Minxi Wu | Soil Biology | Soil Remediation Innovation Award

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Mr. Minxi Wu | Soil Biology | Soil Remediation Innovation Award

Hunan Academy of Agricultural Sciences | China

Minxi Wu’s research profile highlights a focused and impactful contribution within a specialized scientific field, demonstrated through 3 published documents and 97 citations, reflecting strong academic recognition and relevance. Despite a limited number of publications, the work has achieved notable scholarly influence, supported by an h-index of 3, indicating that multiple studies have been consistently cited by other researchers. This showcases the quality, credibility, and applicability of the research outputs. The citation count emphasizes the significance of the work in advancing scientific understanding and addressing key environmental and agricultural challenges through innovative approaches. Each publication contributes meaningfully to the field, gaining attention across related disciplines and supporting ongoing research efforts. The balance between productivity and influence illustrates a research trajectory grounded in precision, scientific rigor, and practical relevance. Overall, the combination of documents, citations, and h-index reflects a promising and steadily growing research profile with continued potential for broader academic impact.

Citation Metrics (Scopus)

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97

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3

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3

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Decontamination of multiple heavy metals-containing effluents through microbial biotechnology

– Journal of Hazardous Materials

Dan Han | Soil Science | Soil Microbiology Research Achievement

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Assoc. Prof. Dr. Dan Han | Soil Science | Soil Microbiology Research Achievement

Henan Agricultural University | China

Han Dan’s research achievements in soil microbiology reflect a significant contribution to understanding the complexity of soil ecosystems and their role in sustainable agriculture. Her work primarily focuses on soil microbial communities and their functional roles in nutrient cycling, particularly nitrogen dynamics, which are essential for improving soil fertility and crop productivity. She has extensively explored plant–microbe interactions within the rhizosphere, highlighting how microbial diversity and activity influence nutrient availability, soil health, and plant resilience under various environmental stresses. Her research integrates advanced microbiological and molecular approaches to assess how agricultural practices shape microbial structure and function, offering practical insights for enhancing soil sustainability. With 39 scientific documents, 1,197 citations across 1,089 citing documents, and an h-index of 17, her scholarly output demonstrates strong academic impact and recognition within the global scientific community. Her contributions support the development of environmentally friendly soil management strategies, promoting efficient resource use and long-term agricultural sustainability while advancing the broader field of soil microbiology.

Citation Metrics (Scopus)

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1197

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17

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Featured Publications


Biochar-Based Microbial Fertilizer Enhances Yield and Quality of Flue-Cured Tobacco through Rhizosphere Nutrient and Microbial Regulation


– Annals of Microbiology, 2026


NtWRKY70-Driven Resistance to Black Stem Disease via Coordinated Antioxidant Response and Defence Gene Activation


– Plant Pathology, 2026


Combined use of green fertilizer and soil conditioner improves soil physicochemical properties, microbial community structure and tobacco quality in continuous cropping


– Annals of Microbiology, 2025

Nurzhanova Assil | Soil | Women Researcher Award

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Prof. Nurzhanova Assil | Soil | Women Researcher Award

Institute of Plant Biology and Biotechnology | Kazakhstan

Assil Nurzhanova is a distinguished Principal Researcher Associate at the Laboratory of Plant Physiology and Biochemistry, Institute of Plant Biology and Biotechnology, with a prolific career in plant science, genetics, and soil bioremediation. Her research primarily focuses on phytoremediation technologies, plant-microbe interactions, and sustainable strategies for detoxifying soils contaminated with heavy metals, pesticides, and other xenobiotics. She has led and contributed to numerous high-impact projects, including the development of biochar-based decontamination technologies, PGPR-assisted phytomanagement approaches, and field-scale microbe-assisted soil remediation initiatives, collaborating with national and international agencies such as the FAO and NATO. Over the years, Assil Nurzhanova’s work has resulted in 360 citations across 21 documents, reflecting an h-index of 13, which highlights the significant influence and recognition of her research within the scientific community. Her studies integrate innovative bioenergy “zero-waste” approaches, emphasizing the practical application of plant biotechnology in environmental restoration and sustainable agriculture. Through her leadership in multidisciplinary projects, she has advanced knowledge in optimizing plant productivity while enhancing soil health and ecosystem resilience, making her a key contributor to the global field of phytoremediation and environmental biotechnology.

