Your search keyword '"Statham MJ"' showing total 23 results

1. Nuclear Genetic Analysis of the Red Fox Across its Trans-Pacific Range.

Author

Sacks BN, Lounsberry ZT, and Statham MJ

Subjects

Animals, Ecosystem, Foxes classification, Heterozygote, Polymorphism, Single Nucleotide, Species Specificity, Wolves genetics, Cell Nucleus genetics, DNA, Mitochondrial genetics, Foxes genetics, Phylogeography

Abstract

The red fox (Vulpes vulpes) occurs on multiple continents in diverse habitats, making it an informative system for evolutionary genomic research. However, its phylogeography remains unclear. Previously, mitochondrial DNA and small numbers of nuclear loci provided discordant views. Both markers indicated deep divergence (~ 0.5 million years [MY]) between Eurasian and southern North American populations but differed in the apparent continental affinity of Alaskan red foxes, implying some degree of gene exchange during secondary contact (~0.1 MY). We assayed >173000 nuclear genomic sites in 52 red foxes, along with 2 Rueppell's foxes (Vulpes rueppellii) and a gray wolf (Canis lupus) using the Illumina CanineHD BeadChip. We obtained 5107 single nucleotide polymorphisms (SNPs) in the foxes. Consistent with the Afro-Eurasian origins of red foxes, genetic diversity was higher in Eurasian than North American samples. Phylogenetic trees indicated that Alaskan and southern North American red foxes formed a monophyletic group nested within the Eurasian clade. However, admixture models suggested Alaskan red foxes contained up to 40% Eurasian ancestry. We hypothesize that North American red foxes either hybridized with Eurasian foxes in Beringia at the start of the last glaciation or merged with a Beringian population after the last glaciation. Future work is needed to test between these scenarios and assess speciation.

Published

2018

2. Evolutionary history of the salt marsh harvest mouse mitogenome is concordant with ancient patterns of sea level rise.

Author

Aylward, Cody M., Barthman-Thompson, Laureen, Kelt, Douglas A., Sacks, Benjamin N., and Statham, Mark J.

Subjects

COASTAL wetlands, SALT marshes, SEA level, WHOLE genome sequencing, ENDANGERED species, WILDLIFE conservation, UBIQUINONES

Abstract

Coastal wetland ecosystems support unique biodiversity and are imminently threatened by climate change-driven sea level rise. However, the impact of climate change on their demographic and evolutionary histories is poorly understood. To improve our understanding, we examined how past climatic events have shaped the evolutionary history of the salt marsh harvest mouse (Reithrodontomys raviventris), an endangered species and a salt marsh habitat specialist, completely restricted to coastal wetlands in the San Francisco Estuary (SFE). We used whole mitochondrial genome sequences of 102 salt marsh harvest mice to characterize phylogeography and demographic history. Then, we predicted the ancient distribution of salt marsh habitat and examined correspondence between divergence, demographic history, and changes in ancient marsh habitat caused by sea level rise. A Bayesian Skyline Plot revealed demographic expansions during periods of sea level rise, particularly during the formation of the modern SFE (~ 10 kya), and rapid decline consistent with recent anthropogenic landscape change. Bayesian estimates of divergence time were consistent with subspecies divergence ~ 10 kya, and subpopulation divergence ~ 5 kya, consistent with multiple episodes of vicariance caused by Holocene sea level rise. Spatial Analysis of Molecular Variance and ΦST revealed a mismatch between the morphological and molecular subspecies assignment of two populations. Our study implicates sea level rise as a force of demographic change and evolutionary divergence in coastal marsh ecosystems. Our study also aids conservation of an endangered species by clarifying genetic subspecies boundaries and highlighting the unique nature of isolated populations that are increasingly threatened by modern sea level rise. [ABSTRACT FROM AUTHOR]

Published

2024

3. High genetic distinctiveness of wild and farm fox (Vulpes vulpes L.) populations in Poland: evidence from mitochondrial DNA analysis.

