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Solomon Temidayo Owolabi

Post-doctoral fellow and Department of Geography · University of South Africa

https://researchid.co/solomonowolabi
@unisa.ac.za
15Scopus Publications
346Google Scholar Citations
7Google Scholar h-index
7Google Scholar i10-index

Research Interests

Hydrogeomorphology and disaster management

Biography

Dr. Solomon T. Owolabi is a distinguished geoscientist who serves as a postdoctoral researcher at the Department of Geography, University of South Africa. He offers construction companies and municipalities paleontological impact assessment services. His unwavering quest to comprehend Earth systems via integrated multidisciplinary approaches and numerical modeling has characterized his career. His intense interest in comprehending and modeling intricate natural phenomena, such as catchment hydrology, tectono-topographic complexity, and climate change processes, drives his research. His areas of interest in research are hydrology, computational modeling, and the development of conjunctive exploration of the geosciences, with a focus on sophisticated numerical techniques. In order to clarify the complex dynamics of hydrologic and earth systems, his research activities are characterized by empirical simulation of the effects of hydrogeomorphic features and geological structures.

Education

PhD | Geology | University of Fort Hare, South Africa THESIS: Evaluation of groundwater potential based on a hybrid approach of geology, geophysics, and geoinformatics: Case study of Buffalo Catchment area, Eastern Cape, South Africa MSc | Hydrogeology | University of Botswana, Botswana DISSERTATION: Mapping of regional trends and variability of groundwater quality parameters in aquifers across Botswana BSc | Geology | Olabisi Onabanjo University, Nigeria

Recent Scopus Publications

  1. Analyzing spatiotemporal variations and dynamics of vegetation over Amathole district municipality in South Africa
    Environment Development and Sustainability, 2026
  2. A geospatial approach to assessing shoreline change dynamics along the eThekwini coast of South Africa
    Egyptian Journal of Remote Sensing and Space Science, 2026
  3. Achieving the sustainable development goals through nature-based solutions amidst climate change. Evidence from scopus and Web of Science (WoS) databases
    Sustainable Futures, 2025
  4. Optimizing interpolation and quantitative morphometry analysis suitability to soil erodibility modeling for soil erosion risk mapping in a complex topography
    Geocarto International, 2025
  5. A systematic analysis of remote sensing and geographic information system applications for flood disaster risk management
    Journal of Spatial Science, 2025

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