Department of Natural Resources and Environmental Design, School of Agriculture and Environmental Sciences, North Carolina A and T State University, 1601 E. Market St., Greensboro, NC 27411, United States; Bioenergy and Environmental Biotechnology Researc
Ohimain, E.I., Department of Natural Resources and Environmental Design, School of Agriculture and Environmental Sciences, North Carolina A and T State University, 1601 E. Market St., Greensboro, NC 27411, United States, Bioenergy and Environmental Biotechnology Research Unit, Biological Science Department, Niger Delta University, Wilberforce Island, Amassoma, Bayelsa State, Nigeria
Developments in most tropical coastlines are often hampered by acidification, which occurs when sedimentary pyrites are disturbed during construction activities. Acidification causes vegetation die back, fish mortality, heavy metal pollution, corrosion of concrete, steel and other metallic structures. The aim of this study is to develop tools for predicting the likelihood of acidification occurring in advance prior to project implementation. The study found that acidification indicators including land forms, acidophilic bacteria, soil and water properties, mangrove vegetation, and hydrology and sedimentation pattern are useful tools for predicting acidification. The study concludes by providing keys for the identification of problem soils and recommended the mainstreaming of acidification related issues into the overall EIA process. Copyright © 2011 Inderscience Enterprises Ltd.