Author

HORECKA, Beata, KASPEREK, Kornel, JEŻEWSKA-WITKOWSKA, Grażyna, ŚLASKA, Brygida, ROZEMPOLSKA-RUCIŃSKA, Iwona, GRYZIŃSKA, Magdalena, and JAKUBCZAK, Andrzej

Subjects

RED fox, FOXES, FUR farming, DOMESTIC animals, HAPLOTYPES

Abstract

In Poland, the number of wild red foxes (Vulpes vulpes L.) and the size of the fur-farming industry are growing. There is concern that the gene pool of the wild foxes is being infiltrated by that of the farm animals. We analyzed three groups--Polish farm foxes and wild-living animals from Poland and North America--to investigate the gene flow or introgression between farm and wild red foxes. We took into account the breeding history of the species and the evolutionary relationships between fox populations on different continents. We compared the haplotypes based on the concatenated nucleotide sequences of MT-CO1 (mitochondrially encoded cytochrome c oxidase I) and MT-ATP6 (mitochondrially encoded ATP synthase 6) genes. It was confirmed that investigated fur-farm animals originated from wild individuals living in North America. We found a haplotype common to wild foxes from Europe (Poland) and wild North American individuals. The common haplotype shared by both investigated wild-living groups could indicate some degree of introgression between Polish farm and wild-living populations. Haplotypes characteristic of North American foxes were transferred to the Polish wild population and have been established. However, the pairwise ΦST values make it clear that North American wild and Polish wild foxes are genetically distinct evolutionary groups. [ABSTRACT FROM AUTHOR]

Published

2017

4. Mitochondrial genome-based synthesis and timeline of Eurasian otter (Lutra lutra) phylogeography.

Author

du Plessis, Sarah J., Hong, Sungwon, Lee, Boyoung, Koepfli, Klaus-Peter, Chadwick, Elizabeth A., and Hailer, Frank

Subjects

PHYLOGEOGRAPHY, MITOCHONDRIAL DNA, SUBSPECIES, CYTOCHROME b, OTTERS, MITOCHONDRIA, GENETIC variation

Abstract

Eurasian otters (Lutra lutra) have a broad distribution across Eurasia, but biogeographic data outside of western Europe is limited to disconnected pockets. Based on current subspecies designations, Asia appears to harbour a large proportion of the species' diversity, with 10 of 12 Eurasian otter subspecies found in Asia. Here we provide a range-wide synthesis of mitochondrial data, inferring a timeline and pattern of phylogeographic signals. Whole mitochondrial genomes of 27 Eurasian otters across 4 subspecies are presented from newly generated data (n = 6; 4 from Korea, 1 from Hong Kong and 2 from UK), assembled from the Sequence Read Archive (n = 4), and sourced from GenBank (n = 17). We then combined whole mitochondrial genome results with cytochrome b data to increase the sample size and contextualise our results with prior studies. We identified five distinct lineages that were discordant with current subspecies classification. Phylogenetic dating revealed that the earliest diverging lineage was the Japanese lineage, with remaining lineages diverging ≥0.08 million years ago. Mitochondrial diversity calculated by sample locations seemed mainly driven by the presence of multiple lineages. When grouping samples by lineage, genetic diversity was highest in Lineage 1 (primarily found in China and Laos), followed by Lineage 2 (primarily found in Korea), and lowest diversity identified in Lineage 3 (primarily found in Europe). Our findings highlight previously undetected lineage diversity within Eurasian otters, but also the need for further taxonomic and genomic evaluation of the species in Asia. The identified unique, distinct lineages of Eurasian otters also warrant urgent conservation attention. [ABSTRACT FROM AUTHOR]

Published

2023

5. Not out of the woods yet: genetic insights related to the recovery of the pine marten (Martes martes) in Ireland.

Author

O'Reilly, Catherine, Turner, Peter, O'Mahony, Declan T, Twining, Joshua P, Tosh, David G, Smal, Christopher, McAney, Kate, Powell, Ciara, Power, John, and O'Meara, Denise B

Subjects

NUCLEAR DNA, ANIMAL populations, GENETIC markers, PINE, MITOCHONDRIAL DNA, MICROSATELLITE repeats

Abstract

In this study, the history of the pine marten (Martes martes) in Ireland is reviewed, revealing that the population has undergone several retractions and expansions over the last few hundred years. Here, we consider the genetic legacy of this flux in fortunes and its likely impacts upon the conservation and future recovery of the species. Using nuclear DNA markers (microsatellites), we found that the genetic diversity present in Ireland today is like that of other Irish carnivores, but there is evidence of a genetic bottleneck and low effective population size that might result in further reductions of diversity in the future. There is a lack of genetic structure, showing that the population has not been fragmented genetically, despite the low percentage of woodland in Ireland. We also reviewed the mitochondrial DNA diversity present in the Irish population and showed that there is only one contemporary and one extinct haplotype present; a reduced diversity relative to other Irish carnivores. The Irish haplotypes, both extant and extinct, are shared or are genetically similar to haplotypes commonly present in southern Europe today. We discuss the possibility of reinforcing the Irish population with animals from these sources to help supplement and maintain genetic diversity for future generations. [ABSTRACT FROM AUTHOR]

