Ph.D Candidate | Tarbiat Modares University (TMU) | Iran
Hamed Beigi is a Ph.D. candidate at the Faculty of Natural Resources, Tarbiat Modares University, Iran, specializing in soil and water protection, watershed stability, and sustainable environmental management. His academic work integrates geospatial analysis, remote sensing, and ecosystem services research with applied fieldwork, positioning him as a leading contributor to innovative watershed management. With an interdisciplinary approach and international collaborations, he combines advanced technical expertise with practical conservation solutions, contributing to the development of effective soil and water management strategies that support environmental resilience and sustainability.
Professional Profile
Google Scholar
Education
Hamed Beigi has pursued his doctoral studies in natural resources with a strong concentration in watershed management and soil conservation. His education is characterized by rigorous training in hydrology, environmental modeling, and geospatial technologies. Theoretical learning has been complemented by extensive field-based research, including soil sampling, watershed stability evaluation, and applied conservation methods. His academic foundation reflects an integrated understanding of environmental processes, equipping him with the ability to address complex challenges in soil and water protection. By combining technical modeling with empirical evidence, he has developed a comprehensive framework for sustainable ecosystem management.
Experience
Hamed’s professional and research experiences extend across watershed management, soil stability, and hydrological studies. As a supervising engineer on multiple watershed projects, he has overseen field operations, soil analyses, and implementation strategies that have advanced sustainable conservation practices. His technical expertise spans the use of ArcGIS, remote sensing, and environmental modeling to generate accurate predictions and prioritize interventions. His involvement in projects such as the conceptual modeling of the Shazand Watershed has provided valuable insights into environmental stability and resilience. Beyond project leadership, he has served as a reviewer and editorial board member for respected journals, contributing to scholarly quality and peer-reviewed advancements in environmental science.
Research Focus
Hamed’s research is focused on watershed stability, soil and water conservation, ecosystem services, and hydrological resilience. A key dimension of his work is the integration of geospatial technologies with environmental science to better predict watershed vulnerabilities and propose targeted conservation strategies. He emphasizes comprehensive watershed management, examining the interactions between land use, erosion, and water quality. His conceptual models bridge theoretical analysis with practical implementation, ensuring that solutions are both scientifically rigorous and contextually applicable. His contributions in hydrological sciences also include analyzing flood risks, drought assessments, and water quality management, aligning with global sustainability priorities.
Publication Top Notes
Title: Investigating the trend of temporal and spatial changes in river health using Flow Health (Case Study: Qarasu River)
Year: 2022
Title: Ecological health and security of the Jazmurian Wetland Endorheic Watershed, Iran
Year: 2024
Title: Position of the Fakhran watershed in Iran’s South Khorasan Province in the watershed management ladder
Year: 2024
Title: Soil erosion resistivity metric for sub-watershed prioritization
Year: 2025
Conclusion
Hamed Beigi’s academic and professional contributions demonstrate a rare balance of technical expertise, applied research, and leadership in environmental management. His work bridges the gap between scientific innovation and practical application, offering sustainable solutions to pressing challenges in soil and water conservation. Through publications in high-impact journals, active collaborations, and engagement with professional associations, he has established himself as an emerging leader in watershed sciences. His research not only advances theoretical understanding but also informs practical strategies that enhance environmental resilience. With a strong record of achievements and commitment to sustainable natural resource management, he represents an outstanding candidate for the Best Researcher Award.