Mahmoud Darwish |  Geology and Hydrogeology | Best Researcher Award

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Assist. Prof. Dr. Mahmoud Darwish |  Geology and Hydrogeology | Best Researcher Award

Assistant professor | New Valley University | Egypt

Dr. Mahmoud H. Darwish is an Assistant Professor of Applied Geology at the Faculty of Science, New Valley University, El-Kharga, Egypt, specializing in Hydrogeology, Applied Geological and Environmental Sciences, GIS modeling, and Remote Sensing applications. He holds a B.Sc. in Geology, an M.Sc. in Geology, and a Ph.D. in Stratigraphy and Palaeontology, reflecting a strong academic foundation in earth sciences. Throughout his career, he has served in various academic and research capacities, including senior geological research and departmental coordination, demonstrating effective leadership, mentorship, and administrative excellence. Dr. Darwish has actively contributed to numerous scientific projects and participated in organizing national and international conferences and workshops, enhancing collaboration and scientific exchange. His research addresses critical environmental challenges such as groundwater management, water quality assessment, surface water sustainability, and flash flood impact mitigation, producing impactful publications with a notable citation record and an h-index of seven. His scholarly influence is evidenced by his high research interest score and consistent academic engagement. Dr. Darwish is a recognized member of professional societies, including the Egyptian Geological Society, the Scientific Professions Syndicate, and the Club of Earth and Space Sciences. His dedication, scientific rigor, and commitment to advancing geological and environmental knowledge have earned him distinction and acknowledgment within the academic community, positioning him as a deserving candidate for recognition through this award.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Seddik, A. M. A., Darwish, M. H., Azer, M. K., & Asimow, P. D. (2020). Assessment of magmatic versus post-magmatic processes in the Mueilha rare-metal granite, Eastern Desert of Egypt, Arabian-Nubian Shield. Lithos, 366, 105542.

2. Abuamarah, B. A., Azer, M. K., Seddik, A. M. A., Asimow, P. D., Guzman, P., Fultz, B. T., … Darwish, M. H. (2022). Magmatic and post-magmatic evolution of post-collisional rare-metal bearing granite: The Neoproterozoic Homrit Akarem Granitic Intrusion, South Eastern Desert of Egypt, Arabian-Nubian Shield. Geochemistry, 82(1), 125840.

3. Farrag, A. A., Megahed, H. A., & Darwish, M. H. (2019). Remote sensing, GIS and chemical analysis for assessment of environmental impacts on rising of groundwater around Kima Company, Aswan, Egypt. Bulletin of the National Research Centre, 43, 16.

4. Megahed, H. A., GabAllah, H. M., Ramadan, R. H., Abdelrahman, M. A. E., & Darwish, M. H. (2023). Groundwater quality assessment using multi-criteria GIS modeling in drylands: A case study at El-Farafra Oasis, Egyptian Western Desert. Water, 15(7), 1376.

5. Darwish, M. H., & Galal, W. F. (2019). Spatiotemporal effects of wastewater ponds from a geoenvironmental perspective in the Kharga region, Egypt. Progress in Physical Geography: Earth and Environment, 43, 12.

Dr. Mahmoud H. Darwish’s research advances sustainable management of groundwater and environmental resources in arid regions through innovative applications of geology, hydrogeochemistry, GIS, and remote sensing. His work provides critical insights for mitigating water scarcity, guiding environmental policy, and supporting sustainable development across desert ecosystems and resource-limited communities worldwide.

Zemede M. Nigatu | Earth and Planetary Sciences | Best Researcher Award

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Dr. Zemede M. Nigatu | Earth and Planetary Sciences | Best Researcher Award

Assistant Professor | Hawassa University | Ethiopia

Dr. Zemede M. Nigatu is a distinguished researcher in Surveying, GIS, and Remote Sensing with extensive experience in Earth Observation and Geo-Information sciences. He holds a PhD in Surveying and Mapping Engineering and has contributed significantly to both academic teaching and applied research. Dr. Nigatu has successfully led multidisciplinary projects, mentored graduate students, and trained professionals in geospatial technologies, emphasizing practical applications in forestry, climate adaptation, and sustainable land management. His work spans advanced geospatial modeling, remote sensing data analysis, and GIS-based decision support systems, showcasing a strong capacity for innovation and interdisciplinary collaboration. In addition to high-impact publications, he has delivered consultancy services for national and international organizations, bridging research with real-world applications. His research achievements are measurable and impactful, as reflected in Scopus metrics: 116 citations, 7 documents, and an h-index of 6, demonstrating his influence and growing recognition in the geospatial research community.

Profiles: Scopus | Google Scholar 

Featured Publications

1. Z. M. Nigatu, T. H. M. Rientjes, and A. T. Haile, “Hydrological impact assessment of climate change on Lake Tana’s water balance, Ethiopia,” American Journal of Climate Change, vol. 5, pp. 27-37, 2016.

2. Z. M. Nigatu, D. Fan, W. You, and A. M. Melesse, “Hydroclimatic extremes evaluation using GRACE/GRACE-FO and multidecadal climatic variables over the Nile river basin,” Remote Sensing, vol. 13, no. 4, p. 651, 2021.

3. Z. M. Nigatu, D. Fan, W. You, A. M. Melesse, L. Pu, X. Yang, X. Wan, and Z. Jiang, “Crop production response to soil moisture and groundwater depletion in the Nile Basin based on multi-source data,” Science of The Total Environment, vol. 825, p. 154007, 2022.

4. Z. M. Nigatu, D. Fan, and W. You, “GRACE Products and Land Surface Models for Estimating the Changes in Key Water Storage Components in the Nile River Basin,” Advances in Space Research, vol. 67, no. 6, pp. 1896-1913, 2021.

5. L. Pu, D. Fan, W. You, X. Yang, Z. M. Nigatu, and Z. Jiang, “Extracting terrestrial water storage signals from GRACE solutions in the Amazon Basin using an iterative filtering approach,” Remote Sensing Letters, vol. 13, no. 1, pp. 14-23, 2022.