ABSTRACT
The Kenyan mountaiu bongo (Fr(/ge/fI/J/lII,' curycerus is(1f1ci) is an endangered
Tragclnphinc antelope sub-species endemic to Mt. Kenya- Aberdare ecosystems.
This antelope has currently been reduced to pockets of small populations in forest
patches (mainly in the Aberdares) exacerbated primarily by habitat fragmentation
due to anthropogenic and disease factors. The conservation and survival of these
species needs vital cmpiricul datil 011 critical luctors such as genetic processes that
might affect their fitness and geographical distribution. The current study
examines the population genetics of the mountain bongo in Kenya using mtDNA
control region sequences. A total of 212 bongo dung samples derived from 4
populations representing Mt. Kenya, Aberdares, Eburu and Mau were collected
following track signs at designated bongo ecological home ranges. Total genomic
DNA was extracted and a 500bp mtDNA control region amplified by polymerase
chain reaction (l'eR) using MT4 and IJ161SII primers. 112 representing 53(Yoof
tile S
buffalo and a duikcr. Samples collected from Fburu and Mall forests were also
identi fied as bongo in spite of anecdotal evidence pointing to non existence of the
species in these areas. Only two mtDNA haplotypes were detected in the 112
bongo samples idcnti ficd. The haplotype and nucleotide diversities were 0.442 and
0.095 respectively estimated using Nei's method as implemented in DnaSP.
Genetic differentiation of the bongo subpopulations due to the geographical
isolation as estimated by Ncis UST was 0.075 indicating very little differentiation.
The CUITent study confirmed presence or bongo ill nil mens studied and detected
very little genetic variation. This information is crucial in guiding the reintroduction
initiative of the bongo back to their native habitats in Kenya.
Breeding strategies aimed at increasing the mountain bongo's genetic variation
such as out breeding need to be put in place to prevent the adverse consequences
associated with low genetic variation in the animals.
Dorcas, G (2021). Spatial Distribution And Assessment Of Genetic Diversity Of The Kenyan Mount Ain Bongo (Tragelaphus Eurycerus Isaaciy Using Dna Based Molecular Markers. Afribary. Retrieved from https://afribary.com/works/spatial-distribution-and-assessment-of-genetic-diversity-of-the-kenyan-mount-ain-bongo-tragelaphus-eurycerus-isaaciy-using-dna-based-molecular-markers
Dorcas, Geraldine "Spatial Distribution And Assessment Of Genetic Diversity Of The Kenyan Mount Ain Bongo (Tragelaphus Eurycerus Isaaciy Using Dna Based Molecular Markers" Afribary. Afribary, 07 May. 2021, https://afribary.com/works/spatial-distribution-and-assessment-of-genetic-diversity-of-the-kenyan-mount-ain-bongo-tragelaphus-eurycerus-isaaciy-using-dna-based-molecular-markers. Accessed 25 Nov. 2024.
Dorcas, Geraldine . "Spatial Distribution And Assessment Of Genetic Diversity Of The Kenyan Mount Ain Bongo (Tragelaphus Eurycerus Isaaciy Using Dna Based Molecular Markers". Afribary, Afribary, 07 May. 2021. Web. 25 Nov. 2024. < https://afribary.com/works/spatial-distribution-and-assessment-of-genetic-diversity-of-the-kenyan-mount-ain-bongo-tragelaphus-eurycerus-isaaciy-using-dna-based-molecular-markers >.
Dorcas, Geraldine . "Spatial Distribution And Assessment Of Genetic Diversity Of The Kenyan Mount Ain Bongo (Tragelaphus Eurycerus Isaaciy Using Dna Based Molecular Markers" Afribary (2021). Accessed November 25, 2024. https://afribary.com/works/spatial-distribution-and-assessment-of-genetic-diversity-of-the-kenyan-mount-ain-bongo-tragelaphus-eurycerus-isaaciy-using-dna-based-molecular-markers