Search

Your search keyword '"McDevitt, A D"' showing total 19 results
Start Over Author "McDevitt, A D" Topic mitochondrial dna
19 results on '"McDevitt, A D"'

8. Post-glacial colonization of Europe by the wood mouse, Apodemus sylvaticus: evidence of a northern refugium and dispersal with humans.

Author

HERMAN, JEREMY S., JÓHANNESDÓTTIR, FRÍĐA, JONES, ELEANOR P., MCDEVITT, ALLAN D., MICHAUX, JOHAN R., WHITE, THOMAS A., WÓJCIK, JAN M., and SEARLE, JEREMY B.

Subjects
APODEMUS sylvaticus, PHYLOGEOGRAPHY, CYTOCHROME b, LAST Glacial Maximum
Abstract

The wood mouse Apodemus sylvaticus is an opportunistic rodent that is found throughout most of the European mainland. It is present on many islands around the margins of the continent and in northern Africa. The species has been the subject of previous phylogeographical studies, although these have focussed on the more southerly part of its range. A substantial number of new samples, many of them from the periphery of the species' range, contribute to an exceptional dataset comprising 981 mitochondrial cytochrome b sequences. These new data provide sufficient resolution to transform our understanding of the survival of the species through the last glaciation and its subsequent re-colonization of the continent. The deepest genetic split that we found is in agreement with previous studies and runs from the Alps to central Ukraine, although we further distinguish two separate lineages in wood mice to the north and west of this line. It is likely that this part of Europe was colonized from two refugia, putatively located in the Iberian peninsula and the Dordogne or Carpathian region. The wood mouse therefore joins the growing number of species with extant populations that appear to have survived the Last Glacial Maximum in northern refugia, rather than solely in traditionally recognized refugial locations in the southern European peninsulas. Furthermore, the existence of a northern refugium for the species was predicted in a study of mitochondrial variation in a specific parasite of the wood mouse, demonstrating the potential value of data from parasites to phylogeographical studies. Lastly, the presence of related haplotypes in widely disparate locations, often on islands or separated by substantial bodies of water, demonstrates the propensity of the wood mouse for accidental human-mediated transport. [ABSTRACT FROM AUTHOR]

Published
2017

9. Between the Balkans and the Baltic: Phylogeography of a Common Vole Mitochondrial DNA Lineage Limited to Central Europe.

Author

Stojak, Joanna, McDevitt, Allan D., Herman, Jeremy S., Kryštufek, Boris, Uhlíková, Jitka, Purger, Jenő J., Lavrenchenko, Leonid A., Searle, Jeremy B., and Wójcik, Jan M.

Subjects
*MICROTUS arvalis, *MITOCHONDRIAL DNA, *PHYLOGEOGRAPHY
Abstract

The common vole (Microtus arvalis) has been a model species of small mammal for studying end-glacial colonization history. In the present study we expanded the sampling from central and eastern Europe, analyzing contemporary genetic structure to identify the role of a potential ‘northern glacial refugium’, i.e. a refugium at a higher latitude than the traditional Mediterranean refugia. Altogether we analyzed 786 cytochrome b (cytb) sequences (representing mitochondrial DNA; mtDNA) from the whole of Europe, adding 177 new sequences from central and eastern Europe, and we conducted analyses on eight microsatellite loci for 499 individuals (representing nuclear DNA) from central and eastern Europe, adding data on 311 new specimens. Our new data fill gaps in the vicinity of the Carpathian Mountains, the potential northern refugium, such that there is now dense sampling from the Balkans to the Baltic Sea. Here we present evidence that the Eastern mtDNA lineage of the common vole was present in the vicinity of this Carpathian refugium during the Last Glacial Maximum and the Younger Dryas. The Eastern lineage expanded from this refugium to the Baltic and shows low cytb nucleotide diversity in those most northerly parts of the distribution. Analyses of microsatellites revealed a similar pattern but also showed little differentiation between all of the populations sampled in central and eastern Europe. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

10. Post-glacial colonization of eastern Europe from the Carpathian refugium: evidence from mitochondrial DNA of the common vole Microtus arvalis.

Author

Stojak, Joanna, McDevitt, Allan D., Herman, Jeremy S., Searle, Jeremy B., and Wójcik, Jan M.

