Abstract
Drylands occupy 44% of Uganda’s land surface and provide livelihood to a cross-section of both rural and urban folks. However in the face of population pressure, drylands are increasingly in the path of conversion and degradation. This study therefore, performed an assessment of the effect of land use/cover change on biomass stock in olio sub-county from 1973 to 2001. A series of systematically corrected Orthorectified Landsat imageries of 1973, 1986 and 2001 obtained from the Landsat website were used. The images were analysed using unsupervised approach in Integrated Land and Water Information System version 3.3 and validated using field observations and historic memories of village elders. Findings indicate that land use/cover change is driven by small-scale farming. Between 1973-1986 significant declines were identified among small-scale farming (23.2%), grasslands (8.7%) and large scale-farming (9.9%). Further, declines were also registered between 1986-2001 in Bushland (12.1%), woodlands (13.9%) and wetlands (8.2%) while dramatic gains were registered in small-scale farming by 19.4%. These declines led to losses in the available biomass stock by 2001 within bushlands, wetlands and woodlands loosing 29.1 million tons, 669.1 metric tons and 87.3 million tons respectively. We conclude that small-scale farming by resource poor farmers is rapidly transforming the vegetation landscape. Therefore, there is need for increased use of remote sensing and GIS to quantify change patterns at local scales for essential monitoring and assessment of land use and or/cover change effects and human interference on the landscape. @JASEMJ. Appl. Sci. Environ. Manage. December, 2010, Vol. 14 (4) 101 - 106
Highlights
Uganda’s drylands cover 44% of the country (84,000 km2)
Small-scale farming by resource poor farmers has been identified as the key driver of land use/cover change (LUCC) in the area along with biomass extraction for fuelwood
It has been established that land cover conversion is unidirectional and no measurable area that has been converted to subsistence farmlands has been left to revert to its original land cover type and LUCC has a significant influence on biomass stock
Summary
Uganda’s drylands cover 44% of the country (84,000 km). They are the second most fragile ecosystems in the country after the highlands (NEMA, 2007). The current land use/cover change (LUCC) patterns are threatening the stability of these ecosystems; this is because LUCC that once required centuries take place within a few decades. Further LUCC have a potential of triggering local and regional consequences including loss of soil fertility, soil erosion, reduction of biological diversity, hydrological changes, climatic alteration and a modification of the atmospheric composition. These have all attracted attention in the recent past but one very basic effect of LUCC on biomass stock has eluded attention. It is within this background that this study sought to determine the effect of LUCC on biomass stock
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