Kamal Taheri | Soil | Research Excellence Award

Published on by Soil Scientist

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
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0

Citations
700

Documents
19

h-index
12

Citations

Documents

h-index


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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

Minh Canh Tran | Soil Physics | Research Excellence Award

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Dr. Minh Canh Tran | Soil Physics | Research Excellence Award

National Center for Earthquake Engineering | Taiwan 

Dr. Minh Canh Tran has established a focused research profile supported by 34 citations, an h-index of 2, and 6 published documents, reflecting steady scholarly growth in geotechnical engineering. His research spans soil mechanics, soil–structure interaction, liquefaction behavior, and advanced physical and numerical modeling, contributing to the understanding of how soils respond under seismic and complex loading conditions. Through a combination of centrifuge modeling and simulation-based investigations, he provides valuable insights into pore pressure development, ground deformation, and foundation performance on challenging soil deposits. His publications demonstrate methodological depth and emphasize practical solutions for enhancing infrastructure resilience. The citation record highlights the relevance and applicability of his work within the scientific community, while the h-index indicates consistent influence across multiple studies. The collection of documents collectively advances knowledge on seismic soil behavior, mitigation strategies, and geotechnical system performance, positioning Dr. Tran as an emerging contributor whose research supports safer engineering practices.

Profiles : Scopus | Orcid 

Featured Publications

Hung, W.-Y., Tran, M.-C., & Ha, T.-Q. (2025). Centrifuge modelling lateral loading test of battered-piled-raft system in sand. Journal of the Chinese Institute of Engineers. Advance online publication.

Hung, W.-Y., Chiang, K.-H., Chen, C.-H., Ha, T.-Q., Tran, M.-C., & Castaldo, P. (2025). Centrifuge modeling of soil loss effects on adjacent pile foundations induced by tunnel excavation. Advances in Civil Engineering, 2025, Article 7569758.

Tran, M.-C. (2025). Assessing influence of waves on riverbank stability: A centrifuge modeling approach. Geomechanics and Engineering, 40(1), 1–15.

Chiang, K.-H., Hung, W.-Y., Tran, M.-C., & Ha, T.-Q. (2024). The vertical loading tests of single and group piles by centrifuge modelling. International Journal of Geotechnical Engineering. Advance online publication.

Hung, W.-Y., Tran, M.-C., & Bui, V.-K. (2022). Seismic response of anchored sheet pile walls by centrifuge modelling tests. International Journal of Civil Engineering.

Hung, W.-Y., Tran, M.-C., Yeh, F.-H., Lu, C.-W., & Ge, L. (2020). Centrifuge modeling of failure behaviors of sandy slope caused by gravity, rainfall, and base shaking. Engineering Geology, 270, 105609.

Salma Fatnassi | Soil | Soil Health Advocate Award

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Dr. Salma Fatnassi | Soil | Soil Health Advocate Award

National Institute of Research in Rural Eaux and Forets | Tunisia

Salma Fatnassi is a researcher in soil science and environmental geochemistry whose work focuses on understanding the behavior of micronutrients and trace metals in agricultural systems irrigated with treated wastewater, generating important knowledge on soil–water–plant interactions and contaminant mobility. Her research involves designing and managing collaborative studies that assess soil contamination risks, nutrient cycling, and the environmental sustainability of wastewater reuse in agriculture. She is skilled in soil and water sampling, geochemical laboratory techniques, environmental monitoring, and the application of statistical and spatial tools for interpreting complex environmental datasets. With strong expertise in data analysis using R, Excel, ArcGIS, and SPSS, she evaluates metal bioavailability, transport pathways, and ecological impacts with high analytical rigor. Her scientific contributions include 4 published documents, 24 citations, and an h-index of 3, reflecting her growing influence in the field. Salma Fatnassi has also strengthened her methodological foundation through training in bibliographic research, pedagogy, statistical analysis, and innovative water treatment technologies, enabling her to support interdisciplinary and international research collaborations. Overall, her work advances sustainable soil and water management, improves understanding of trace element dynamics, and supports evidence-based environmental protection strategies in agricultural ecosystems.

Profile : Scopus 

Featured Publications

Fatnassi, S., Hörmann, G., Fohrer, N., Navarro-Pedreño, J., & Hachicha, M. (2025). Boron in soil, drainage water and groundwater in long-term irrigated area by treated wastewater in Northeast Tunisia. Soil Systems.

Aida Mehrpajouh | Soil Physics | Best Researcher Award

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Dr. Aida | Soil Physics | Best Researcher Award

Dr. Aida Mehrpajouh | HTW University of Applied Sciences Dresden | Germany

Dr. Aida Mehrpajouh’s research portfolio exemplifies a strong and evolving commitment to scientific excellence, marked by consistent productivity, academic integrity, and interdisciplinary relevance. She has contributed 5 well-recognized research documents, each representing a meaningful advancement in her area of expertise and showcasing her analytical depth and experimental precision. These publications collectively demonstrate her capacity to identify emerging research gaps and provide innovative solutions that bridge theoretical knowledge with applied outcomes. Her work has earned 108 citations drawn from 91 citing documents, a clear reflection of the recognition her studies have received from peers across related disciplines. This citation record highlights her ability to produce work that not only informs but also inspires subsequent investigations, contributing to the expansion of knowledge in her domain. With an h-index of 4, Dr. Mehrpajouh maintains a solid scholarly impact, where multiple papers continue to attract attention and engagement within the global research community. Her academic endeavors emphasize both innovation and reliability, often intersecting with environmental, technological, or societal aspects that underline the practical value of her findings. Collectively, her research achievements portray a profile of intellectual rigor, sustained academic contribution, and growing influence that continues to enrich and advance her field of study.

Profile:  Scopus 

Featured Publications

Ghasemzadeh, H., Mehrpajouh, A., & Pishvaei, M. (2022). Compressive strength of acrylic polymer-stabilized kaolinite clay modified with different additives. ACS Omega.