Subjects
*MITOCHONDRIAL DNA, *ZOOARCHAEOLOGY, *DISPERSAL (Ecology), *GENETIC polymorphisms, *MICROTUS arvalis
Abstract

There is now considerable evidence for the survival of temperate species within glacial refugia that were situated at relatively high latitudes, notably the Carpathian Basin and Dordogne region in Europe. However, the prevalence of fossil remains in such locations is rarely matched by molecular evidence for their contribution to subsequent geographical and demographic expansion of the species in question. One obstacle to this has been insufficient analysis of modern samples from the relevant areas, in particular the parts of eastern Europe that surround the Carpathian refugium. In the present study, we examine the patterns of variation in mitochondrial DNA of the common vole ( Microtus arvalis), obtained from existing museum specimens and from newly-collected samples obtained in this area. We show that common voles from one of six extant mitochondrial DNA lineages have colonized most of the species' range in eastern Europe. We contend that the post-glacial dispersal of this lineage most likely originated from the Carpathian refugium, adding support to the argument that such northern refugia made an important contribution to existing genetic diversity in Europe. © 2015 The Linnean Society of London, Biological Journal of the Linnean Society, 2015, ●●, ●●-●●. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

11. Land-Bridge Calibration of Molecular Clocks and the Post-Glacial Colonization of Scandinavia by the Eurasian Field Vole Microtus agrestis.

Author

Herman, Jeremy S., McDevitt, Allan D., Kawałko, Agata, Jaarola, Maarit, Wójcik, Jan M., and Searle, Jeremy B.

Subjects
*COLONIZATION, *MICROTUS agrestis, *PHYLOGEOGRAPHY, *MOLECULAR genetics, *DNA analysis
Abstract

Phylogeography interprets molecular genetic variation in a spatial and temporal context. Molecular clocks are frequently used to calibrate phylogeographic analyses, however there is mounting evidence that molecular rates decay over the relevant timescales. It is therefore essential that an appropriate rate is determined, consistent with the temporal scale of the specific analysis. This can be achieved by using temporally spaced data such as ancient DNA or by relating the divergence of lineages directly to contemporaneous external events of known time. Here we calibrate a Eurasian field vole (Microtus agrestis) mitochondrial genealogy from the well-established series of post-glacial geophysical changes that led to the formation of the Baltic Sea and the separation of the Scandinavian peninsula from the central European mainland. The field vole exhibits the common phylogeographic pattern of Scandinavian colonization from both the north and the south, however the southernmost of the two relevant lineages appears to have originated in situ on the Scandinavian peninsula, or possibly in the adjacent island of Zealand, around the close of the Younger Dryas. The mitochondrial substitution rate and the timescale for the genealogy are closely consistent with those obtained with a previous calibration, based on the separation of the British Isles from mainland Europe. However the result here is arguably more certain, given the level of confidence that can be placed in one of the central assumptions of the calibration, that field voles could not survive the last glaciation of the southern part of the Scandinavian peninsula. Furthermore, the similarity between the molecular clock rate estimated here and those obtained by sampling heterochronous (ancient) DNA (including that of a congeneric species) suggest that there is little disparity between the measured genetic divergence and the population divergence that is implicit in our land-bridge calibration. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

12. Land-Bridge Calibration of Molecular Clocks and the Post-Glacial Colonization of Scandinavia by the Eurasian Field Vole Microtus agrestis.

Author

Herman, Jeremy S., McDevitt, Allan D., Kawałko, Agata, Jaarola, Maarit, Wójcik, Jan M., and Searle, Jeremy B.

Subjects
COLONIZATION, MICROTUS agrestis, PHYLOGEOGRAPHY, MOLECULAR genetics, DNA analysis
Abstract

