Guanghao Li | Crop Science | Research Excellence Award

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Dr. Guanghao Li | Crop Science | Research Excellence Award

Yangzhou University | China

Li Guanghao is an accomplished crop scientist specializing in maize cultivation, yield and quality formation, and stress physiology. He earned his B.Sc. in Seed Science and Engineering at Shandong Agricultural University, followed by a Ph.D. in Crop Cultivation and Tillage at the same institution. After completing a postdoctoral fellowship, he joined the College of Agriculture at Yangzhou University, where he currently serves as an Associate Professor and supervisor of master’s students. Over his career, he has conducted extensive research into improving maize yield, nitrogen use efficiency, and quality, especially under challenging environmental conditions such as weak light stress, through optimizing fertilization and cultivation practices. His projects include national and provincial grants investigating physiological mechanisms underlying yield and quality formation, slow-release fertilizer application, and stress mitigation in waxy maize. He has received recognition for his doctoral dissertation as an outstanding thesis in Shandong Province. His research interest centers on maize physiology, agronomic management, abiotic stress tolerance, and sustainable crop production. With sustained publication output, teaching and mentorship experience, and practical application of research findings, he continues contributing to crop science and promoting high-efficiency, high-quality maize production.

Profile: Orcid

Featured Publications

Liu, J., Li, J., Guo, J., Yang, H., Li, G., & Lu, D. (2025, November 26). Application of exogenous 24-Epibrassinolide at the silking stage alleviates the effects of post-silking heat stress on photosynthetic performance of waxy maize. Agriculture.

Liang, Y., Liu, Q., Zeng, J., Xiong, F., Guo, J., Li, G., & Lu, D. (2024, October 23). Optimizing nitrogen input increased yield and efficiency in maize-soybean strip intercropping system. Agronomy.

Jiang, C., Liang, Y., Wang, Y., You, G., Guo, J., Lu, D., & Li, G. (2024, September 24). Effects of sulfur application on the quality of fresh waxy maize. Plants.

Sun, H., Li, W., Liang, Y., & Li, G. (2023, April 23). Shading stress at different grain filling stages affects dry matter and nitrogen accumulation and remobilization in fresh waxy maize. Plants.

Li, G., Wang, L., Li, L., Lu, D., & Lu, W. (2020, January). Effects of fertilizer management strategies on maize yield and nitrogen use efficiencies under different densities. Agronomy Journal.

Babar Iqbal | Plant Physiology | Editorial Board Member

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Assoc. Prof. Dr. Babar Iqbal | Plant Physiology | Editorial Board Member

Jiangsu University | China

Assoc. Prof. Dr. Babar Iqbal is an environmental biotechnologist at Jiangsu University (School of Environment & Safety Engineering) in China, whose work addresses major challenges in agroecosystems such as microplastic pollution, soil microbial health, and toxic metal stress. He leads projects on the mechanisms by which microplastic contamination affects crop physiology, soil microbial metabolism, and carbon‐use efficiency, including investigations on wheat  under cadmium stress. He co-authored an open-access Frontiers Ecology & Evolution paper on how soil microplastics affect Oryza sativa root traits under alien plant invasion. His other recent research includes the regulation of soil microbial metabolism through changes in plant communities in wetlands. On his university profile, he is noted as the principal investigator of a major project (2024–25) investigating the combined effects of microplastic and invasive plant contamination on wheat. His research interests center on sustainable agriculture, soil ecotoxicology, microbial ecology, and bio-remediation of polluted soils. Dr. Iqbal has contributed to both fundamental research and applied strategies, such as biochar-based remediation of contaminated soils. He also serves as corresponding author on several high-impact review articles, reflecting leadership in his field. Overall, his work is helping to build more resilient, sustainable agricultural systems in the face of emerging environmental threats.

Profile: Google Scholar

Featured Publications

Nazir, M. J., Li, G., Nazir, M. M., Zulfiqar, F., Siddique, K. H. M., Iqbal, B., & Du, D. (2024). Harnessing soil carbon sequestration to address climate change challenges in agriculture. Soil and Tillage Research.

Iqbal, B., Zhao, T., Yin, W., Zhao, X., Xie, Q., Khan, K. Y., Zhao, X., Nazar, M., Li, G., … (2023). Impacts of soil microplastics on crops: A review. Applied Soil Ecology.

Iqbal, B., Li, G., Alabbosh, K. F., Hussain, H., Khan, I., Tariq, M., Javed, Q., … (2023). Advancing environmental sustainability through microbial reprogramming in growth improvement, stress alleviation, and phytoremediation. Plant Stress.

Zahoor, R., Zhao, W., Dong, H., Snider, J. L., Abid, M., Iqbal, B., & Zhou, Z. (2017). Potassium improves photosynthetic tolerance to and recovery from episodic drought stress in functional leaves of cotton (Gossypium hirsutum L.). Plant Physiology and Biochemistry.

