Sayed Hemeda | Soil Science | Research Excellence Award

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Prof. Dr. Sayed Hemeda | Soil Science | Research Excellence Award

Cairo University | Egypt 

Sayed Hemeda is a distinguished scholar in architectural conservation and civil engineering, recognized for integrating advanced structural and geotechnical engineering principles with innovative heritage preservation methodologies. His work has significantly contributed to developing conservation protocols tailored to the complex conditions of archaeological sites, particularly within Egypt’s culturally rich landscape. With 42 published documents, an h-index of 12, and 378 citations, his research demonstrates strong scholarly impact and sustained international recognition. Hemeda’s contributions span high-quality journal publications, influential book chapters, and invited lectures that have strengthened global academic collaboration and elevated the visibility of Cairo University’s conservation programs. His leadership in interdisciplinary research has driven the adoption of engineering-based approaches to heritage preservation by leading institutions, while his involvement in major archaeological initiatives reflects a commitment to applying scientific principles to real-world conservation challenges. As an active member of international alliances and collaborative projects, he continues to promote research exchange and innovation within the field. Through his strategic academic leadership, project management expertise, and dedication to safeguarding cultural landmarks, Sayed Hemeda remains a transformative figure advancing sustainable and scientifically driven methodologies for the protection of cultural heritage.

Profiles : Scopus | Orcid 

Featured Publications

Hemeda, S. (2025). 3D stability modelling of Tutankhamen’s Tomb (KV62) using PLAXIS 3D with jointed rock model. npj Heritage Science.

Hemeda, S. (2024). Experimental and finite element assessment of stabilizing configurations for underground heritage sites. Heritage Science.

Hemeda, S. (2024). PLAXIS 3D numerical analysis of complex geotechnical problems of colossal built heritage. Heritage Science.

Hemeda, S. (2023). Influences of bulk structure of calcarenitic rocks on water storage and transfer in order to assess durability and climate change impact. Heritage Science.

Hemeda, S. (2022). Geotechnical modelling and subsurface analysis of complex underground structures using PLAXIS 3D. International Journal of Geo-Engineering.

Ningsheng Chen | Soil Science | Research Excellence Award

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Prof. Ningsheng Chen | Soil Science | Research Excellence Award

Yangtze University | China 

Ningsheng Chen is a second-level Professor and PhD supervisor recognized for his influential contributions to geological engineering, with a strong focus on debris flows, landslides, and mountain flood disasters. His research portfolio includes 210 publications, of which 151 are indexed documents supported by 2,098 citations from 1,739 citing records, reflecting an h-index of 24. He has authored five monographs and secured 25 patents and software copyrights, demonstrating a commitment to advancing both scientific understanding and practical innovation in hazard mitigation. His work has earned multiple national and provincial science and technology awards, and several of his research outputs have been acknowledged as major scientific advancements in ecological and environmental fields. As a Distinguished Talent of Changjiang University and a Kunlun Outstanding Talent, he has provided national-level expertise through 35 advisory reports and continues to lead significant scientific initiatives, including international cooperation programs and major natural disaster research projects. In addition to his research leadership, he contributes to academic governance as Chairman of the Mountain Branch of the Geographical Society of China and as a member of the National Standards Committee, reinforcing his role as a key figure in promoting scientific progress and disaster-risk reduction in mountainous regions.

Profiles : Scopus | Orcid 

Featured Publications

Wu, Z., Chen, N., Qing, L., Chen, X., Huang, N., & Zhang, Y. (2025). Typhoon–terrain synergy: A critical mechanism driving high-frequency flood disasters in the Beijing region. Water,

Wang, Z., Wen, T., Chen, N., & Tang, R. (2025). Assessment of landslide susceptibility based on the two-layer stacking model—A case study of Jiacha County, China. Remote Sensing,

Hou, R., Wu, M., Chen, N., Wu, K., Chen, X., She, D., Huang, N., & Xiao, M. (2025). Human settlements lie on paleolandslide deposits: Risk, evidence and formation of an ancient river-blocking landslide in the Jinsha River tributary, SE Tibetan Plateau. CATENA,

Peng, T., Chen, N., Hu, G., Tian, S., Ni, H., & Huang, L. (2025). New rulers for estimating the magnitude of catastrophic debris flows. Natural Hazards.

