Nanotechnology Applications for Oil Spill Remediation in Sub-Saharan Africa: A Critical Review of Mechanisms, Constraints, and Prospects
Muhammad Kabir Usman *
Department of Physics and Environmental Science, Sharda University, India.
Usman Aliu Omeiza
Department of Agricultural and Bioresources Engineering, Federal University of Technology, Minna, Nigeria.
Yusuf Yusuf Arowosaye
Department of Environmental Engineering, Kyungpook National University, South Korea.
Alkasim Yushau
Department of pure and Industrial Chemistry, Bayero University, Kano, Nigeria.
Adamu Abdulmumini
Department of Civil Engineering Technology, Federal Polytechnic Damaturu, Yobe State, Nigeria.
Mustapha Saidu
Department of Biology, University of St Andrews, Scotland, United Kingdom.
*Author to whom correspondence should be addressed.
Abstract
Oil spillage remains one of the most persistent and under-addressed environmental hazards confronting Sub-Saharan Africa, with the Niger Delta standing as the most heavily documented but by no means the only affected region. Decades of pipeline vandalism, ageing infrastructure, illegal refining and operational discharges have left mangrove forests, farmland and freshwater systems contaminated with petroleum hydrocarbons, with consequences that extend into fisheries collapse, soil infertility and chronic human exposure to carcinogenic compounds. Conventional remediation methods, including mechanical skimming, in-situ burning, chemical dispersants and unassisted bioremediation, have shown only partial success in this setting, constrained by cost, slow degradation kinetics, secondary pollution and limited applicability to the region's swamp and estuarine terrain. Nanotechnology has, over roughly the last fifteen years, emerged as a complementary set of tools capable of addressing several of these shortcomings through magnetic nanosorbents, carbon-based and biopolymer adsorbents, nanoparticle-enhanced bioremediation, photocatalytic degradation and nanostructured dispersants. This review synthesises the peer-reviewed literature on these nanomaterial classes, evaluates the mechanisms by which they intensify oil recovery and degradation, and critically examines the structural, economic, regulatory and socio-cultural conditions that will determine whether such technologies can be meaningfully deployed across Sub-Saharan Africa. Particular attention is given to the trade-offs between recovery efficiency and ecological safety, given that the toxicological profile of many engineered nanomaterials remains incompletely characterised in tropical aquatic and soil systems. The review concludes that nanotechnology offers genuine, if currently uneven, promise for the region, contingent on locally adapted material design, strengthened institutional capacity, and the establishment of risk-governance frameworks suited to resource-constrained settings.
Keywords: Nanotechnology, oil spill remediation, Sub-Saharan Africa, Niger Delta, nanosorbents, bioremediation, nanotoxicology, environmental governance