Published

2021

6. Polish suture zone as the goblet of truth in post-glacial history of mammals in Europe.

Author

Stojak, Joanna and Tarnowska, Ewa

Abstract

Present-day species distribution and patterns of genetic diversity in Europe are a result of post-glacial re-colonization from glacial refugia after the Last Glacial Maximum. This process led to the formation of secondary contact zones (suture zones) between the haplogroups of different species, and were induced by several factors, including climate and evolutionary processes like selection and adaptation. One such suture zone has been found in Poland, where a complex network of different phylogenetic lineages of predators, ungulates, and rodents is present. The phylogeography of mammals in western Europe has been widely studied, but central and eastern Europe have been treated cursorily. Only a few samples from these areas were analyzed in previous studies, resulting in a simplified and false description of local genetic structure. In this review, results of previous phylogeographic studies on carnivore, ungulate, and rodent species from central and eastern Europe were collected and synthesized to verify the Polish suture zone hypothesis and examine how it is affected by different variables (geomorphological features like the Carpathian Mountains and Vistula River, climate, or anthropogenic factors). Our data reflects the importance of precise studies in this region and the value they contribute to further studies of large-scale European phylogeography. [ABSTRACT FROM AUTHOR]

Published

2019

7. Historical Population Size Change and Differentiation of Relict Populations of the Endangered Giant Kangaroo Rat.

Author

Statham, Mark J, Bean, William T, Alexander, Nathan, Westphal, Michael F, and Sacks, Benjamin N

Subjects

POPULATION differentiation, DEMOGRAPHIC change, IRRIGATION farming, MICROSATELLITE repeats, MITOCHONDRIAL DNA, KEYSTONE species, HABITAT partitioning (Ecology)

Abstract

From a conservation management perspective it is important to understand how genetic diversity is partitioned across a species' range, including 1) identification of evolutionarily distinct units versus those recently isolated through anthropogenic activities and 2) the relative genetic contributions among components of fragmented (meta)populations. To address these questions, we investigated the phylogeography and metapopulation structure among relict populations of the endangered giant kangaroo rat (Dipodomys ingens) in the highly altered San Joaquin Desert Ecosystem. This keystone species underwent a ~97% range reduction over the past century, resulting in a current range that is highly fragmented, with 2 dominant northern and southern populations occurring 150 km apart. We sequenced >800 bp of mitochondrial DNA and genotyped 17 nuclear microsatellites in >275 D. ingens to assess the evolutionary relationship of these populations as well as the genetic structure within the northern metapopulation. A Bayesian Skyline Plot indicated that the species experienced a demographic expansion toward the end of the Pleistocene, with a recent population decline. Northern and southern D. ingens split 1857–13 443 years ago, prior to the massive conversion of the San Joaquin Valley to irrigated agriculture. We recommend that the northern and southern populations of D. ingens be re-classified as distinct population segments under the United States Endangered Species Act. We also observed population structure and asymmetrical migration within northern D. ingens where the Tumey Hills acted as a source contributing gene flow to all peripheral populations. This emphasized the importance of this location in the conservation of the metapopulation as a whole. [ABSTRACT FROM AUTHOR]

Published

2019

8. Only true pelagics mix: comparative phylogeography of deepwater bathybatine cichlids from Lake Tanganyika.

Author

Koblmüller, Stephan, Zangl, Lukas, Börger, Christine, Daill, Daniel, Vanhove, Maarten P. M., Sturmbauer, Christian, and Sefc, Kristina M.

Subjects

PELAGIC fishes, MARINE fishes, CICHLIDS, HABITATS, FISH populations

Abstract

In the absence of dispersal barriers, species with great dispersal ability are expected to show little, if at all, phylogeographic structure. The East African Great Lakes and their diverse fish faunas provide opportunities to test this hypothesis in pelagic fishes, which are presumed to be highly mobile and unrestricted in their movement by physical barriers. Here, we address the link between panmixis and pelagic habitat use by comparing the phylogeographic structure among four deepwater cichlid species of the tribe Bathybatini from Lake Tanganyika. We show that the mitochondrial genealogies (based on the most variable part or the control region) of the four species are very shallow (0.8-4% intraspecific divergence across entire distribution ranges) and that all species experienced recent population growth. A lack of phylogeographic structure in the two eupelagic species, Bathybates fasciatus and B. leo, was consistent with expectations and with findings in other pelagic cichlid species. Contrary to expectations, a clear phylogeographic structure was detected in the two benthopelagic species, B. graueri and Hemibates stenosoma. Differences in genetic diversity between eupelagic and benthopelagic species may be due to differences in their dispersal propensity, mediated by their respective predatory niches, rather than precipitated by external barriers to dispersal. [ABSTRACT FROM AUTHOR]

Published

2019

9. Connections and containers: Using genetic data to understand how watershed evolution and human activities influence cutthroat trout biogeography.

