ABSTRACT
The Mara River is the lifeline of the Trans boundary Mara basin across Kenya and Tanzania.
The basin is considered one of the more serene sub-catchments of the Lake Victoria Basin
and ultimately the Nile Basin. The basin traverses the famous Maasai Mara and Serengeti
National Parks in Kenya and Tanzania respectively. The basin also contains forests, largescale
farms, smallholder farms, pastoral grazing lands, as well as hunter gatherers and fishers.
There is growing concern however, regarding land degradation in the basin, particularly
deforestation in the headwaters, that is affecting the natural resource base and the river flows.
Scientific studies are required to advise on policy issues, and to plan appropriate mitigation
measures. This study utilizes remote sensing and geographical information system (GIS)
tools, and hydrological and ground-truth studies to determine the magnitude of the landuse/
cover changes in the Mara River Basin, and the effects of these changes on the river
flows over the last 30 years. The results of the studies indicate that land-use/cover changes
have occurred in the basin. In 1973, for example, rangelands (savannah, grasslands and
shrublands) covered 10,989 km2 (79%) of the total basin area. The rangelands have now been
reduced to 7,245 km2 (52%) by 2000. The forest areas have been reduced by 32% over the
same period. These changes have been attributed to the encroachment of agriculture, which
has more than doubled (203%) its land area over the same period. To investigate the effects
of land cover change on river flow, stream flow was generated from derived land cover
thematic maps of 1973 and 2000 using the same rainfall and evaporation data of 1983 to 1992
period. The other model input datasets for topography and soils were held constant
during the two runs. The differences in the generated hydrographs could only be associated to
changes in land cover, which was the only variable. The percentage difference between the
mean annual stream flows of the two hydrographs was negligible at 0.01%. This study
therefore concludes that land cover changes in the basin have changed the day to day
flow characteristics of the river but the annual flow volumes remain unaffected. There is
need for urgent action to stem the land degradation of the Mara River Basin, including
planning and implementing appropriate mitigation measures
Kipampi, O (2021). School Of Water Resources Science And Technology. Afribary. Retrieved from https://tracking.afribary.com/works/school-of-water-resources-science-and-technology
Kipampi, Oruma "School Of Water Resources Science And Technology" Afribary. Afribary, 08 May. 2021, https://tracking.afribary.com/works/school-of-water-resources-science-and-technology. Accessed 26 Nov. 2024.
Kipampi, Oruma . "School Of Water Resources Science And Technology". Afribary, Afribary, 08 May. 2021. Web. 26 Nov. 2024. < https://tracking.afribary.com/works/school-of-water-resources-science-and-technology >.
Kipampi, Oruma . "School Of Water Resources Science And Technology" Afribary (2021). Accessed November 26, 2024. https://tracking.afribary.com/works/school-of-water-resources-science-and-technology