Saad Hussein | Agricultural and Biological Sciences | Research Excellence Award

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Saad Hussein | Agricultural and Biological Sciences | Research Excellence Award

Mansoura University, Faculty of Agriculture | Egypt

Prof. Dr. Saad Farouk Mohamed Hussein is an accomplished academic in the field of plant sciences, with specialization in plant physiology, anatomy, and taxonomy. He is affiliated with the Agricultural Botany Department at the Faculty of Agriculture, Mansoura University, Egypt. His research contributions are substantial, with over 60 scientific publications spanning high-impact international journals, national journals, and conference proceedings. His work primarily focuses on plant responses to environmental stresses, particularly salinity, and the physiological and structural adaptations of crops. He also possesses strong experience in quality assurance and accreditation in higher education, alongside proficiency in computer applications and statistical analysis, supporting both his research and academic responsibilities.

Citation Metrics (Scopus)

1200900

600

300

0

Citations
1,081
Documents
31
h-index
18

 

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Featured Publications & Academic Impact


Exploring the Roles of Zeolite and Titanium on Physio-Anatmical Responses, Nutrient Uptake, and Yield Quality of Potato (Solanum Tuberosum L. Cy. Spunta)

– Journal of Soil Science and Plant Nutrition, 2025

Exogenous α-tocopherol improves growth and some physio-biochemical responses of chia seeds

– Scopus Indexed, 2025

Effects of cadmium, copper, and zinc on germination and post-germination growth of chia seeds

– Journal of Central European Agriculture, 2025

Amanpreet K. Sidhu | Agricultural and Biological Sciences | Best Researcher Award

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Amanpreet K. Sidhu | Agricultural and Biological Sciences | Best Researcher Award

Khalsa College for Women | India

Dr. Amanpreet Kaur Sidhu is an accomplished Assistant Professor and researcher with over fourteen years of academic experience in biotechnology, spanning teaching, research, and departmental leadership across reputed institutions in India. Her expertise lies in bio-nanotechnology, bioprocess engineering, and recombinant DNA technology, with significant contributions to nanoparticle synthesis, characterization, and their applications in agriculture and environmental sustainability. She is highly proficient in advanced molecular techniques, including DNA isolation, PCR, Southern blotting, RFLP, transformation, and in handling fermenters for the production of enzymes, bioactive compounds, and other valuable metabolites. Her diverse research portfolio encompasses enzyme purification and characterization, enzyme-based bioremediation, endophytic fungi with biotechnological potential, metabolite production through fermentation, antidiabetic studies of medicinal plants, and biological control applications involving invasive species such as water hyacinth. With a strong publication record that includes impactful research articles, reviews, and book chapters, she has earned over 800 citations with notable h-index and i10-index scores, reflecting her scientific influence. She has served as Guest Associate Editor for Frontiers in Nanotechnology and continues to contribute as an editor and reviewer for leading international journals. A dedicated mentor, she has guided numerous postgraduate and undergraduate research projects and has played vital roles in organizing national and international conferences, seminars, workshops, and academic events. She has also contributed to academic development through her involvement in curriculum committees, laboratory management, value-added course coordination, and initiatives under the DBT Star College Scheme. Recognized for her strong administrative capabilities, innovative academic contributions, and commitment to scientific advancement, Dr. Sidhu remains a driving force in fostering research excellence and interdisciplinary growth in the field of biotechnology.

Profile: Scopus | Orcid 

Featured Publications

Sidhu, A. K., Sharma, M., Shah, P., & Sandhu, S. K. (2025). CRISPR and RNA interference: Revolutionary tools for extending food shelf life and ensuring safety. Frontiers in Food Science and Technology, 5, 1609948.

Sidhu, A. K., Patil, S. N., & Gaikwad, V. B. (2025). Enhanced glyphosate degradation using laccase-immobilized magnetic iron oxide nanoparticles: A comparative study. Journal of Environmental and Water Nanotechnology, 10(2), 1–11.

Sidhu, A. K., Verma, N., Kaushal, P., & Agrawal, S. (2025). Fungal-mediated synthesis of multimetallic nanoparticles: Mechanisms, unique properties, and potential applications. Frontiers in Nanotechnology, 7, 1549713.

Sharma, M., Sidhu, A. K., Samota, M. K., Shah, P., Pandey, M. K., & Gangurde, S. S. (2024). Technological advancements in the CRISPR toolbox for improving plant salt tolerance. Discover Agriculture, 2(1), 1–31.

Kaur, K., Sidhu, A. K., & Brar, N. K. (2024). Bioactives in soybean: Health implications and transgenic improvement. Agrica.

Sidhu, A. K., Sharma, M., Agrawal, S. B., Bhavsar, P. P., & Samota, M. K. (2024). Nanomaterial strategies for enhancing plant resilience in the face of temperature stress. CABI Agriculture and Bioscience, 5(1), 60.