Author

Eaton, Kendra R., Loxterman, Janet L., and Keeley, Ernest R.

Subjects

CUTTHROAT trout, FISH genetics, FISH evolution, WATERSHEDS, HUMAN behavior

Abstract

Species with large geographic distributions often exhibit complex patterns of diversity that can be further complicated by human activities. Cutthroat trout (Oncorhynchus clarkii) are one of the most widely distributed freshwater fish species in western North America exhibiting substantial phenotypic and genetic variability; however, fish stocking practices have translocated populations outside of their native range and may have obscured intraspecific boundaries. This study focuses on cutthroat trout populations representing three distinct evolutionary clades that are found intermixed within a contact zone between the Bonneville and upper Snake River watersheds in the western United States. We used mitochondrial and microsatellite genetic data, as well as historical stocking records, to evaluate whether populations of cutthroat trout in the contact zone are native or are introduced. We found significant genetic differentiation and fine-scale genetic population structure that was organized primarily by watershed boundaries. While we detected increased genetic diversity in some areas in close proximity to the greatest number of stocking events, the highly organized population structure both within and between areas of the contact zone indicates that the populations are native to the watersheds. Intermixing of distinct evolutionary lineages of cutthroat trout appears to be the result of historical connections between paleodrainages. Our analyses provide a context for understanding how genetic data can be used to assess the status of populations as native or introduced. [ABSTRACT FROM AUTHOR]

Published

2018

10. Multiple recolonization routes towards the north: population history of the Fennoscandian red fox (Vulpes vulpes).

Author

Wallén, Johan, Statham, Mark J, Ågren, Erik, Isomursu, Marja, Flagstad, Øystein, Bjørneboe-Berg, Thomas, Sacks, Benjamin N, and Norén, Karin

Subjects

PHYLOGEOGRAPHY, CLIMATE change, EVOLUTIONARY theories, BIODIVERSITY, HAPLOTYPES

Abstract

Understanding the response of boreal species to past climate warming can help to predict future responses to climate change. In the Northern Hemisphere, the distribution and abundance of northern populations have been influenced by previous glaciations. In this study, we investigated the population history of the Fennoscandian red fox (Vulpes vulpes), which is a generalist carnivore currently undergoing range expansion in the tundra ecosystem. By analysing a 696 bp sequence of the mitochondrial DNA (N = 259) and two Y chromosome-specific microsatellite loci (N = 120), we specifically investigated where the red fox survived the Last Glacial Maximum and how Fennoscandia was recolonized. There was high genetic continuity across most of Fennoscandia, and we identified at least two recolonization pathways: one from continental Europe and one from the northeast (Siberia). Mitochondrial haplotype diversity displayed a significant decline with increasing latitude, consistent with expectations of unidirectional colonization. Each region displayed signatures of recent demographic and/or range expansions. For Finland, an additional recolonization route was suggested from the mismatch distribution analysis and identification of novel haplotypes. We concluded that, as with many boreal generalist species, the Fennoscandian red fox originates from multiple refugia, suggesting that it has benefited from diverse evolutionary histories, potentially enhancing its tolerance to different habitat conditions. [ABSTRACT FROM AUTHOR]

Published

2018

11. Retracing the history and planning the future of the red squirrel (<italic>Sciurus vulgaris</italic>) in Ireland using non-invasive genetics.

Author

O’Meara, Denise B., McDevitt, Allan D., O’Neill, David, Harrington, Andrew P., Turner, Peter, Carr, William, Desmond, Michael, Lawton, Colin, Marnell, Ferdia, Rubalcava, Sarah, Sheehy, Emma, Sleeman, David P., Tosh, David, Waters, Catherine, and O’Reilly, Catherine

Abstract

The Eurasian red squirrel’s (Sciurus vulgaris) history in Ireland is largely unknown, but the original population is thought to have been driven to extinction by humans in the seventeenth century, and multiple records exist for its subsequent reintroduction in the nineteenth century. However, it is currently unknown how these reintroductions affect the red squirrel population today, or may do so in the future. In this study, we report on the development of a DNA toolkit for the non-invasive genetic study of the red squirrel. Non-invasively collected red squirrel samples were combined with other samples collected throughout Ireland and previously published mitochondrial DNA (mtDNA) data from Ireland, Great Britain and Continental Europe to give an insight into population genetics and historical introductions of the red squirrel in Ireland. Our findings demonstrate that the Irish red squirrel population is on a national scale quite genetically diverse, but at a local level contains relatively low levels of genetic diversity, and there is also evidence of genetic structure. This is likely an artefact of the introduction of a small number of genetically similar animals to specific sites. A lack of continuous woodland cover in Ireland has prevented further mixing with animals of different origins that may have been introduced even to neighbouring sites. Consequently, some of these genetically isolated populations are or may in the future be at risk of extinction. The Irish red squirrel population contains mtDNA haplotypes of both a British and Continental European origin, the former of which are now extinct or simply not recorded in contemporary Great Britain. The Irish population is therefore important in terms of red squirrel conservation not only in Ireland, but also for Great Britain, and should be appropriately managed. [ABSTRACT FROM AUTHOR]

