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)

1500
1000
500
100
0

Citations
1197

Documents
39

h-index
17

Citations

Documents

h-index

View Scopus Profile

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

Kamal Taheri | Soil | Research Excellence Award

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Mr. Kamal Taheri | Soil | Research Excellence Award

Kermanshah Regional Water Company | Iran 

Mr. Kamal Taheri is a highly accomplished hydrogeology expert with extensive research and professional contributions centered on karst and groundwater systems, particularly in complex hard-rock and covered karst environments. His scholarly output includes 19 research documents, which have received 700 citations across 613 citing documents, reflecting the strong academic and applied impact of his work, with an h-index of 12. His research portfolio spans karst hydrogeology, groundwater sustainability and vulnerability assessment, water quality monitoring, hydrogeochemistry, environmental isotopic techniques, geophysics, and deep water well site selection in karst terrains. He has authored numerous peer-reviewed journal articles, book chapters, conference papers, edited volumes, and a substantial body of technical consultancy reports that bridge scientific research with large-scale water supply and groundwater management applications. His academic contributions extend to graduate-level teaching and training in groundwater and karst hydrogeology, with a strong emphasis on practical methodologies such as drilling strategies, geophysical investigations, and water allocation planning. In addition, he has played a significant role in scientific publishing through editorial leadership in water resources and geology journals. His interdisciplinary interests further encompass sinkhole studies, geoarchaeology, geotourism, and advanced conceptual modeling, strengthening the integration of science, management, and visualization in hydrogeological research.

Citation Metrics (Scopus)

1000
750
500
250
0

Citations
700

Documents
19

h-index
12

Citations

Documents

h-index


  View Scopus Profile        View Orcid Profile


Assessment of alluvial aquifer intrinsic vulnerability by a generic DRASTIC model: a discussion on data adequacy and pragmatic results

– Environment, Development and Sustainability


An intrinsic vulnerability approach to assess an overburden alluvial aquifer exposure to sinkhole-prone area; results from a Central Iran case study

– Geocarto International


Hawraman Summer Camps: The Last Legacy of Water Scarcity Adaptation in the Western Zagros Karst Territory

– Advances in Science, Technology and Innovation


Human-Karst Landscape Interactions and the Anthropo-Karstosphere: Toward a Nexus of Geoethics, Groundwater, and a Sustainable Society

– Advances in Science, Technology and Innovation


Assessment of Alluvial Aquifer Intrinsic Vulnerability by a Generic Drastic Model; A Discussion on Data Adequacy and Pragmatic Results

– Research Square

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.

Srimathie Indraratne | Soil Chemistry | Best Researcher Award

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Dr. Srimathie Indraratne | Soil Chemistry | Best Researcher Award

Dr. Srimathie Indraratne | University of Winnipeg | Canada

Dr. Srimathie Indraratne is a highly accomplished soil and environmental scientist whose work spans soil chemistry, nutrient dynamics, contaminant mobility, and sustainable land management. With a strong academic foundation and extensive university-level teaching, research, and leadership experience, she has contributed significantly to advancing scientific understanding of soil processes across diverse agroecosystems. Her research portfolio reflects a deep commitment to environmental sustainability, with key investigations focusing on soil amendments, trace element behavior, organic inputs, and climate-resilient soil management strategies. She has authored 45 scientific documents that collectively demonstrate the depth and rigor of her research contributions. Her scholarship has earned substantial recognition within the scientific community, evidenced by 836 citations from 689 citing documents, alongside an impressive h-index of 15, highlighting the influence and continuity of her work. In addition to her research achievements, she has made notable contributions to capacity building through supervising undergraduate and graduate research and supporting interdisciplinary environmental science education. Her expertise is further reflected in her active roles in proposal review and academic evaluation, positioning her as a respected leader whose research continues to inform soil conservation, environmental protection, and sustainable agricultural practices at national and international levels.

Profiles: Scopus | Orcid 

Featured Publications

Hansima, M. A. C. K., Amarakoon, I., Indraratne, S., Zvomuya, F., Farenhorst, A., & Brown, A. K. (2025). Characterization of liquid swine manure-derived humic substances and their role in sulfamethoxazole sorption to bentonite clay. Journal of Environmental Chemical Engineering.

Indraratne, S., Haak, M., Anil, B., Singh, D., Goltz, D., & Kumaragamage, D. (2025). Stability of vanadium in alkaline soils amended with biochar and metal oxide nanoparticles under simulated seasonal temperature fluctuations. Remediation Journal.

Dissanayake, A. I., Kumaragamage, D., Amarakoon, I., Indraratne, S., Applin, D. M., Cloutis, E. A., & Goltz, D. (2025). Changes of soil test phosphorus and phosphorus fractions with single and blended soil chemical amendments. Canadian Journal of Soil Science.