Nazar, M., Xu, L., Ullah, M. W., Moradian, J. M., Wang, Y., Sethupathy, S., Iqbal, B., … (2022). Biological delignification of rice straw using laccase from Bacillus ligniniphilus L1 for bioethanol production: A clean approach for agro-biomass utilization. Journal of Cleaner Production

Rameswar Prasad Sah | Plant Breeding | Outstanding Scientist Award

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Dr. Rameswar Prasad Sah | Plant Breeding | Outstanding Scientist Award

ICAR-Central Rice Research Institute | India

Dr. Rameswar Prasad Sah is a Senior Scientist at the ICAR–National Rice Research Institute (NRRI), Cuttack, specializing in Genetics and Plant Breeding with a research focus on molecular breeding, direct-seeded rice, and the development of early-maturing, high-yielding rice varieties. He earned his B.Sc. (Agri.) with honours from IGKV, Raipur, and completed both his M.Sc. and Ph.D. in Plant Breeding and Genetics from Birsa Agricultural University, Ranchi, where he was the academic topper of his batch. With over 22 h-index, 46 i10-index, 1759 citations, and more than 120 scientific documents, Dr. Sah has made significant contributions to rice genomics, QTL mapping, and marker-assisted breeding. His research integrates physiological, molecular, and genomic tools to enhance stress tolerance and productivity in rice. He has co-authored several high-impact papers in journals such as Field Crops Research, Scientific Reports, and BMC Plant Biology, and contributed to numerous books and NRRI bulletins. His dedication to advancing sustainable rice production has been recognized through awards such as “Best Oral Presentation” at the 13th National Seed Congress (2024). Dr. Sah continues to contribute to national breeding programs and genomic innovations aimed at ensuring food security and climate-resilient rice cultivation in India.

Profiles: Scopus | Google Scholar | Orcid

Featured Publications

Mohanty, S., Das, S., Panda, D., Choudhury, N. K., Mishra, B., Jena, R. K., Sah, R. P., Chandrappa, A. K., Navadagi, D. B., Raj, R. K. R., et al. (2025, September 29). Identification of novel quantitative trait loci and candidate genes associated with grain yield and related traits under low-light stress conditions in rice. Biomolecules.

Snehi, S., Singh, P. K., Beena, R., Kota, S., Sanwal, S. K., Ravi Kiran, K. T., Anilkumar, C., Chattopadhyay, K., Prakash, N. R., & Sah, R. P. (2025, June). QTL-meta-analysis and candidate gene(s) for anaerobic germination potential in rice. Journal of Plant Growth Regulation.

Anilkumar, C., Sah, R. P., Muhammed Azharudheen, T. P., Behera, S., Mohanty, S. P., Anandan, A., Marndi, B. C., & Samantaray, S. (2025, March). Integrating multi-trait genomic selection with simulation strategies to improve grain yield and parental line selection in rice. Annals of Applied Biology.

Sahoo, U., Biswal, M., Nayak, L., Kumar, R., Tiwari, R. K., Lal, M. K., Bagchi, T. B., Sah, R. P., Singh, N. R., Sharma, S., et al. (2025, March 30). Rice with lower amylose content could have reduced starch digestibility due to crystallized resistant starch synthesized by linearized amylopectin. Journal of the Science of Food and Agriculture.

Anilkumar, C., Sah, R. P., Beena, R., Muhammed Azharudheen, T. P., Kumar, A., Behera, S., Sunitha, N. C., Pradhan, S. K., Raj, K. R. R., Parameswaran, C., et al. (2023, August). Conventional and contemporary approaches for drought tolerance rice breeding: Progress and prospects. Plant Breeding.

Syed Inzimam Ul Haq | Plant Physiology | Best Researcher Award

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Mr. Syed Inzimam Ul Haq | Plant Physiology | Best Researcher Award

Masaryk University, Czech Republic

Dr. Syed Inzimam Ul Haq is a passionate plant physiologist and PhD candidate at Masaryk University, Czechia, specializing in the analysis of photosynthetic activity using advanced biophysical methods such as in vivo chlorophyll fluorescence and spectral reflectance. With over 3 peer-reviewed publications and a strong research portfolio, he has an h-index of 1, over 13 citations. He holds an M.Phil. and BS in Botany from Islamia College Peshawar, Pakistan, and currently serves as a part-time cooperating staff member at the Department of Experimental Biology, Masaryk University. He has previously worked as a Lab Assistant and a Biology Teacher in Pakistan. His research interests include plant stress physiology, chlorophyll fluorescence, nanotechnology, CRISPR genome editing, and sustainable agriculture. He has presented his work at national and international conferences and mentored multiple undergraduate and postgraduate students. Notable projects include studies on the phytoremediation potential of crops and the physiological adaptation of plants under space-mimicking environments like Antarctic regolith. With a consistent Q1 publication record and international collaborations, Dr. Haq is committed to advancing knowledge in plant science and making impactful contributions to global agricultural sustainability.