Citation Metrics (Scopus)

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412

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View Scopus ProfileView Orcid Profile

 


Miscanthus × giganteus Rhizobacterial Community Responses to Zn and Oil Sludge Co-Contamination


– Agronomy


Novel Phyto Plant of POP-Pesticides: Energy Crop Miscanthus sinensis


– Experimental Biology


Phytoremediation and Bioremediation of Pesticide-Contaminated Soil


– Applied Sciences


POP Pesticides and Reclamation Methods


– Reports


Comparative Assessment of Miscanthus × giganteus for Remediation of Heavy Metal-Contaminated Soils


– Environmental Science and Pollution Research

Opeyemi Faronbi | Agricultural | Research Excellence Award

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Dr. Opeyemi Faronbi | Agricultural | Research Excellence Award

Landmark University | Nigeria

Dr. Opeyemi Faronbi is an emerging scholar whose research contributions demonstrate growing impact and visibility within the agricultural and food systems research community. Her scholarly output comprises 8 peer-reviewed documents, reflecting a focused and consistent publication trajectory across key thematic areas such as agricultural economics, food and nutrition security, climate-smart agriculture, agroecology, and gender-related dimensions of rural development. These publications have collectively attracted 36 citations from 34 citing documents, indicating that her work is being actively referenced and utilized by other researchers to inform ongoing studies and evidence-based discussions. With an h-index of 4, Dr. Faronbi has established a measurable balance between productivity and citation impact, underscoring the relevance and quality of her research contributions. Her citation profile suggests that multiple publications have achieved sustained academic engagement rather than isolated recognition. Overall, the combination of her document count, citation performance, and h-index highlights a solid and developing research footprint, characterized by methodological rigor, policy relevance, and interdisciplinary appeal. Dr. Opeyemi Faronbi’s bibliometric indicators reflect a promising academic profile with clear potential for continued growth, broader international recognition, and increasing influence within her research domains.

Citation Metrics (Scopus)

40
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Citations
36

Documents
8

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4

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View Scopus ProfileView Orcid Profile   View Google Scholar Profile


Causal Nexus Between Agricultural Credit Rationing and Repayment Performance: A Two-Stage Tobit Regression


– AIMS Agriculture and Food


Economic Performance of Smallholder Soya Bean Production in Kwara State, Nigeria


– Open Agriculture


Land Tenure, Land Use Antecedents, and Willingness to Embrace Resilient Farming Practices Among Smallholders in Nigeria


– Frontiers in Sustainable Food Systems


Potential of Tithonia diversifolia and Biofertilizers on Soil Physiochemical Properties, Growth, Yield and Mineral Composition of Okra (Abelmoschus esculentus)


– Research on Crops


Effects of Climate Change on Grain Productivity in Nigeria (1970–2014)


– IOP Conference Series: Earth and Environmental Science

Orhan Dengiz | Soil | Excellence in Soil Research

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Prof. Dr. Orhan Dengiz | Soil | Excellence in Soil Research

Ondokuz Mayis University | Turkey

Dr. Orhan Dengiz is a distinguished soil scientist specializing in soil genesis, soil survey and mapping, land evaluation, land use planning, and land degradation and desertification. His research focuses on land suitability modelling, land quality assessment for specific land uses, soil formation in the Black Sea Region, and processes driving land degradation. He is actively involved in national and international soil science communities and contributes to scientific leadership through editorial and advisory roles. His scholarly impact is reflected in 151 published documents, 2,359 citations from 1,685 citing documents, and an h-index of 25, highlighting the significance and influence of his research in soil science and sustainable land management.

Citation Metrics (Scopus)

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2,359

Documents
151

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25

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View Scopus Profile

Charles Tumuhe | Agroecology | Young Scientist Award

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Mr. Charles Tumuhe | Agroecology | Young Scientist Award

Mr. Charles Tumuhe | Uganda Martyrs University | Uganda

Tumuhe Charles Lwanga is an accomplished agroecologist and development practitioner whose work integrates agroecology, food sovereignty, and climate resilience to advance sustainable agricultural systems across Africa. His research and field engagements emphasize ecological farming, natural resource management, and community-driven approaches to food security. Through his leadership in regional advocacy programs under the Alliance for Food Sovereignty in Africa, he has contributed to strengthening agroecological networks and policy dialogues in Uganda, Kenya, Tanzania, Burkina Faso, Togo, and Senegal. His experience extends to research coordination, project evaluation, and farmer capacity-building initiatives promoting agroecological transformation and rural empowerment. With a strong academic foundation in agroecology and food systems, his scholarly output reflects a deep commitment to evidence-based practice and participatory research. His work has been cited in five academic documents, supported by four publications, demonstrating growing recognition in the scientific and policy communities. His current h-index of 1 highlights his emerging impact within the field of agroecology and sustainable food systems. Combining academic rigor with grassroots engagement, he continues to influence policy, education, and advocacy efforts that drive ecological integrity, food justice, and resilience in African farming landscapes.