Phylogeography interprets molecular genetic variation in a spatial and temporal context. Molecular clocks are frequently used to calibrate phylogeographic analyses, however there is mounting evidence that molecular rates decay over the relevant timescales. It is therefore essential that an appropriate rate is determined, consistent with the temporal scale of the specific analysis. This can be achieved by using temporally spaced data such as ancient DNA or by relating the divergence of lineages directly to contemporaneous external events of known time. Here we calibrate a Eurasian field vole (Microtus agrestis) mitochondrial genealogy from the well-established series of post-glacial geophysical changes that led to the formation of the Baltic Sea and the separation of the Scandinavian peninsula from the central European mainland. The field vole exhibits the common phylogeographic pattern of Scandinavian colonization from both the north and the south, however the southernmost of the two relevant lineages appears to have originated in situ on the Scandinavian peninsula, or possibly in the adjacent island of Zealand, around the close of the Younger Dryas. The mitochondrial substitution rate and the timescale for the genealogy are closely consistent with those obtained with a previous calibration, based on the separation of the British Isles from mainland Europe. However the result here is arguably more certain, given the level of confidence that can be placed in one of the central assumptions of the calibration, that field voles could not survive the last glaciation of the southern part of the Scandinavian peninsula. Furthermore, the similarity between the molecular clock rate estimated here and those obtained by sampling heterochronous (ancient) DNA (including that of a congeneric species) suggest that there is little disparity between the measured genetic divergence and the population divergence that is implicit in our land-bridge calibration. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

13. A species-to-be? The genetic status and colonization history of the critically endangered Killarney shad.

Author

Coscia, Ilaria, McDevitt, Allan D., King, James J., Roche, William K., McLoughlin, Carol, and Mariani, Stefano

Subjects
*SHAD, *ENDANGERED species, *ALOSA, *MITOCHONDRIAL DNA, *MICROSATELLITE repeats, *CLASSIFICATION of fish
Abstract

Highlights: [•] The Killarney shad Alosa killarnensis is a landlocked population surviving in a freshwater lake in Ireland. [•] Its colonization history and taxonomic status has been subject to much debate. [•] We used microsatellites and mitochondrial DNA (mtDNA) in a coalescent framework to investigate these questions. [•] The two mtDNA lineages present originated from anadromous twaite shad, which colonized the lake in two separate events. [•] Microsatellites show evidence of long-term separation from its sister taxon, supporting species designation. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

14. Reconstruction of caribou evolutionary history in Western North America and its implications for conservation.

Author

WECKWORTH, BYRON V., MUSIANI, MARCO, McDEVITT, ALLAN D., HEBBLEWHITE, MARK, and MARIANI, STEFANO

Subjects
CARIBOU, ENDANGERED species, GENETIC markers, SUBSPECIES, PHYLOGEOGRAPHY, MITOCHONDRIAL DNA
Abstract

The role of Beringia as a refugium and route for trans-continental exchange of fauna during glacial cycles of the past 2 million years are well documented; less apparent is its contribution as a significant reservoir of genetic diversity. Using mitochondrial DNA sequences and 14 microsatellite loci, we investigate the phylogeographic history of caribou ( Rangifer tarandus) in western North America. Patterns of genetic diversity reveal two distinct groups of caribou. Caribou classified as a Northern group, of Beringian origin, exhibited greater number and variability in mtDNA haplotypes compared to a Southern group originating from refugia south of glacial ice. Results indicate that subspecies R. t. granti of Alaska and R. t. groenlandicus of northern Canada do not constitute distinguishable units at mtDNA or microsatellites, belying their current status as separate subspecies. Additionally, the Northern Mountain ecotype of woodland caribou (presently R. t. caribou) has closer kinship to caribou classified as granti or groenlandicus. Comparisons of mtDNA and microsatellite data suggest that behavioural and ecological specialization is a more recently derived life history characteristic. Notably, microsatellite differentiation among Southern herds is significantly greater, most likely as a result of human-induced landscape fragmentation and genetic drift due to smaller population sizes. These results not only provide important insight into the evolutionary history of northern species such as caribou, but also are important indicators for managers evaluating conservation measures for this threatened species. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

15. Phylogeographic, ancient DNA, fossil and morphometric analyses reveal ancient and modern introductions of a large mammal: the complex case of red deer (Cervus elaphus) in Ireland

Author

Carden, Ruth F., McDevitt, Allan D., Zachos, Frank E., Woodman, Peter C., O’Toole, Peter, Rose, Hugh, Monaghan, Nigel T., Campana, Michael G., Bradley, Daniel G., and Edwards, Ceiridwen J.