Perry, M. M., Kumaragamage, D., Goltz, D., Casson, N. J., Amarakoon, I., & Indraratne, S. P. (2024). Residual benefits of alum, gypsum, and magnesium sulfate amendments in reducing phosphorus losses to snowmelt runoff. CATENA.

xiaolan liu | Soil | Best Researcher Award

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Dr. xiaolan liu | Soil | Best Researcher Award

Dr. Xiaolan liu, Tianjin Chengjian University, China

Dr. Xiaolan Liu is a lecturer at Tianjin Chengjian University, China, specializing in road and airport engineering. Her research focuses on non-destructive testing of road structures, runway performance in permafrost regions, and sponge city infrastructure. She has led multiple national and municipal research projects and published extensively in international journals. Dr. Liu has received several prestigious awards, including honors from the China Highway Society and the China Civil Aviation Authority, recognizing her contributions to transportation engineering.

Profile

Scopus

Summary:

Dr. Xiaolan Liu’s research addresses a highly relevant and pressing issue in civil and geotechnical engineering, particularly for regions experiencing extreme climates. By focusing on the cooling effects of ventilation subgrades, Dr. Liu is advancing techniques to protect infrastructure in permafrost regions, which is crucial in the context of global climate change. Their work also contributes to the development of better construction practices for frozen soil areas.

🎓 Education

Xiaolan Liu is currently pursuing her Ph.D. at Nanjing University of Aeronautics and Astronautics, specializing in Highway and Railway Engineering under the School of Civil Aviation. Simultaneously, she is enrolled in another Ph.D. program in Civil Engineering at Southwest Forestry University, School of Transportation Engineering. She earned her Master’s degree in Highway and Railway Engineering from the Civil Aviation University of China and has maintained a consistent academic focus on infrastructure engineering throughout her education.

💼Experience

Liu has led and contributed to numerous high-impact research projects, including those funded by the National Natural Science Foundation of China and municipal research initiatives. Her roles as principal investigator and advisor on projects dealing with permafrost roadbed settlement, freeze-thaw effects on clay roadbeds, and rigid pavement performance under aircraft loading have established her as a leading expert in infrastructure performance under extreme environmental conditions. She currently serves as a lecturer and actively mentors research teams on structural mechanics and pavement engineering.

🔬Research Focus

Liu’s research primarily centers on the theory and application of non-destructive testing for road structures, engineering solutions for airport runways in permafrost areas, and the development and implementation of sponge city infrastructure. Her work addresses real-world challenges in runway performance under aircraft loading and extreme climatic conditions, making substantial contributions to both civil aviation safety and cold-region infrastructure sustainability.

🛠️Skills

Liu possesses advanced skills in structural modeling, dynamic load analysis, non-destructive testing, permafrost engineering, and pavement material characterization. She is proficient in conducting both field experiments and laboratory testing, complemented by analytical and simulation expertise for evaluating roadbed and runway performance in challenging environments.

🏆Awards

Her academic excellence and research innovations have been recognized through numerous prestigious awards. These include the Second Prize of the Science and Technology Award from the China Highway Society in 2023, the Tianjin Municipal Teaching Achievement Award in 2022, and the China Civil Aviation Science and Technology Achievement Award the same year. She is also a recipient of multiple national scholarships, including those for undergraduate and graduate excellence, and has been honored as an Excellent Graduate Student by both her universities.

📚 Publications

  • Study on the cooling effect of the parallel perforated ventilation subgrade in permafrost regions based on the numerical model

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; X. Cheng, Xinglei

    • Year: 2025

    • Journal: PLoS ONE

  • Study on applicability of parallel perforated ventilation subgrade to the runway in frozen soil regions

    • Authors: X. Liu, Xiaolan; C. Fu, Chuanwei; C. Lv, Chao

    • Year: 2025

    • Journal: AEJ – Alexandria Engineering Journal

Conclusion:

Dr. Liu is a strong candidate for the Best Researcher Award due to their innovative approach and contributions to permafrost engineering. With improvements in citation impact and broader engagement, their research could have a more profound influence on both academia and real-world applications in the field of sustainable infrastructure development.

Asifa Qureshi | Soil Biology | Women Researcher Award

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Dr. Asifa Qureshi | Soil Biology | Women Researcher Award

Dr. Asifa Qureshi, National Environmental Engineering Research Institute, India

Dr. Asifa Qureshi is a Senior Principal Scientist at the CSIR-National Environmental Engineering Research Institute (NEERI), Nagpur, India. With a background in Microbiology, she holds a Ph.D. from Nagpur University, where her research focused on the biotransformation of nitrophenols by microorganisms. Dr. Qureshi has extensive experience in environmental microbiology and bioprocesses, having worked at NEERI since 1994. She has published over 50 research papers and book chapters, with significant contributions to environmental toxicology and biotransformation studies. She is a recognized Ph.D. supervisor and Associate Professor at AcSIR, CSIR, New Delhi, and has guided numerous Ph.D. students. Dr. Qureshi has received several honors, including the National Merit Scholarship and various awards for her research.