Profiles:  Scopus | Orcid 

Featured Publications

Tumuhe, C. L., Katusiime, D., Ssekamatte, D., Muloi, J. M., Kamau, H., Bwambale, B. B., Kaire, S., Slivesteri, S., Naigaga, H., Mugabo, I., & Audain, K. (2025). Advancing agroecology through networking in Uganda. Agroecology and Sustainable Food Systems.

Marwa Atwa | Soil Pathology | Best Researcher Award

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Assoc. Prof. Dr. Marwa Atwa | Soil Pathology | Best Researcher Award

Assoc. Prof. Dr. Marva Atwa | Plant Pathology Research Institute | Egypt

Dr. Marwa Abdalla Mahmoud Atwa, Associate Professor at the Plant Pathology Research Institute, Agricultural Research Center, Cairo, Egypt, has made notable contributions to sustainable legume disease management through her research on biological control and plant–microbe interactions. Her scientific focus integrates microbial biofertilizers, arbuscular mycorrhizal fungi, and induced systemic resistance to combat soil-borne pathogens in faba bean, chickpea, soybean, and lupine. With an h-index of 1, 2 Scopus-indexed documents, and 4 citations, her work demonstrates impactful specialization in eco-friendly plant disease suppression and crop productivity enhancement. Dr. Atwa has investigated the synergistic effects of beneficial microbes such as Rhizobium, Paenibacillus polymyxa, and Rhizophagus intraradices to induce resistance against root rot and damping-off diseases. Her research outcomes emphasize integrating biological and biochemical inducers for developing environmentally sustainable plant protection strategies. As an active member of professional societies and editorial boards, she contributes to advancing phytopathology knowledge dissemination. Her studies in journals like Scientific Reports and EC Microbiology underline her commitment to developing biocontrol approaches and resistance induction mechanisms that align with global goals for sustainable agriculture, soil health preservation, and reduction in chemical fungicide dependency.

Profile:  Scopus

Featured Publications

Atwa, M. A. M., El-Abeid, S. E., & El-Blasy, S. A. S. (2025). Evaluating individual and mixed arbuscular mycorrhizal fungi for controlling Rhizoctonia root rot in lupine.

Fangyuan Shen | Soil-Plant | Best Researcher Award

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Dr. Fangyuan Shen | Soil-Plant | Best Researcher Award

Xi’an University of Technology | China

Dr. Fangyuan Shen, Ph.D., is a distinguished researcher at Xi’an University of Technology specializing in agricultural water-saving irrigation technology, soil microbiology, and efficient utilization of water and soil resources. His pioneering work has focused on the challenges of sediment-laden water in the Yellow River Basin, where he developed and applied muddy water film hole irrigation technology to enhance agricultural productivity in semi-arid regions. Supported by the National Natural Science Foundation of China. Dr. Shen has contributed significantly to sustainable water and soil management practices. He has published extensively in leading international journals, including Plant and Soil and Scientia Horticulturae, advancing global understanding of water-soil-plant interactions. His research contributions have been recognized with strong academic impact, reflected in an h-index of 12, more than 45 peer-reviewed documents, and over 620 citations across Scopus and Web of Science databases. In addition to his scholarly publications, Dr. Shen actively engages in collaborative projects that bridge science and practical agricultural applications, providing technical support to local farmers and policymakers. His dedication to innovation and excellence continues to drive forward the field of agricultural water management, ensuring sustainable solutions to global food and water security challenges.

Profiles:  Scopus | Orcid

Featured Publications

  • Long-term impacts of stand density on soil fungal and bacterial communities for targeted cultivation of large-diameter Larix olgensis

  • Effects of thinning on absorptive root functional traits of Pinus koraiensis

Nadhir Al-Ansari | Environment | Best Scholar Award

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Prof. Dr. Nadhir Al-Ansari | Environment | Best Scholar Award

Prof. Dr. Nadhir AI Ansari, Lulea University of Technology, Sweden

Professor Dr. Nadhir Al-Ansari is a distinguished expert in Water Resources and Environmental Engineering at Lulea University of Technology, Sweden. With a career spanning decades across Europe and the Middle East, his research focuses on hydrology, sediment transport, groundwater modeling, and environmental sustainability. He has authored numerous scientific publications, holds a patent in iron oxide separation, and has received several international awards recognizing his scientific and community contributions. Professor Al-Ansari is also a Fellow of CIWEM and an active member of multiple global scientific societies.