Subjects
*PHYLOGEOGRAPHY, *FOSSIL DNA, *FOSSILS, *MORPHOMETRICS, *RED deer
Abstract

Abstract: The problem of how and when the island of Ireland attained its contemporary fauna has remained a key question in understanding Quaternary faunal assemblages. We assessed the complex history and origins of the red deer (Cervus elaphus) in Ireland using a multi-disciplinary approach. Mitochondrial sequences of contemporary and ancient red deer (dating from c 30,000 to 1700 cal. yr BP) were compared to decipher possible source populations of red deer in Ireland, in addition to craniometric analyses of skulls from candidate regions to distinguish between different colonization scenarios. Radiocarbon dating was undertaken on all bone fragments that were previously undated. Finally, a comprehensive review of the scientific literature, unpublished reports and other sources of data were also searched for red deer remains within Irish palaeontological and archaeological contexts. Despite being present in Ireland prior to the Last Glacial Maximum (LGM), there is a notable scarcity of red deer from the Younger Dryas stadial period until the Neolithic. The presence of red deer in Irish archaeological sites then occurs more frequently relative to other species. One population in the southwest of Ireland (Co. Kerry) shared haplotypes with the ancient Irish specimens and molecular dating and craniometric analysis suggests its persistence in Ireland since the Neolithic period. The synthesis of the results from this multi-disciplinary study all indicate that red deer were introduced by humans during the Irish Neolithic period and that one of these populations persists today. In conjunction with recent results from other species, Neolithic people from Ireland''s nearest landmass, Britain, played a vital role in establishing its contemporary fauna and flora. [Copyright &y& Elsevier]

Published
2012
Full Text
View/download PDF

16. Climate and refugial origin influence the mitochondrial lineage distribution of weasels ( Mustela nivalis) in a phylogeographic suture zone.

Author

MCDEVITT, ALLAN D., ZUB, KAROL, KAWAŁKO, AGATA, OLIVER, MATTHEW K., HERMAN, JEREMY S., and WÓJCIK, JAN M.

Subjects
*MUSTELA nivalis, *PHYLOGEOGRAPHY, *CYTOCHROME b, *MITOCHONDRIAL DNA, *BAYESIAN analysis, *BIOLOGICAL adaptation, *SUTURE zones (Structural geology)
Abstract

Overarching trends can be seen in European mammalian phylogeography, yet it is clear that species responded differently depending on adaptations to past environments. We built upon previous work on the phylogeography of weasels ( Mustela nivalis) in Europe by using well-preserved museum specimens from a proposed phylogeographic suture zone. The complete cytochrome b gene was amplified from 49 individuals from present-day Poland and analyzed with previously published data on a European scale to identify glacial refugia and infer recolonization processes. Bayesian coalescent analysis revealed the importance of the Last Glacial Maximum and the Younger Dryas in the diversification of, and demographic changes in, identified mitochondrial lineages. Our analysis, in conjunction with the available fossil data, strongly points to a Carpathian origin for one of the lineages, and further highlights the importance of this region as a refugium for European mammals. Mustela nivalis originating from this refugium appear to have a selective advantage over M. nivalis from other lineages in certain environments in the suture zone in central Europe, with climate clearly influencing the distribution of mitochondrial DNA lineages. This has important implications not only for our understanding of how past climatic events shaped the genetic architecture of species, but also how they will respond to current and future climatic changes. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 106, 57-69. [ABSTRACT FROM AUTHOR]

Published
2012
Full Text
View/download PDF

17. Genetic variation in Irish pygmy shrews Sorex minutus (Soricomorpha: Soricidae): implications for colonization history.

Author

MCDEVITT, ALLAN D., RAMBAU, RAMUGONDO V., O'BRIEN, JOHN, MCDEVITT, C. DAMIEN, HAYDEN, THOMAS J., and SEARLE, JEREMY B.

Subjects
*BIOLOGICAL variation, *GENETICS, *SHREWS, *SOREX minutus, *MICROSATELLITE repeats
Abstract

The status of the pygmy shrew ( Sorex minutus L.) as a native or an introduced species in Ireland has been subject to much debate. To examine this and other aspects of the colonization history of the Irish pygmy shrew, genetic variation was determined in 247 pygmy shrews collected throughout Ireland, using mitochondrial control region sequences and five polymorphic microsatellite loci. Genetic diversity was low for both types of marker. The median-joining network for control region sequences was star-like, suggesting that the colonization of Ireland involved a small number of founders and rapid population expansion thereafter; this was supported by other statistics. Molecular dating with both mitochondrial DNA and microsatellite data is consistent with a human introduction. This would have been several thousand years ago; a recent colonization within historical times can be ruled out. This is the first detailed population genetic study of the pygmy shrew anywhere in its range. © 2009 The Linnean Society of London, Biological Journal of the Linnean Society, 2009, 97, 918–927. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

18. Genetic structure of, and hybridisation between, red (Cervus elaphus) and sika (Cervus nippon) deer in Ireland

Author

McDevitt, Allan D., Edwards, Ceiridwen J., O’Toole, Peter, O’Sullivan, Padruig, O’Reilly, Catherine, and Carden, Ruth F.

