Your search keyword '"Siegismund, Hans R."' showing total 12 results

1. A long-standing Pleistocene refugium in southern Africa and a mosaic of refugia in East Africa: insights from mtDNA and the common eland antelope

Author

Lorenzen, Eline D., Masembe, Charles, Arctander, Peter, Siegismund, Hans R., and Hafner, David

Published

2010

2. Three genetically divergent lineages of the Oryx in eastern Africa: Evidence for an ancient introgressive hybridization

Author

Masembe, Charles, Muwanika, Vincent B., Nyakaana, Silvester, Arctander, Peter, and Siegismund, Hans R.

Published

2006

3. Distribution of mtDNA haplotypes in North Atlantic humpback whales: the influence of behaviour on population structure

Author

Palsbøll, Per J., Clapham, Phillip J., Mattila, David K., Larsen, Finn, Sears, Richard, Siegismund, Hans R., Sigurjónsson, Johann, Vasquez, Oswaldo, and Arctander, Peter

Published

1995

4. Cape buffalo mitogenomics reveals a Holocene shift in the African human-megafauna dynamics.

Author

HELLER, RASMUS, BRÜNICHE-OLSEN, ANNA, and SIEGISMUND, HANS R.

Subjects

AFRICAN buffalo, CLIMATE change, MITOCHONDRIAL DNA, POPULATION, PLEISTOCENE Epoch, HOLOCENE Epoch, BAYESIAN analysis

Abstract

Africa is unique among the continents in having maintained an extraordinarily diverse and prolific megafauna spanning the Pleistocene-Holocene epochs. Little is known about the historical dynamics of this community and even less about the reasons for its unique persistence to modern times. We sequenced complete mitochondrial genomes from 43 Cape buffalo ( Syncerus caffer caffer) to infer the demographic history of this large mammal. A combination of Bayesian skyline plots, simulations and Approximate Bayesian Computation (ABC) were used to distinguish population size dynamics from the confounding effect of population structure and identify the most probable demographic scenario. Our analyses revealed a late Pleistocene expansion phase concurrent with the human expansion between 80 000 and 10 000 years ago, refuting an adverse ecological effect of Palaeolithic humans on this quarry species, but also showed that the buffalo subsequently declined during the Holocene. The distinct two-phased dynamic inferred here suggests that a major ecological transition occurred in the Holocene. The timing of this transition coincides with the onset of drier conditions throughout tropical Africa following the Holocene Optimum (∼9000-5000 years ago), but also with the explosive growth in human population size associated with the transition from the Palaeolithic to the Neolithic cultural stage. We evaluate each of these possible causal factors and their potential impact on the African megafauna, providing the first systematic assessment of megafauna dynamics on the only continent where large mammals remain abundant. [ABSTRACT FROM AUTHOR]

Published

2012

5. Genetic Diversity among Ancient Nordic Populations.

Author

Melchior, Linea, Lynnerup, Niels, Siegismund, Hans R., Kivisild, Toomas, and Dissing, Jørgen

Subjects

FOSSIL DNA, MITOCHONDRIAL DNA, DANES, HUMAN population genetics, HUNTER-gatherer societies, BELL beaker culture, MESOLITHIC Period, MIDDLE Ages, BANDKERAMIK culture

Abstract

Using established criteria for work with fossil DNA we have analysed mitochondrial DNA from 92 individuals from 18 locations in Denmark ranging in time from the Mesolithic to the Medieval Age. Unequivocal assignment of mtDNA haplotypes was possible for 56 of the ancient individuals; however, the success rate varied substantially between sites; the highest rates were obtained with untouched, freshly excavated material, whereas heavy handling, archeological preservation and storage for many years influenced the ability to obtain authentic endogenic DNA. While the nucleotide diversity at two locations was similar to that among extant Danes, the diversity at four sites was considerably higher. This supports previous observations for ancient Britons. The overall occurrence of haplogroups did not deviate from extant Scandinavians, however, haplogroup I was significantly more frequent among the ancient Danes (average 13%) than among extant Danes and Scandinavians (∼2.5%) as well as among other ancient population samples reported. Haplogroup I could therefore have been an ancient Southern Scandinavian type ''diluted'' by later immigration events. Interestingly, the two Neolithic samples (4,200 YBP, Bell Beaker culture) that were typed were haplogroup U4 and U5a, respectively, and the single Bronze Age sample (3,300-3,500 YBP) was haplogroup U4. These two haplogroups have been associated with the Mesolithic populations of Central and Northern Europe. Therefore, at least for Southern Scandinavia, our findings do not support a possible replacement of a haplogroup U dominated hunter-gatherer population by a more haplogroup diverse Neolithic Culture. [ABSTRACT FROM AUTHOR]

