Browsing by Author "Malisa, A.L."
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Item Knowledge and practices on malaria and its control among pastoralists in Simanjiro District, northern Tanzania(Sokoine University of Agriculture, Tanzania., 2009-10-04) Malisa, A.L.; Ndukai, M.Community knowledge and practice related to malaria is important for the implementation of appropriate, effective and sustainable interventions. This study was carried out to assess knowledge and practices on malaria and identify factors contributing to the low mosquito net coverage in Simanjiro District in northern Tanzania. A combination of direct observation, focus group discussion (FGD) and questionnaire were employed in data collection. A sample of 200 respondents was selected randomly from 5542 people from the study village. The findings show that, although most (75%) of the respondents were informed that mosquitoes transmit malaria, the remaining quarter of respondents reserved a considerable doubt on the link between mosquitoes and malaria. Sixty five percent of the respondents were aware of the use of insecticide treated nets (ITNs). However, the coverage of any mosquito net and ITN was 12.5% and 5%, respectively. Affordability, unavailability and gender inequality were identified to be major factors associated with the low ITN coverage. The study recommends that, an advocated pluralistic approach of ITN delivery which encourages a coordinated public private alliance is required to ensure equitable and large scale distribution of ITNs in the village.Item The potential of mitochondrial DNA markers and polymerase chain reaction-restriction fragment length polymorphism for domestic and wild species identification(Sokoine University of Agriculture, Tanzania., 2006-09-18) Malisa, A.L.; Gwakisa, P; Balthazary, S.; Wasser, S. K; Mutayoba, B. M.Poaching is increasingly presenting challenge to conservational authorities in Africa. Accurate and reliable methods for the identification of poached wildlife meat when morphological features are missing, has been lacking in Africa. We describe a molecular based approach that has a potential of serving as a tool for game and domestic meat identification in Africa. A mitochondrial (mt246) marker and Rsa1 restriction enzyme were used in the PCR-RFLP species identification of game and domestic meat. Species-specific reference DNA fragment patterns were obtained using fresh meat from ten major wild herbivores, representing the highly targeted wild meat species in Tanzania and four domesticated animal species. With the exception of the zebra, all species produced unique monomorphic RFLP patterns that were species specific. These reference fragment patterns enabled identification of about 75% of unknown meat samples, demonstrating the ability of the technique in discriminating between and among wild and domestic species. The results provide preliminary promising fingerprints which need further validation for future use for the control of the up-surging bush meat trade in the continent.Item The potential of mitochondrial DNA markers and polymerase chain reaction-restriction fragment length polymorphism for domestic and wild species identification(African Journal of Biotechnology, 2006-09-18) Malisa, A.L.; Gwakisa, P; Balthazary, S; Wasser, S; Mutayoba, B.MPoaching is increasingly presenting challenge to conservational authorities in Africa. Accurate and reliable methods for the identification of poached wildlife meat when morphological features are missing, has been lacking in Africa. We describe a molecular based approach that has a potential of serving as a tool for game and domestic meat identification in Africa. A mitochondrial (mt246) marker and Rsa1 restriction enzyme were used in the PCR-RFLP species identification of game and domestic meat. Species-specific reference DNA fragment patterns were obtained using fresh meat from ten major wild herbivores, representing the highly targeted wild meat species in Tanzania and four domesticated animal species. With the exception of the zebra, all species produced unique monomorphic RFLP patterns that were species specific. These reference fragment patterns enabled identification of about 75% of unknown meat samples, demonstrating the ability of the technique in discriminating between and among wild and domestic species. The results provide preliminary promising fingerprints which need further validation for future use for the control of the up-surging bush meat trade in the continent.