Your search keyword '"Kobus"' showing total 4 results

1. Bulk and intra-tooth enamel stable isotopes of waterbuck Kobus ellipsiprymnus from Queen Elizabeth National Park, Uganda.

Author

Copeland, Sandi R., Sponheimer, Matt, Spinage, Clive A., and Lee-Thorp, Julia A.

Subjects

*WATERBUCK, *KOBUS, *PARK reservation systems, *WILDLIFE conservation, *CONSERVATION of natural resources, *ENVIRONMENTAL protection, *FORAGE plants, *GRASSES

Abstract

The article offers information on the research conducted on the intra-tooth enamel stable isotopes of waterbuck Kobus ellipsiprymnus at the Queen Elizabeth National Park (QENP) in Uganda. Researchers found that waterbuck Kobus ellipsiprymnus (K. e.), comprise two genetically distinct subspecies K. e. ellipsiprymnus and K. e. defassa, which are known to be predominantly grazers, which browse in their diet, especially during the dry season when grasses become higher in structural components and lower in protein. Carbon isotope ratio data confirm that defassa waterbuck in the QENP consume mainly C4 grass but include some C3 browse in its diets.

Published

2008

2. Phylogeography, hybridization and Pleistocene refugia of the kob antelope ( Kobus kob).

Author

LORENZEN, ELINE D., DE NEERGAARD, RIKKE, ARCTANDER, PETER, and SIEGISMUND, HANS R.

Subjects

*KOBUS, *PHYLOGEOGRAPHY, *SPECIES hybridization, *ANIMAL migration, *MICROSATELLITE repeats, *NUCLEOTIDE sequence

Abstract

Mitochondrial DNA control region sequences and seven microsatellites were used to estimate the genetic structuring, evolutionary history and historic migration patterns of the kob antelope ( Kobus kob). Ten populations were analysed, representing the three recognized K. kob subspecies: K. k. kob in west Africa, K. k. thomasi in Uganda and K. k. leucotis in Sudan and Ethiopia. Despite being classified as K. k. thomasi and being phenotypically identical to the kob in Queen Elizabeth National Park (NP), the Murchison Falls population in Uganda showed high genetic similarity with the phenotypically distinct K. k. leucotis populations in Sudan and Ethiopia. This was regardless of marker type. Pairwise comparisons and genetic distances between populations grouped Murchison with K. k. leucotis, as did the Bayesian analysis, which failed to find any genetic structuring within the group. We propose that the divergent phenotype and life-history adaptations of K. k. leucotis reflect the isolation of kob populations in refugia in west and east Africa during the Pleistocene. Subsequent dispersal has led to secondary contact and hybridization in northern Uganda between lineages, which was supported by high levels of genetic diversity in Murchison. The reduced variability observed in Queen Elizabeth NP reflects a small founder population from west Africa and in part the decimation of Uganda's wildlife during the country's political turmoil in the 1970s. Due to similarities in phenotype and ecology, and the joint evolutionary history of their mtDNA sequences, the taxonomic status of K. k. kob and K. k. thomasi as separate subspecies is called into question. [ABSTRACT FROM AUTHOR]

Published

2007

3. Large sequence divergence of mitochondrial DNA genotypes of the control region within populations of the African antelope, kob (Kobus kob).

Author

Birungi, J. and Arctander, P.

Subjects

*KOBUS, *MOLECULAR ecology, *GENETICS

Abstract

The genetic differentiation among kob populations (Kobus kob) representing two recognized subspecies was examined using mitochondrial control region sequences. Two distinct lineages (estimated sequence divergence of 9.8%) exhibited different geographical distributions and do not coincide with previously recognized ranges of subspecies. The presence of the two lineages was further supported with sequences of mitochondrial cytochrome b gene. One lineage was predominant in the west and southern ranges of the populations studied and the other was commonly found in a more northern distribution (Murchison populations) in Uganda. Murchison and the geographically intermediate Toro populations (Uganda) represented the area of overlap. The existence of the two lineages in the area of overlap is hypothesized to have resulted from a range expansion and secondary contact of the two lineages of kob that evolved in allopatry. The existence of the kob during the Pleistocene offers a plausible explanation for the observed biogeographic pattern. Our mitochondrial data reveal two examples of discordance between a gene tree and presumed species tree as: (i) the two lineages co-occur in the kob subspecies, Kobus kob thomasi (Uganda kob); and (ii) the puku, which was included in the analysis because of its controversial taxonomic status (currently recognized as a distinct species from the kob), is paraphyletic with respect to the kob. Significant degrees of heterogeneity were detected between populations. Relatively high genetic variation was observed in the populations, however, the inclusion of distinct lineages influences the population structure and nucleotide diversity of the kob populations. [ABSTRACT FROM AUTHOR]

Published

2000

4. Demography of a West African kob (Kobus kob kob ) population.

Author

Fischer, Frauke and Linsenmair, K. Eduard

Subjects

*KOBUS, *SAVANNA ecology

Abstract

Abstract The kob (Kobus kob kob ) population studied in the Comoé National Park, Ivory Coast, suffered unsustainable losses to poaching before and during the investigation. This in turn did not only lead to low densities but also changed the population composition, resulting in a strong female bias in all age classes except juveniles. The relative rarity of adult males probably had negative effects on the population recruitment. Although mating occurred throughout the year and birth intervals were short, at least in some females, annual birth-rate was low compared to earlier studies in the same area. Effective conservation measures are urgently needed to ensure the future existence of the studied population. [ABSTRACT FROM AUTHOR]

Published

2002