Published

2010

6. Population Genetic Structure of Savannah Elephants in Kenya: Conservation and Management Implications.

Author

Okello, John B. A., Masembe, Charles, Rasmussen, Henrik B., Wittemyer, George, Omondi, Patrick, Kahindi, Onesmas, Muwanika, Vincent B., Arctander, Peter, Douglas-Hamilton, Iain, Nyakaana, Silvester, and Siegismund, Hans R.

Subjects

POPULATION genetics, ELEPHANTS, MITOCHONDRIAL DNA, NUCLEOTIDES

Abstract

We investigated population genetic structure and regional differentiation among African savannah elephants in Kenya using mitochondrial and microsateilite markers. We observed mitochondrial DNA (mtDNA) nucleotide diversity of 1.68% and microsatellite variation in terms of average number of alleles, expected and observed heterozygosities in the total study population of 10.20, 0.75, and 0.69, respectively. Hierarchical analysis of molecular variance of mtDNA variation revealed significant differentiation among the 3 geographical regions studied (FCT 0.264; P < 0.05) and a relatively lower differentiation among populations within regions (FSC = 0.218; P < 0.0001). Microsatellite variation significantly differentiated among populations within regions (FSC = 0.019; P < 0.0001) but not at the regional levels (FCT = 0.000; P > 0.500). We attribute the high differentiation at the mitochondrial genome to the matrilineal social structure of elephant populations, female natal philopatry, and probably ancient vicariance. Lack of significant regional differentiation at the nuclear loci vis-a-vis strong differences at mtDNA loci between regions is likely the effect of subsequent homogenization through male-mediated gene flow. Our results depicting 3 broad regional mtDNA groups and the observed population genetic differentiation as well as connectivity patterns should be incorporated in the planning of future management activities such as translocations. [ABSTRACT FROM AUTHOR]

Published

2008

7. High variation and very low differentiation in wide ranging plains zebra ( Equus quagga): insights from mtDNA and microsatellites.

Author

LORENZEN, ELINE D., ARCTANDER, PETER, and SIEGISMUND, HANS R.

Subjects

QUAGGA, ZEBRAS, MITOCHONDRIAL DNA, MITOCHONDRIA, GENES, NUCLEIC acids, EQUIDAE, MICROSATELLITE repeats, ANIMAL morphology, GROWTH

Abstract

Patterns of genetic differentiation in the plains zebra ( Equus quagga) were analysed using mitochondrial DNA control region variation and seven microsatellites. The six morphologically defined subspecies of plains zebra lacked the population genetic structure indicative of distinct evolutionary units. Both marker sets showed high levels of genetic variation and very low levels of differentiation. There was no geographical structuring of mitochondrial DNA haplotypes in the phylogenetic tree, and the plains zebra showed the lowest overall differentiation recorded in any African ungulate studied so far. Arid-adapted African ungulates have shown significant regional genetic structuring in support of the Pleistocene refuge theory. This was not the case in the zebra, and the data are discussed in relation to the impact of Pleistocene climate change on a nonbovid member of the savannah ungulate community. The only other species showing a similar absence of genetic structuring is the African buffalo ( Syncerus caffer), but this taxon lacks the high levels of morphological variation present in the plains zebra. [ABSTRACT FROM AUTHOR]

Published

2008

8. Three reciprocally monophyletic mtDNA lineages elucidate the taxonomic status of Grant's gazelles.

Author

Lorenzen, Eline D., Arctander, Peter, and Siegismund, Hans R.

