–alkali tolerance in oat germplasm through integrated germination and field performance assessments. Agronomy.

3. Potential impacts of microplastic particle size and type on soil properties and buckwheat performance. Agronomy.

4. Fulvic acid enhances oat growth and grain yield under drought deficit by regulating ascorbate–glutathione cycle, chlorophyll synthesis, and carbon-assimilation ability. Agronomy.

5. Foliar application of manganese–zinc fertilizer mitigated the harmful effects of cadmium on wheat and reduced human health risks. Sustainability.

Dr. Nagarathna TK | Plant Physiology | Excellence in Research Award

Published on by Agri Scientist

Dr. Nagarathna TK | Plant Physiology | Excellence in Research Award

Professor | University of Agricultural Sciences | India

Dr. T.K. Nagarathna currently serves as Professor of Crop Physiology and Scientific Officer to the Vice Chancellor at the University of Agricultural Sciences, Bangalore, where she also coordinates and heads the Project Planning and Monitoring Cell. She holds a B.Sc. and M.Sc. in Agriculture and a Ph.D. in Crop Physiology from the same university, followed by a Post-Doctoral Fellowship at the University of Florida, USA, under the prestigious Raman Fellowship Award. With a prolific academic portfolio, her research primarily focuses on crop modeling, stress physiology, plant variety protection, and climate resilience in agriculture. She has authored over 130 scientific publications, including 53 refereed journal articles, multiple technical bulletins, research notes, conference proceedings, and book chapters, alongside two published books—Protection and Registration of Plant Varieties in India (2023) and Plant Growth & Stress Physiology (2024). A seasoned research leader, Dr. Nagarathna has spearheaded numerous national projects funded by the PPV&FR Authority, RKVY, and other government agencies, addressing hybrid seed production, DUS characterization, molecular-assisted selection, and enhancement of oilseed and cereal crop productivity. Her academic mentorship includes guiding postgraduate and doctoral students while contributing to advisory committees across agricultural disciplines. An active contributor to institutional development, she has facilitated the establishment of key research infrastructures worth several crores, including Seed Health Testing Laboratories and advanced molecular facilities. Her international engagements span training and collaborative programs across Germany, the USA, the Philippines, and Turkey, emphasizing global integration in agricultural innovation. Recognized for her scientific excellence, she is the recipient of honors such as the IRRI-India Resident Fellowship and multiple national research awards. Dr. Nagarathna further extends her influence through significant editorial contributions, notably as Chief Editor of the Plant Variety Journal of India, a bilingual national journal published by the PPV&FR Authority under the Ministry of Agriculture and Farmers Welfare. She has organized and led numerous international webinars, workshops, and expert committee meetings, fostering advancements in genome editing, DUS guidelines, and plant breeders’ rights. A life member of several prestigious scientific societies, she remains a driving force in shaping agricultural policy, research innovation, and farmer-centric technology dissemination in India’s crop science landscape. She has 27 citations from 4 publications, with an h-index of 4.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Shashi, B. K., Sharan, S., & Hittalamani, S. (2007). Micronutrient composition, antinutritional factors, and bioaccessibility of iron in different finger millet (Eleusine coracana) genotypes. Karnataka Journal of Agricultural Science, 20(3), 583–585.

2. Nagarathna, M., Shankar, A. G., & Udayakumar. (2010). Assessment of genetic variation in zinc acquisition and transport to seed in diversified germplasm lines of rice (Oryza sativa L.). Journal of Agricultural Technology, 6(1), 171–178.

3. Nagarathna, T. M., Shadakshari, Y. G., & Ramanappa. (2011). Molecular analysis of sunflower (Helianthus annuus L.) genotypes for high oleic acid using microsatellite markers. Helia, 34, 63–68.

4. Nagarathna, Y. G., Prasad, T. G., Bagyaraj, D. J., & Shadakshari. (2007). Effect of vesicular arbuscular mycorrhiza and phosphorus levels on growth and water use efficiency in sunflower at different soil moisture status. International Journal of Agricultural Technology, 3(2), 221–229.

5. Nagarathna, K. T., Shadakshari, Y. G., Parama, V. R. R., & Jagadish. (2012). Examination of root characters, isotope discrimination, physiological and morphological traits and their relationship used to identify the drought tolerant sunflower. Helia, 35, 1–8.