Han, Z., Xie, W., Zeng, C., Li, Y., Chen, G., Chen, N., Hu, G., & Wang, W. (2024). Modelling the temporal-varied nonlinear velocity profile of debris flow using a stratification aggregation algorithm in 3D-HBP-SPH framework. Journal of Mountain Science.

Zhong, Z., Chen, N., Hu, G., Han, Z., & Ni, H. (2024). High-tide hysteresis effect of low-frequency debris flow after earthquake: A case study of Xifan Gully. Bulletin of Engineering Geology and the Environment.

Yue Fu | Soil Ecology | Research Excellence Award

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Prof. Yue Fu | Soil Ecology | Research Excellence Award

Huanggang Normal University | China 

Fu Yue is a dedicated researcher specializing in animal taxonomy, molecular systematics, and closely related disciplines, with a strong record of scientific productivity and leadership. She has successfully led more than ten competitive research projects supported by major funding bodies, including national-level foundations, demonstrating her capacity to guide innovative investigations and coordinate multidisciplinary teams. Her scholarly output is extensive, with over forty journal articles published as a first or corresponding author, reflecting both consistent research activity and significant contributions to her field. In addition to these articles, she has authored three monographs that further expand the academic discourse in biodiversity and systematics research. Her citation profile also reflects the influence and reach of her work, with a total of 75 citations derived from 49 citing documents, underscoring the relevance of her contributions within the scientific community. Moreover, her publication portfolio includes 25 indexed documents, indicating sustained engagement in peer-reviewed scholarship. Her h-index of 5 highlights the growing impact of her studies through articles that continue to be referenced by other researchers. Overall, Fu Yue’s academic achievements showcase a strong blend of research leadership, scientific output, and measurable impact across multiple areas of biological science.

Profile : Scopus 

Featured Publications

Mao, B., Fang, X., Lei, H., Xiao, Y., & Fu, Y. (2025). Unexpected species diversity in the understanding of selenium-containing soil invertebrates. Scientific Reports.

Mao, B., Wang, Y.-Y., Li, S.-Y., Fu, Y., Xiao, Y.-L., & Wang, Y.-F. (2025). A potential role for the interaction of Wolbachia surface proteins with the Drosophila microtubulin in maintenance of endosymbiosis and affecting spermiogenesis. Journal of Insect Physiology.

Saliha Ahmad | Soil-Plant | Best Researcher Award

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Ms. Saliha Ahmad | Soil-Plant | Best Researcher Award

Saliha Ahmad | Case Western Reserve University | United States

Dr. Saliha Ahmad, a PhD candidate in Biology at Case Western Reserve University (Cleveland, Ohio), is an emerging researcher specializing in plant–microbe interactions, microbial ecology, and sustainable agriculture. Her scientific contributions focus on unraveling the mechanisms through which beneficial microbes enhance plant tolerance to environmental stress, combining molecular biology, bioinformatics, and field-based ecological approaches. She has co-authored 3 peer-reviewed publications, which have collectively received 125 citations across 123 documents, resulting in an h-index of 3—reflecting her growing impact in microbial and environmental sciences. Dr. Ahmad’s publications in high-quality journals such as Plant and Soil, Frontiers in Plant Science, and Environmental Science and Pollution Research explore microbial detoxification, biosorption, and plant–soil–microbe interactions. She is currently leading an innovative project supported by the Research Foundation of the American Rhododendron Society, aimed at developing microbiome-based bioinoculants (“Yogurt for your Plants”). Her strong command of molecular techniques, sequencing data analysis in R, and experimental design, coupled with awards like the Greer Memorial Conference Award (2024) and Oglebay Research Fund, highlight her excellence and potential as a future leader in sustainable plant–microbiome research.