Subjects

GAZELLA, PHYLOGEOGRAPHY, MITOCHONDRIAL DNA, BIOLOGICAL evolution, NUCLEIC acids, BIOLOGICAL divergence, DNA

Abstract

The intraspecific phylogeography of Grant's gazelles Nanger granti was assessed with mitochondrial DNA control region sequences. Samples of 177 individuals from 17 Kenyan and Tanzanian populations were analysed. Three highly divergent, reciprocally monophyletic lineages were found, with among group net nucleotide distances of 8-12%. The three lineages—notata, granti and petersii—grouped populations according to their geographic origin, encompassing populations in the north, southwest, and east, respectively. The mtDNA lineages reflected distinct evolutionary trajectories, and the data are discussed in reference to the four currently recognised subspecies. We suggest Grant's gazelles be raised to the superspecies Nanger (granti) comprising three taxonomic units corresponding to the three mtDNA lineages. There was no evidence of gene flow between the notata and granti lineages, despite their geographic proximity, suggesting reproductive isolation. These constitute evolutionary significant units within the adaptive evolutionary framework. Due to its restricted geographic distribution and genetic and morphological distinctiveness, we suggest the petersii lineage be raised to the species Nanger (granti) petersii within the Grant's gazelles superspecies. [ABSTRACT FROM AUTHOR]

Published

2008

9. Hybridization between subspecies of waterbuck ( Kobus ellipsiprymnus) in zones of overlap with limited introgression.

Author

Lorenzen, Eline D., Simonsen, Bo T., Kat, Pieter W., Arctander, Peter, and SIegismund, Hans R.

Subjects

SPECIES hybridization, ANIMAL genetics, MITOCHONDRIAL DNA, WATERBUCK, NUCLEIC acids, CONSERVATION biology, PHENOTYPES, BAYESIAN analysis

Abstract

Two subspecies of waterbuck ( Kobus ellipsiprymnus), common ( Kobus ellipsiprymnus ellipsiprymnus) and defassa ( Kobus ellipsiprymnus defassa), are recognized based on differences in rump pattern, coat colour and geographical distribution. These forms are parapatrically distributed with an area of range overlap in East Africa, where phenotypically intermediate populations occur. Variation in 478 bp of the mitochondrial DNA control region and 14 polymorphic microsatellite loci were used to describe the genetic structure and phylogeographical pattern of the species, and to assess if the intermediate populations are the results of hybridization. In total, 186 individuals from 11 localities were analysed. A high degree of genetic differentiation was found between subspecies, although this was most evident from the microsatellite data. Hybridization was suggested in the phenotypically and geographically intermediate Nairobi NP population in Kenya. A neighbour-joining (NJ) tree based on microsatellite population genetic distances grouped Nairobi between the common and defassa populations, and a Bayesian analysis clearly showed introgression. Individuals sampled in Samburu NP, Kenya, had a common waterbuck phenotype, but introgression was suggested by both markers. Although a high degree of maternal defassa input was indicated from the sequence data, the Samburu population grouped with the common waterbuck in the microsatellite population genetic distance tree, with high support. Analyses of linkage disequilibrium and maximum-likelihood estimates of genetic drift suggested that admixture between subspecies is a recent event. The fact that introgression is limited between subspecies could be caused by chromosomal differences, hindering gene flow between common and defassa waterbuck. [ABSTRACT FROM AUTHOR]

