Browsing by Author "Mopipi, K."
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Item Applied Range Management: AGP 324, Degree Examinations November 2018(University of Fort Hare, 2018-11) Beyene, S.T.; Mopipi, K.Item Evaluating farmers’ perceptions and the impact of bush encroachment on herbaceous vegetation and soil nutrients in Sheshegu communal rangelands of the Eastern Cape, South Africa.(University of Fort Hare, 2016) Tokozwayo, Sive; Mopipi, K.Communal rangelands occupy 13% of the agricultural land in South Africa, and these rangelands serve as a source of feed to livestock. These areas are threatened by bush encroachment due to poor rangeland management. This study was conducted in Alice (Sheshegu communal area) and the objective was to assess farmers' perceptions and the impact of bush encroachment on herbaceous vegetation and soil nutrients. Structured questionnaires were used to assess indigenous knowledge of communal farmers on the impact of bush encroachment on rangelands. Fourty (40) respondents from households who owned livestock were randomly selected and interviewed at Sheshegu village. About 89% of communal farmers perceived that change of their grasslands to encroached savannas was caused by unreliable rainfall, prolonged drought, and poor rangeland management. Rangeland assessment was performed at four sites (Scattered, Moderate, Mixed and Dense bushland. 100mx50m were demarcated per site, and four 100m transects were laid parallel to each other, 30m apart. The step point method was used to determine both species composition and basal cover. Biomass production was determined by harvesting forage within randomly-paced a 0.25m2 quadrats. Aristada congesta and Eragrostis obtuse were the most dominating grass species in dense, mixed and moderate bushland. Scattered bushland was dominated by Themeda triandra. Biomass production increases with increase in bush density and basal cover improved from winter to summer season. Increaser grass species increase with the increase in bush density, this indicated that the rangeland was poorly managed and palatable species were being replaced by less palatable ones. Species composition of woody plants was determined within a 200m2 belt transect in all sites. Maytenus polycantha, Aloe ferox, Erehia rigida and lucas capensis were the most dominant woody species in Mixed bushland while Acacia karroo was most dominated in Scattered, Moderate and Dense bushland. Woody density showed no significant differences (P> 0.05) between Dense, Mixed and Moderate bushland. Woody plant density in all these sites exceed 2500 plants/ha, which showed that the rangeland was encroached with woody plants. Soil nutrient content was determined for each site. Five samples of soil were collected per site to test the effect of bush encroachment on soil nutrient composition. The concentration of nitrogen and soil pH vi increased with increase in bush density, while that of potassium, phosphorous, magnesium, sodium and sulphur showed no significant differences (P>0.05) across all homogenous vegetation units. The study revealed that Sheshegu communal farmers are aware of both negative and positive effects of encroachment on their community, and also argue that the government is not willing to support communal farmers in the process of reducing the spread of bush encroachment. It was concluded that the concentration of nitrogen and soil pH increased with increasing bush density and that bush encroachment had negative effects on herbaceous species. It was recommended that communal farmers should be formulating rangeland rules and regulations to manage rangeland resources. Rangeland rules and regulations should be based on the management of livestock management during grazing and harvesting of rangeland resources. The harvesting of woody and good timing of application of fire can also reduce the spread of bush encroachment. Veld resting and rotational grazing can also improve fuel load which is required for burning of woody plants. Furthermore, Department of agriculture should also provide workshops or training to communal farmers use different approaches or cheap ways of reducing bush encroachment and conserving rangeland resources.Item Land Use Planning: ALP 313, Special Examinations January 2019(University of Fort Hare, 2019-01) Gajana, C.S.; Manyevere, A.; Yusuf, S.F.G.; Mopipi, K.; Mzini, L.L.; Moyo, R.; Mdletshe, S.T.C.; Nortje, G.Item Land Use Planning: APL 313, Degree June examinations 2017(2017) Mupangwa, J.; Trollip, I.R.F.; Manyevere, A.; Yusuf, S.F.G.; Mopipi, K.; Maphaha, M.; Moyo, R.; Laker, M.C.Item Pasture Anatomy and Physiology: AGP 223, Degree Examinations November 2018(University of Fort Hare, 2018-11) Beyene, S.T.; Mopipi, K.Item Pasture Anatomy and Physiology: AGP 223, Degree Examinations November 2018(University of Fort Hare, 2018-11) Beyene, S.T.; Mopipi, K.Item Veld and Cultivated Management: AGP 222, Degree Examinations November 2018(University of Fort Hare, 2018-11) Ntutha, T.; Mpongwana, S.; Mopipi, K.Item Veld and Cultivated Management: AGP 222, Supplementary Examinations January 2019(University of Fort Hare, 2019-01) Ntutha, T.; Mpongwana, S.; Mopipi, K.Item Veld Rehabilitation: AGP 421, Degree Examinations November 2017(University of Fort Hare, 2017-11) Mopipi, K.; Beyene, S.T.; Mbatha, K.R.