Profile:  Scopus

Featured Publications

Ali, B., Hafeez, A., Ahmad, S., Javed, M. A., et al. (2022). Bacillus thuringiensis PM25 ameliorates oxidative damage of salinity stress in maize via regulating growth, leaf pigments, antioxidant defense system, and stress-responsive gene expression. Frontiers in Plant Science.

Partha Pratim Chakravorty | Soil Ecology | Soil Ecosystem Preservation Award

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Assoc. Prof. Dr. Partha Pratim Chakravorty | Soil Ecology | Soil Ecosystem Preservation Award

Assoc. Prof. Dr. Partha Pratim Chakravarthy, Raja Narendra Lal Khan Women’s College, India

Assoc. Prof. Dr. Partha Pratim Chakravorty is a renowned zoologist specializing in entomology and ecology at Raja Narendra Lal Khan Women’s College (Autonomous), Midnapore, India. With over 35 years of research experience and more than two decades of teaching, his work focuses on soil biodiversity, ecotoxicology, and bioremediation. A recipient of multiple national and international honors, Dr. Chakravorty is widely recognized for his contributions to environmental science and serves on editorial boards of several esteemed scientific journals.

Profile

Scopus

Summary:

Dr. Chakravorty is a deeply committed scholar whose research significantly advances our understanding and preservation of soil ecosystems. His innovative approaches to soil remediation and his long-standing academic contributions position him as a strong candidate for this award. His work not only contributes to scientific knowledge but also has clear implications for sustainable agriculture and environmental health.

🎓 Education

Dr. Partha Pratim Chakravorty holds a Ph.D. in Zoology from Visva Bharati, Santiniketan, West Bengal, awarded in 1991 for his research on the ecological hazards and residual toxicity of insecticides on non-target soil microarthropod fauna. He completed his Master of Science in Life Science with a specialization in Entomology in 1985 from the same institution. His academic journey began with a Bachelor of Science in Zoology from Burdwan University, West Bengal, in 1982.

💼Experience

Dr. Chakravorty has over 21 years of teaching experience at the undergraduate level and more than 17 years at the postgraduate level. His research career spans over 35 years, including six years of post-doctoral experience. He currently serves as an Associate Professor in the Postgraduate Department of Zoology at Raja Narendra Lal Khan Women’s College (Autonomous), Midnapore, West Bengal, India.

🔬Research Focus

His primary field of research is Soil Zoology, with specific interests in the effects of pesticides and heavy metal pollution on ecologically beneficial soil micro- and meso-fauna. He explores the utility of enzymatic and molecular biological techniques, such as gene sequencing of springtails and earthworms, as biomarkers for soil contamination. His work emphasizes the development of ecologically safe pesticide doses that promote soil biodiversity and sustainable crop productivity. He also investigates bioremediation techniques using gut content bacteria from earthworms to degrade pesticide residues and plastic pollutants like polythene and polypropylene in soil.

🛠️Skills

Dr. Chakravorty’s expertise spans ecology, entomology, environmental science, soil biodiversity, and bio-control. He is an editorial board member and associate editor for several international journals in zoology, ecology, and entomology. He is also an active peer reviewer for reputed international research journals, contributing significantly to the global scientific community.

🏆Awards

Dr. Chakravorty has been recognized with several prestigious awards including the Young Scientist Award from DST, New Delhi in 1991, and the Distinguished Scientist Award in Ecotoxicology from the National Environmental Science Academy in 2008. He received the Environmentalist Award in Ecology in 2013. He is a Fellow of multiple esteemed societies such as the Zoological Society, Kolkata, the International Congress of Entomology and Zoology Studies, the International Academy of Science and Research (IASR), and the National Environmental Science Academy. He is also a Member of the Royal Society of Biology, UK. In addition, he holds fellow memberships from GARNET and RsquareL, and contributes to global initiatives like the FAO UNO’s networks NETSOB (Soil Biodiversity) and INSOP (Soil Pollution).