Profile

Scopus

Orcid

Summary:

Dr. Asifa Qureshi has demonstrated exceptional leadership, research innovation, and commitment to mentoring the next generation of scientists, particularly women in research. Her expertise in environmental microbiology and bioprocesses, along with her dedication to enhancing public health and sustainability, places her in an excellent position for the Research for Women Researcher Award. Dr. Qureshi’s recognition within the scientific community, her record of publications, and her leadership in research institutions all highlight her as a role model for women researchers.

🎓 Education

Dr. Asifa Qureshi holds a B.Sc. from Nagpur University (1991), where she earned distinction with 78.88%, securing the 7th merit position in the university. She completed her M.Sc. in Microbiology with 64% (first division) from the Haffkine Institute for training, testing, and Research, University of Mumbai (1993). She later pursued a B.Ed. from Govt College, Nagpur, with a first division in 1994. Dr. Qureshi earned her Ph.D. in Microbiology from Nagpur University in 2001 with a research focus on the biotransformation of nitrophenols by selected microorganisms.

💼Experience

Dr. Qureshi has been a part of CSIR-NEERI, Nagpur since 1994, where she has held various positions. Currently, she serves as a Senior Principal Scientist (Scientist F) since September 2022. Previously, she was a Principal Scientist (Scientist E2) from 2016 to 2022, Senior Scientist (E1) from 2012 to 2016, and Scientist C from 2008 to 2012. Before joining NEERI, she worked as a Lecturer in Biotechnology at Sindhu Mahavidyalaya, Nagpur (2000-2004), and as a Research Scholar at CSIR-NEERI (1994-1999).

🔬Research Focus

Dr. Qureshi has made significant contributions to research with 50 publications, including 49 research papers and eight book chapters. She has presented at 31 national and international conferences. Her research work has been widely acknowledged, with over 2,830 gene sequences and 52 genome sequences listed in GenBank. Her research primarily focuses on environmental microbiology, biotransformation, and environmental toxicology, particularly the biotransformation of nitrophenols.

🛠️Skills

Dr. Asifa Qureshi possesses a diverse skill set in the fields of environmental microbiology, biotransformation, and environmental toxicology. She has expertise in the biotransformation of hazardous compounds, particularly nitrophenols, using microorganisms. Dr. Qureshi is skilled in conducting advanced microbiological research, managing environmental bioprocesses, and applying molecular tools to analyze microbial behavior in contaminated environments. Her proficiency extends to gene sequencing and genome analysis, with a strong track record in publishing research in international journals. Additionally, she is adept at supervising Ph.D. students, designing and conducting experiments, and presenting scientific findings at conferences. Her leadership in research and academic settings reflects her strong communication, mentoring, and project management abilities.

🏆Awards

Dr. Qureshi has received several accolades throughout her career. She was awarded the National Merit Scholarship (1999) by the Ministry of Human Resource Development for standing 7th in the merit list at Nagpur University. She also received a Short Term Training Program (STTP) grant from DBT, Ministry of Science and Technology in 2004. Her work was recognized with prizes at the International Conference on Molecular Tools in Environmental Toxicology (MOLTOX) in 2009 and at the BRSI conference in 2017, both held at NEERI. Additionally, she is a recognized Ph.D. supervisor in Microbiology at RTMNU and an Associate Professor at AcSIR, CSIR, New Delhi. Dr. Qureshi has supervised six Ph.D. students and currently has four Ph.D. students registered.

📚 Publications

  • Antibiotic Resistance Dissemination and Mapping in the Environment Through Surveillance of Wastewater

    • Authors: N.P. Raju, Neenu P., A. Ansari, Aamir G., Patil, Gandhali A., A.A. Qureshi, Asifa A.

    • Year: 2025

    • Journal: Journal of Environmental Management

  • Wastewater surveillance of open drains for mapping the trajectory and succession of SARS-CoV-2 lineages in 23 cities of Maharashtra state (India) during June 2022 to May 2023

    • Authors: S. Matra, Sejal, H. Ghode, Harshada, V. Rajput, Vinay, K. Karmodiya, Krishanpal, M.S. Dharne, Mahesh Shantappa

    • Year: 2025

    • Journal: Heliyon

  • Insights into the functionality of biofilm-forming bacterial consortia as bioavailability enhancers towards biodegradation of pyrene in hydrocarbon-contaminated soil

    • Authors: P.J. Yesankar, Prerna J., A.A. Qureshi, Asifa A.

    • Year: 2025

    • Journal: Journal of Environmental Management

  • Comprehensive Review on Bio-Based Treatments for Polyvinyl Chloride Plastic

    • Authors: N. Hatwar, Neha, A.A. Qureshi, Asifa A.

    • Year: 2025

    • Journal: Journal of Environmental Management

Conclusion:

Dr. Asifa Qureshi is an ideal candidate for the Research for Women Researcher Award. Her outstanding contributions to the field of environmental science, her academic leadership, and her dedication to the advancement of women in science make her a standout choice. With continued public engagement and further international collaboration, Dr. Qureshi’s impact on the scientific community and society will only grow, making her a deserving recipient of this prestigious award.