Profiles: Scopus | Google Scholar

Featured Publications

Haq, S. I. U., Hájek, J., & Barták, M. (2025). From Antarctic regolith to lunar greenhouses: Mechanistic insights into Brassica rapa Photosystem II dynamics for sustainable space agriculture. Life Sciences in Space Research.

Haq, S. I. U., Tariq, F., Sama, N. U., Jamal, H., & Mohamed, I. H. (2025). Role of autophagy in plant growth and adaptation to salt stress. Planta, 261, 49.

Ullah, Z., Haq, S. I. U., Ullah, A., Asghar, M. A., Seleiman, M. F., Saleem, K., Zeng, F., Sama, N. U., Kamran, K., & Ahmad, S. (2024). Effect of green synthesized silver nanoparticles on growth and biochemical profile of Pearl millet under NaCl stress. Environment, Development and Sustainability, 1–20.

Haq, S. I. U., Zheng, D., Feng, N., Jiang, X., Qiao, F., He, J. S., & Qiu, Q. S. (2022). Progresses of CRISPR/Cas9 genome editing in forage crops. Journal of Plant Physiology, 179, 153860.

Xie, Y., Haq, S. I. U., Jiang, X., Zheng, D., Feng, N., Wang, W., He, J.-S., & Qiu, Q. S. (2022). Plant genome editing: CRISPR, base editing, prime editing, and beyond. Grassland Research, 1–10.

 

Urjashi Bhattacharya | Agronomic Practices | Best Researcher Award

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Assist. Prof. Dr. Urjashi Bhattacharya | Agronomic Practices | Best Researcher Award

The Neotia University | India

Dr. U. Bhattacharya is an agronomy scholar and educator with a doctoral degree specializing in conservation agriculture, climate-smart farming, and integrated nutrient management. Over four years as a university research scholar, she has conducted intensive research on rice–pulse cropping systems, focusing on enhancing ecosystem services (soil, air, and water) in the Gangetic Plains through sustainable agronomic practices. Her M.Sc. work examined the effects of nitrogen levels on a heat-tolerant potato variety, while her Ph.D. thesis explored the management of rice followed by lentil under conservation tillage and varying nutrient doses. She participated in the SRFSI project (in collaboration with ACIAR) in the Eastern Gangetic Plains, gaining experience in resilient farming system intensification. Dr. Bhattacharya is proficient in experiment planning, statistical analysis, instrument handling, and scientific communication, and has presented her research at several national and international seminars on soil health, sustainable agriculture, agrochemicals, climate resilience, and biodiversity. She has published multiple peer-reviewed papers in crop science and agronomy, holds an h-index of 4 with six publications and 294 citations, and has received certificates of excellence in peer review along with a design patent for a portable crop diagnostic spectrometer. Passionate about advancing agricultural education and research, she aspires to excel as a faculty member in plant science academia, inspiring students through innovative teaching and pursuing high-impact interdisciplinary research in sustainable agriculture.

Profiles: Scopus | Google Scholar

Featured Publications

Bhattacharya, U., & Sarkar, S. (2018). Conservation agriculture: A climate-smart approach to achieve zero hunger. Current Advances in Agricultural Sciences, 18(2), 78–83.

Bhattacharya, U., Saha, A., & Saha, A. (2019). Response of heat tolerant variety (Kufri Surya) of potato (Solanum tuberosum) under different levels of nitrogen. Current Journal of Applied Science and Technology, 37(1), 1–7.

Bhattacharya, U., Sarkar, S., & Dewanjee, S. (2019). Bio-efficacy evaluation of oxyfluorfen 23.5% EC for controlling weeds in potato crop. Journal of Crop and Weed, 15(3), 201–208.

Maitra, S., Hossain, A., Brestic, M., Skalicky, M., Ondrisik, P., Gitari, H., Brahmachari, K., Shankar, T., Bhadra, P., Palai, J. B., Jena, J., Bhattacharya, U., Duvvada, S. K., Lalichetti, S., & Sairam, M. (2021). Intercropping—A low input agricultural strategy for food and environmental security. Agronomy, 11(2), 1–28.

Bhattacharya, U., Naskar, M. K., Venugopalan, V. K., Sarkar, S., Bandopadhyay, P., Maitra, S., Gaber, A., Alsuhaibani, A. M., & Hossain, A. (2023). Implications of minimum tillage and integrated nutrient management on yield and soil health of rice-lentil cropping system – being a resource conservation technology. Frontiers in Sustainable Food Systems, 7, Article 1225986.