📚 Publications

Title: Effects of carbaryl, chlorpyrifos and endosulfan on growth, reproduction and respiration of tropical epigeic earthworm, Perionyx excavatus (Perrier)
Year: 2012
Authors: R. Dasgupta, P.P. Chakravorty, A. Kaviraj
Journal: Journal of Environmental Science and Health, Part B

Conclusion:

Assoc. Prof. Dr. Partha Pratim Chakravorty is an outstanding and deserving candidate for the Research for Soil Ecosystem Preservation Award. His specialized focus, decades of experience, and recognized contributions to soil biodiversity and ecotoxicology make him a powerful advocate for soil health and sustainability.

Zhongfu Wang | Soil Biology | Best Researcher Award

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Mr. Zhongfu Wang | Soil Biology | Best Researcher Award

Mr. Zhongfu Wang, Beihang University, China

Mr. Zhongfu Wang is a researcher at Beihang University, China, specializing in soil microbiology, astrobiology, and life support technology for space exploration. His work focuses on developing bioregenerative systems for sustainable plant growth in extraterrestrial environments, including the Moon and Mars. He has pioneered innovations in waste recycling and plant–microbe interactions using lunar soil simulants and contributes to space agriculture experiments aboard the China Space Station.

Profile

Orcid

Summary:

Mr. Zhongfu Wang stands out for his pioneering work at the intersection of soil science and space biology, offering real-world applications for future lunar and Martian habitats. His research aligns perfectly with global scientific goals surrounding space colonization, sustainability, and ecological engineering. Despite being in an earlier phase of his research career, the quality and ambition of his work are strong indicators of long-term impact and leadership in the field.

🎓 Education

Zhongfu Wang is a dedicated researcher at the Institute of Environmental Biology and Life Support Technology, School of Biological Science and Medical Engineering, Beihang University. His academic journey centers on soil microbiology and astrobiology, with specialized expertise in life support technologies for manned deep space exploration and lunar ecology. He combines foundational scientific knowledge with applied research to support sustainable living systems beyond Earth.

💼Experience

Wang’s research bridges the gap between terrestrial ecological science and extraterrestrial applications. He has led and contributed to several high-impact projects, including improving lunar soil simulants for plant cultivation through earthworm-mediated organic waste integration and microbial synergy. His work extends to the physiological responses of soil fauna under variable magnetic fields, bioremediation in simulated lunar gravity aboard the China Space Station, and microbial adaptation studies in near-space Mars analog environments.

🔬Research Focus

His primary research areas include soil microbiology, astrobiology, life support technologies for manned deep space missions, and lunar ecology. He is particularly known for developing ecological methods to convert lunar regolith into fertile media, integrating organic waste recycling with plant–microbe interactions for use in space habitats.

🛠️Skills

Wang’s skill set includes designing and executing complex biological experiments in space-simulated conditions. He has contributed a patent on an experimental method for exposing microorganisms in near-space environments and has published peer-reviewed work that showcases his innovative approach to soil improvement for extraterrestrial agriculture. His research continues to push boundaries in space biosciences and environmental engineering for long-term human spaceflight.

🏆Awards

Zhongfu Wang has been nominated for the Best Researcher Award by the International Soil Scientist Awards committee, recognizing his pioneering role in advancing space agriculture and bioregenerative life support systems.

📚 Publications

Title: Improving Lunar Soil Simulant for Plant Cultivation: Earthworm-Mediated Organic Waste Integration and Plant–Microbe Interactions
Authors: Zhongfu Wang
Year: 2025
Journal: Plants

Conclusion:

Mr. Zhongfu Wang is a highly suitable candidate for the Best Researcher Award. With continued support and recognition, he is poised to become a leading figure in space-agriculture and soil microbiome research for extraterrestrial environments.