Profile

Orcid

Summary:

Prof. Dr. Nadhir Al-Ansari is a globally respected scholar whose contributions to environmental and water sciences have been academically rigorous and socially impactful. His robust academic record, innovative projects, interdisciplinary scope, and community-centered outcomes position him as a leading figure in environmental scholarship. His work addresses real-world challenges, blending traditional hydrological insights with evolving technological tools.

🎓 Education

Professor Nadhir Al-Ansari holds a Ph.D. in Sediment Transport from Dundee University, an M.Sc. in Geology from Baghdad University, and a B.Sc. (Honours) in Geology from the same institution. His early academic foundation was shaped at Baghdad College, an American secondary school, which laid the groundwork for his extensive career in water resources and environmental engineering.

💼Experience

Dr. Al-Ansari has held professorial roles at several prestigious institutions including Lulea University of Technology in Sweden and the Arab Open Academy in Denmark. He has also served as a professor, dean, director, and chairman at Al-al Bayt University and the University of Baghdad. His leadership roles spanned across departments such as Geology, Environmental Sciences, and Astronomy, and included administrative positions such as Dean of Scientific Research and Director of Strategic Research Units.

🔬Research Focus

His research primarily centers on water resources, sediment transport, hydrology, environmental engineering, and sustainability. He has contributed significantly to studies on river systems, sedimentation, groundwater modeling, and environmental management in arid and semi-arid regions. He is also active in interdisciplinary research linking water sciences with policy and community service.

🛠️Skills

Professor Al-Ansari has extensive teaching experience at both undergraduate and postgraduate levels, covering subjects like hydrology, groundwater, hydrochemistry, sediment transport, and environmental policy. His technical skill set includes Microsoft Office 365, Adobe Creative Cloud, Agresso, Canvas, Zoom, Google Meet, DIVA, Ladok, Time Edit, and the BLACKBOARD learning system. He has developed specialized programs in groundwater movement and solute transport using finite element techniques and has participated in training on advanced computing and internet technologies.

🏆Awards

Professor Al-Ansari has been the recipient of numerous awards for his scientific contributions, including the prestigious Mesopotamia Prize for Water Resources, best postgraduate supervisor, and several recognitions from the Ministry of Water and Irrigation, the British Council, and international scientific conferences. He also holds a patent for the physical separation of iron oxides and has earned accolades for best papers and contributions to scientific arbitration.

📚 Publications

1. Title: Pathway of total petroleum hydrocarbon in a lotic ecosystem: water and sediment of Tigris River, Iraq
Authors: Fikrat M. Hassan, Abdul Hameed M. Jawad Al-Obaidy, Anwar Ridha Noor, Nadhir Alansari
Year: 2025
Journal: Applied Water Science

2. Title: SPAD dynamics in maize crop with precision nitrogen management under rain-fed and irrigated conditions
Authors: K. Shivashankar, M. P. Potdar, Sandeep Gawdiya, Aishwarya Golshetti, Aditya Kamalakar Kanade, Gurupada Balol, D. P. Biradar, K. K. Math, Nadhir Al-Ansari, Salah El-Hendawy, et al.
Year: 2025
Journal: Scientific Reports

3. Title: A comparative analysis of the removal of arsenic from water using magnetite/polyaniline-polypyrrole nanocomposite
Authors: T. Jabeen, M. Rashid, A. Khan, S. Haider, M. Aslam, E. Shahid, H. Shahid, N. Al-Ansari, M. A. Mattar
Year: 2025
Journal: International Journal of Environmental Science and Technology

4. Title: Application of Decision Support Systems to Water Management: The Case of Iraq
Authors: Hayder AL-Hudaib, Nasrat Adamo, Katalin Bene, Richard Ray, Nadhir Al-Ansari
Year: 2025
Journal: Water

5. Title: Optimizing cultivation practices to enhance growth and yield of Indian mustard
Authors: Akshita Sharma, Vandna Chhabra, Swati Mehta, Yudhishther Singh Bagal, Rajesh Kumar, Nadhir Al-Ansari, Salah El-Hendawy, Mohamed A. Mattar, Ali Salem
Year: 2025
Journal: Scientific Reports

Conclusion:

Prof. Dr. Nadhir Al-Ansari is highly suitable for the Research for Best Scholar Award. He exemplifies the ideals of scholarly excellence, global impact, and sustainability leadership that this award is designed to honor. With a few strategic steps to increase his digital and global integration, his influence could be further magnified.