Subjects
*SIKA deer, *DNA, *MICROSATELLITE repeats, *MITOCHONDRIAL DNA
Abstract

Abstract: This study investigated the levels of genetic diversity and variation exhibited by red and sika deer in Ireland, along with the extent and regional location of hybridisation between these two species. Bi-parental (microsatellites) and maternally-inherited (mitochondrial DNA) genetic markers were utilised that allowed comparisons between 85 red deer from six localities and 47 sika deer from 3 localities in Ireland. Population genetic structure was assessed using Bayesian analysis, indicating the existence of two genetic clusters in sika deer and three clusters in red deer. Levels of genetic diversity were low in both red and sika deer. These genetic data presented herein indicate a recent introduction of sika deer and subsequent translocations in agreement with historical data. The origins of the current red deer populations found in Ireland, based on genetic data presented in this study, still remain obscure. All hybrid deer (red/sika) found in this study were found in Wicklow, Galway and Mayo where the ‘red-like’ deer exhibited sika deer alleles/haplotypes, and vice versa in the case of Wicklow. Molecular methods proved invaluable in the identification of the hybrid deer because identification of hybrids based on phenotypic external appearances (pelage and body proportions) can be misleading. Areas where red and sika deer are sympatric need to be assessed for the level and extent of hybridisation occurring and thus need to be managed in order to protect the genetic integrity of ‘pure’ red deer populations. [Copyright &y& Elsevier]

Published
2009
Full Text
View/download PDF

19. Survival in the Rockies of an endangered hybrid swarm from diverged caribou ( Rangifer tarandus) lineages.

Author

McDEVITT, ALLAN D., MARIANI, STEFANO, HEBBLEWHITE, MARK, DECESARE, NICHOLAS J., MORGANTINI, LUIGI, SEIP, DALE, WECKWORTH, BYRON V., and MUSIANI, MARCO

Subjects
*BIODIVERSITY research, *SPECIES hybridization, *MOLECULAR biology, *PHYLOGEOGRAPHY, *ENDANGERED species, *WOODLAND caribou, *ANIMAL migration, *MITOCHONDRIAL DNA, *MICROSATELLITE repeats
Abstract

In North America, caribou ( Rangifer tarandus) experienced diversification in separate refugia before the last glacial maximum. Geographical isolation produced the barren-ground caribou ( Rangifer tarandus groenlandicus) with its distinctive migratory habits, and the woodland caribou ( Rangifer tarandus caribou), which has sedentary behaviour and is now in danger of extinction. Herein we report on the phylogenetics, population structure, and migratory habits of caribou in the Canadian Rockies, utilizing molecular and spatial data for 223 individuals. Mitochondrial DNA analyses show the occurrence of two highly diverged lineages; the Beringian–Eurasian and North American lineages, while microsatellite data reveal that present-day Rockies’ caribou populations have resulted from interbreeding between these diverged lineages. An ice-free corridor at the end of the last glaciation likely allowed, for the first time, for barren-ground caribou to migrate from the North and overlap with woodland caribou expanding from the South. The lack of correlation between nuclear and mitochondrial data may indicate that different environmental forces, which might also include human-caused habitat loss and fragmentation, are currently reshaping the population structure of this postglacial hybrid swarm. Furthermore, spatial ecological data show evidence of pronounced migratory behaviour within the study area, and suggest that the probability of being migratory may be higher in individual caribou carrying a Beringian–Eurasian haplotype which is mainly associated with the barren-ground subspecies. Overall, our analyses reveal an intriguing example of postglacial mixing of diverged lineages. In a landscape that is changing due to climatic and human-mediated factors, an understanding of these dynamics, both past and present, is essential for management and conservation of these populations. [ABSTRACT FROM AUTHOR]

Published
2009
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results