Journal of Environment and Ecology ISSN 2157-6092 2014, Vol. 5, No. 2 www.macrothink.org/jee 159 Land Use Change Detection in OMO Biosphere Reserve Using GIS and Remote Sensing Uzoma Darlington Chima (Corresponding author) Department of Forestry and Wildlife Management, Faculty of Agriculture, University of Port Harcourt, Nigeria Tel: 234-803-812-1887 E-mail: uzoma.chima@uniport.edu.ng Moses Oladepo Adedire Department of Forestry and Wildlife Management, College of Environmental Resources Management, Federal University of Agriculture, Abeokuta, Nigeria E-mail: moadedire@hotmail.com Received: December 16, 2013 Accepted: June 3, 2014 Published: November 5, 2014 doi:10.5296/jee.v5i2.4774 URL: http://dx.doi.org/10.5296/jee.v5i2.4774 Abstract Inadequacy of reliable data on the rate and extent of forest conversion remains a major problem threatening sustainable forest management in Nigeria. In this study, we examined land use change pattern in Omo Biosphere Reserve, Nigeria, between 1987 and 2011. Landsat TM imagery for 1987 and Landsat ETM + imagery for 2011 were analyzed for land use change detection using Erdas Imagine 9.2 and ArcGIS 9.2. The results showed that farmlands, disturbed forests, settlements and rivers increased in area while the areas covered by the natural forests, plantations, and roads decreased from the 1987 figures. The farmlands had the highest increase in area (19025 hectares) from 1987 figures, followed by disturbed forests (10917 hectares), settlements (4262 hectares), and rivers (235 hectares). The highest reduction in area was observed for plantations (22699 hectares), followed by natural forest (10803 hectares) and roads (937 hectares). As at 1987, the natural forest was the most extensive land cover type, occupying 39.32% of the reserve. However, the disturbed forest is now the most extensive of all the land use types covering 36.34% of the reserve, followed by the natural forest (32.05%), farmland (14.78%), plantation (10.62%), settlement (4.11%), roads (1.22%), and rivers (0.87%). There was a drift in the abundance of the natural forest