Amponsah-Dacosta MaxwellOpuwari MimonituTitinchi Salam2026-06-192026-06-192025Amponsah-Dacosta, M., Opuwari, M., Titinchi, S. and Shariatipour, S.M., 2025. Fault seal analysis for geological carbon dioxide storage in the Pletmos Basin, offshore South Africa. Marine Georesources & Geotechnology, pp.1-14.https://doi.org/10.1080/1064119X.2025.2489124https://hdl.handle.net/10566/24608Sedimentary basins are considered to be potential carbon sinks and could provide a significant solution to decarbonising the global economy. In the highly faulted Pletmos Basin located offshore South Africa, there is potential for CO2 storage that draws attention to analysing the behaviour of faults as seals or pathways for CO2 migration. Faults were examined based on 3D seismic imagery using shale volume (Vshale) logs from well data. We employed well juxtaposition analysis using triangle-type diagrams and Shale Gouge Ratio (SGR) algorithms to predict their sealing potential. The sealing classification was based on results from SGR calculations. SGR between 0 and 0.2 represented “not sealing,” 0.2–0.4 represented “moderately sealing” and 0.5–1.0 represented “highly sealing.” From the seal classification, faults F-2, F-3, F-7 and the Superior Fault were moderately sealing faults, and fault F-11’s SGR (0.5) with limited sand-sand juxtapositions was classified as highly sealing. The SGR for the respective faults exceeded the 0.2 threshold, indicating their potential to act as seals for CO2 migration. The findings are expected to provide valuable knowledge that could enhance the overall understanding of the feasibility of geological CO2 storage in South Africa.enCO2 storageFault sealJuxtapositionPletmos basinShale gouge ratioArticle