Antonio Borghese | Agricultural and Biological Sciences | Distinguished Scientist Award

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Antonio Borghese | Agricultural and Biological Sciences | Distinguished Scientist Award

International Buffalo Federation | Italy

Professor Dr. Antonio Borghese, is an eminent Italian scientist renowned for his pioneering contributions to animal production and buffalo research. He earned degrees in Biological Sciences and Veterinary Medicine with top honors, followed by a professional qualification as a veterinarian  and a teaching diploma in Animal Production. His distinguished career began at the Istituto Superiore di Sanità in Rome and continued as a researcher and later Research Director at the Animal Production Research Institute (Istituto Sperimentale per la Zootecnia) in Monterotondo, where he also served as General Director and Director of the Animal Management and Buffalo Department. Professor Borghese has coordinated numerous national and international projects on livestock development, reproduction, and buffalo improvement, significantly advancing animal production systems. A prolific author, he has published over 413 scientific papers and six influential books, including the FAO monograph Buffalo Production and Research and Buffalo Livestock and Products. He has also edited the IDF Bulletin on Milking Management of Dairy Buffaloes and organized major global congresses in buffalo science. As General Secretary of the International Buffalo Federation (IBF) and Coordinator of the FAO Inter-Regional Cooperative Research Network on Buffalo, he has played a central role in promoting buffalo development worldwide through research, education, and international collaboration. Professor Borghese’s lifelong dedication has made him one of the world’s foremost authorities in buffalo science and sustainable animal production.

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Featured Publications

Sgro, L. A., Basile, G., Barone, A. C., D’Anna, A., Minutolo, P., Borghese, A., … (2003). Detection of combustion formed nanoparticles. Chemosphere, 51(10), 1079–1090.

Borghese, A., & Merola, S. S. (1998). Time-resolved spectral and spatial description of laser-induced breakdown in air as a pulsed, bright, and broadband ultraviolet–visible light source. Applied Optics, 37(18), 3977–3983.

Sgro, L. A., Borghese, A., Speranza, L., Barone, A. C., Minutolo, P., Bruno, A., … (2008). Measurements of nanoparticles of organic carbon and soot in flames and vehicle exhausts. Environmental Science & Technology, 42(3), 859–863.

Borghese, A., D’Alessio, A., Diana, M., & Venitozzi, C. (1989). Development of hot nitrogen kernel, produced by a very fast spark discharge. Symposium (International) on Combustion, 22(1), 1651–1659.

D’Alessio, A., Di Lorenzo, A., Borghese, A., Beretta, F., & Masi, S. (1977). Study of the soot nucleation zone of rich methane-oxygen flames. Symposium (International) on Combustion, 16(1), 695–708.

Borghese, A., Canevari, R., Donati, V., & Garifo, L. (1981). Unstable–stable resonators with toroidal mirrors. Applied Optics, 20(20), 3547–3552.

Guoping Zhang | Agricultural and Biological Sciences | Most Cited Article Award

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Guoping Zhang | Agricultural and Biological Sciences | Most Cited Article Award

Zhejiang University | China

Dr. Guoping Zhang, is a distinguished Professor in the Department of Agronomy at Zhejiang University, China, with a prolific career in plant science spanning over four decades. He earned his Bachelor and Master degrees from Zhejiang Agricultural University and his Ph.D.  from Zhejiang University. Beginning his academic journey as an Assistant Lecturer, he rapidly advanced to Professor  and has been a leading faculty member at Zhejiang University. Dr. Zhang’s research primarily focuses on the molecular physiology of stress tolerance in crops, development and evaluation of barley germplasm with high nutrient use efficiency and tolerance to abiotic stresses such as salinity, drought, and acidic soils, as well as the molecular mechanisms governing heavy metal accumulation and tolerance in plants. Over the past two decades, he has successfully led more than research projects, including funded by the China Natural Science Foundation, and published over peer-reviewed papers in high-impact journals such as Nature and PNAS, accumulating citations with an h-index of 69. Beyond his research, Dr. Zhang has contributed significantly to the scientific community, serving as chairman of the International Barley Genetics Symposium and as an editorial board member for leading journals, including Journal of Agronomy and Crop Science, Plant Growth Regulation, and Journal of Integrative Agriculture. His work bridges fundamental molecular research and applied crop improvement, with a strong emphasis on phytoremediation and sustainable crop production, making him a globally recognized leader in plant stress biology and agronomy.

Profile: Orcid | Scopus

Featured Publications

  • Fu, L. B., Shen, Q. F., Kuang, L. H., Wu, D. Z., & Zhang, G. P. (2019). Transcriptomic and alternative splicing analyses reveal mechanisms of the difference in salt tolerance between barley and rice. Environmental and Experimental Botany, 166, 103810.

  • Ye, L. Z., Wang, Y., Long, L. Z., Luo, H., Shen, Q. F., Broughton, S., Wu, D. X., Shu, X. L., Dai, F., Li, C. D., & Zhang, G. P. (Year). A trypsin family protein gene regulates tillering and leaf shape in barley. Plant Physiology, 181, 701–713.

  • Huang, L., Kuang, L. H., Wu, L. Y., Shen, Q. F., Han, Y., Jiang, L. X., Wu, D. Z., & Zhang, G. P. (2020). The HKT transporter HvHKT1;5 negatively regulates salt tolerance. Plant Physiology, 182, 584–596.

  • Shen, Q. F., Fu, L. B., Su, T. T., Ye, L. Z., Huang, L., Kuang, L. H., Wu, L. Y., Wu, D. Z., Chen, Z. H., & Zhang, G. P. (2020). Calmodulin HvCaM1 negatively regulates salt tolerance via modulation of HvHKT1s and HvCAMTA4. Plant Physiology, 183, 1650–1662.

  • Cai, S. G., Shen, Q. F., Huang, Y. Q., Han, Z. G., Wu, D. Z., Chen, Z. H., Nevo, E., & Zhang, G. P. (2021). Multi-omics analysis reveals the mechanism underlying the edaphic adaptation in wild barley at evolution slope (Tabigha). Advanced Science.