Published

2006

10. Regional Genetic Structuring and Evolutionary History of the Impala Aepyceros melampus.

Author

Lorenzen, Eline D., Arctander, Peter, Siegismund, Hans R., and Ryder, Oliver

Subjects

IMPALA, AEPYCEROS, BIOLOGICAL evolution, GENES, MITOCHONDRIAL DNA

Abstract

Samples of 162 impala antelope (Aepyceros melampus) from throughout its distribution range in sub-Saharan Africa were surveyed using eight polymorphic microsatellite loci. Furthermore, 155 previously published mitochondrial DNA (mtDNA) sequences from the same localities were reanalyzed. Two subspecies of impala are presently recognized--the isolated black-faced impala (Aepyceros melampus petersi) in southwest Africa and the common impala (Aepyceros melampus melampus) abundant in southern and east Africa. All tests performed indicated significant genetic differentiation at the subspecific level. Furthermore, individual-based analyses split the common impala subspecies into two distinct genetic groups, conforming with regional geographic affiliation to southern or east Africa. This was supported by assignment tests, genetic distance measures, pairwise θ values, and analysis of molecular variance. We suggest that the presence of such previously unknown regional structuring within the subspecies reflects a pattern of colonization from a formerly large panmictic population in southern Africa toward east Africa. This scenario was supported by a progressive decline in population diversity indices toward east Africa and a significant increase in the quantity θ/(1 - θ). Both microsatellite and mtDNA data indicated a genetic distinctiveness of the Samburu population in Kenya. [ABSTRACT FROM AUTHOR]

Published

2006

11. Extreme genetic differences among populations of Gazella granti, Grant's gazelle, in Kenya.

Author

Arctander, Peter, Kat, Pieter W, Aman, Rashid A, and Siegismund, Hans R

Subjects

GAZELLA, POPULATION genetics, MITOCHONDRIAL DNA

Abstract

Mitochondrial DNA (mtDNA) control region sequences from six Kenyan Grant's gazelle (Gazella granti) populations were highly divergent among locations. Neighbouring populations not separated by geographical or vegetational barriers exhibited a nucleotide sequence divergence of about 14 per cent. A similar level of divergence separates Grant's gazelles from a closely related species, the Soemmering's gazelle (G. soemmeringii). Nuclear microsatellite repeat number variation at two loci also indicated substantial population genetic differentiation. Despite high levels of sequence divergence, populations of Grant's gazelles were more closely related to each other than to Soemmering's and Thomson's gazelles (G. thomsoni) as measured by nucleotide sequence divergence at the mtDNA protein coding cytochrome b gene and the nuclear α-lactalbumin gene. This pattern of extensive differentiation is hypothesized to have resulted from recently established contacts between formerly allopatric populations. [ABSTRACT FROM AUTHOR]

Published

1996

12. Mitochondrial DNA diversity and population structure of a forest-dependent rodent, Praomys taitae (Rodentia: Muridae) Heller 1911, in the fragmented forest patches of Taita Hills, Kenya.

Author

Nyakaana, Silvester, Tumusiime, Christopher, Oguge, Nicholas, Siegismund, Hans R., Arctander, Peter, and Muwanika, Vincent

Subjects

*MITOCHONDRIAL DNA, *NUCLEOTIDE sequence, *GENETIC mutation, *EXPERIMENTAL design

Abstract

The population genetic structure of the forest-dependent rodent, Praomys taitae, sampled from nine indigenous forest fragments distributed over three ranges of the Taita Hills in Kenya, was determined using mitochondrial DNA (mtDNA) control region sequence variation. Thirty-three unique haplotypes were observed in a total sample of 132 individuals, whereas the number of different haplotypes per population ranged from two to 10. An overall low nucleotide diversity of 0.9% was observed in the total sample but varied widely between populations (0.2-1.3%). Significant genetic differentiation was observed in 30 of the 36 possible pair-wise comparisons between populations, while a hierarchical AMOVA revealed significant genetic subdivision between groups of populations on the three hill ranges of Dabida, Mbololo and Kyulu (FCT = 0.404, P < 0.01), among populations on each of the hill ranges (FSC = 0.112, P < 0.01) and among populations in the total sample (FST = 0.471, P < 0.001). Demographic history analyses based on pair-wise nucleotide sequence mismatch distributions revealed that all the populations were in mutation-drift disequilibrium except the populations of the Kyulu and Ronge forest fragments. [ABSTRACT FROM AUTHOR]

Published

2008