Rui Zhang | Soil Science | Best Researcher Award

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Dr. Rui Zhang | Soil Science | Best Researcher Award

Dr. Rui Zhang, Aalto University, Finland

Dr. Rui Zhang is a Postdoctoral Researcher at Aalto University, Finland, specializing in digital twin technologies, AI-integrated construction monitoring, and geotechnical engineering. He holds a PhD in Civil Engineering from the University of Sheffield, UK, and has conducted research across leading institutions including Nanyang Technological University and The Hong Kong Polytechnic University. His work focuses on the integration of sensing systems, advanced numerical modeling, and machine learning to enhance infrastructure performance and safety in complex civil environments.

Profile

Scopus

Summary:

Dr. Rui Zhang demonstrates excellence in high-impact, interdisciplinary research in civil and geotechnical engineering with a forward-looking focus on digital transformation in infrastructure. His international academic trajectory, technical depth, and commitment to mentorship position him as an outstanding candidate for a Best Researcher Award.

🎓 Education

Rui Zhang has a strong academic foundation in civil engineering, having pursued a PhD from the University of Sheffield in the United Kingdom, where he specialized in advanced geotechnical modeling. His postgraduate education also includes a Master’s degree in Civil Engineering and Solid Mechanics from Lanzhou University in China, with additional research experience at I-Shou University in Taiwan. He began his academic journey with a Bachelor of Science in Civil Engineering from Zhengzhou University.

💼Experience

Rui Zhang has accumulated rich international research and academic experience through postdoctoral and research fellow roles in esteemed institutions. At Aalto University in Finland, he worked on developing digital twin systems for monitoring building construction processes using integrated sensing technologies and neurosymbolic reasoning. As a Research Fellow at Nanyang Technological University in Singapore, he contributed to the development of a city-scale digital twin for underground transportation infrastructure. At the Hong Kong Polytechnic University, he focused on leak detection in pipelines using smart sensing systems, AI techniques, and wavelet signal analysis. During his doctoral studies, he specialized in limit analysis for unsaturated soil problems using Discontinuity Layout Optimization. His early research activities included nonlinear mechanics and pavement material analysis using stochastic finite element methods.

🔬Research Focus

Rui Zhang’s research interests span across digital twin systems, geotechnical engineering, structural health monitoring, AI-integrated modeling, soil-structure interaction, and tunnel infrastructure. He has a particular focus on applying physics-based and AI-enhanced computational methods to complex civil engineering problems including underground space behavior, pipeline diagnostics, and automated construction process monitoring.

🛠️Skills

He possesses strong technical skills in geomechanics, numerical modeling, and AI applications such as machine learning and deep learning for civil engineering systems. Rui is proficient in MATLAB, ANSYS, AutoCAD, and LabVIEW, and has hands-on experience with experimental setups, sensor integration, and data analytics. He is also adept in using BIM modeling tools and simulation platforms for smart construction and infrastructure management.

🏆Awards

Rui Zhang is an Associate Fellow of the Higher Education Academy (HEA), showcasing his commitment to excellence in academic teaching and mentorship. He has served as a reviewer for leading journals including Acta Geotechnica, Tunnelling and Underground Space Technology, and Engineering Applications of Artificial Intelligence. Additionally, he holds a position on the Youth Editorial Board of the International Journal of Smart Construction, where he contributes to advancing digital twin technologies in construction.

📚 Publications

Title: Automated finite element analysis of burst capacity for corroded pipelines
Author: Rui Zhang
Year: 2025
Journal: International Journal of Pressure Vessels and Piping

Conclusion:

Dr. Rui Zhang is a highly deserving nominee for the Research for Best Researcher Award. His strengths in digital construction, computational geomechanics, and AI-integrated infrastructure monitoring are not only timely but crucial for the future of resilient and intelligent built environments. With continued leadership and broader dissemination of his work, he is poised to become a global leader in the field.