Published

2018

12. High gene flow in the American badger overrides habitat preferences and limits broadscale genetic structure.

Author

Kierepka, E. M. and Latch, E. K.

Subjects

AMERICAN badger, HABITATS, MAMMAL dispersal, GENE flow, MICROSATELLITE repeats, ANIMAL population genetics

Abstract

Habitat associations are a function of habitat preferences and dispersal capabilities, both of which can influence how species responded to Quaternary climatic changes and contemporary habitat heterogeneity. Predicting resultant genetic structure is not always straightforward, especially in species where high dispersal potential and habitat preferences yield opposing predictions. The American badger has high dispersal capabilities that predict widespread panmixia, but avoids closed-canopy forests and clay soils, which could restrict gene flow and create ecologically based population genetic structure. We used mitochondrial sequence and microsatellite data sets to characterize how these opposing forces contribute to genetic structure in badgers at a continent-wide scale. Our data revealed an overall lack of ecologically based population genetic structure, suggesting that high dispersal capabilities were sufficiently realized to overcome most habitat-based genetic structure. At a broadscale, badger gene flow is limited only by geographic distance (isolation by distance) and large water barriers (Lake Michigan and the Mississippi River). The absence of genetic structure in a species with strong avoidance of unsuitable habitats advances our understanding of when and how genetic structure emerges in widespread, highly mobile species. [ABSTRACT FROM AUTHOR]

Published

2016

13. Mitochondrial DNA analysis reveals Holarctic homogeneity and a distinct Mediterranean lineage in the Golden eagle ( Aquila chrysaetos).

Author

Nebel, Carina, Gamauf, Anita, Haring, Elisabeth, Segelbacher, Gernot, Villers, Alexandre, and Zachos, Frank E.

Subjects

GOLDEN eagle, BIRDS, GENETICS, MITOCHONDRIAL DNA, PREDATION, PALEARCTIC

Abstract

The Golden eagle ( Aquila chrysaetos) is among the most widespread of the birds of prey, covering basically the whole Palaearctic from Europe and North Africa through Asia and Japan, to the North American continent. Only few studies have addressed the species' genetic structure and the consequences of its demographic history so far, and none of them has covered larger areas of the distribution range. Our present study aims at closing this gap. Based on 283 samples (mostly feathers collected in the field or from museum collections) across the species' distribution, but with a focus on Europe, we uncover the phylogeography of the Golden eagle. Results imply a phylogeographic split between mainly Northern Europe, Continental Asia, Japan and North America on the one hand and Central-Southern Europe on the other. The observed pattern is likely to be caused by the Last Ice Age, when the population survived in two reproductively isolated glacial refugia. Repopulation of Northern Europe occurred from a presumed Asian refugium, whereas the Alpine range was probably repopulated from a refugium in the Mediterranean region. In Eastern Europe, the Mediterranean and Alpine region we find a co-occurrence of both lineages that heavily influences the local genetic diversity. This pattern is unlike that in most other large raptors in which usually a western and an eastern Eurasian lineage have been recovered. [ABSTRACT FROM AUTHOR]

Published

2015

14. Revisiting the phylogeography and demography of European badgers (Meles meles) based on broad sampling, multiple markers and simulations.

Author

Frantz, A C, McDevitt, A D, Pope, L C, Kochan, J, Davison, J, Clements, C F, Elmeros, M, Molina-Vacas, G, Ruiz-Gonzalez, A, Balestrieri, A, Van Den Berge, K, Breyne, P, Do Linh San, E, Ågren, E O, Suchentrunk, F, Schley, L, Kowalczyk, R, Kostka, B I, Ćirović, D, and Šprem, N

Subjects

PHYLOGEOGRAPHY, OLD World badger, STATISTICAL sampling, MAMMAL genetics, MAMMAL diversity

Abstract

Although the phylogeography of European mammals has been extensively investigated since the 1990s, many studies were limited in terms of sampling distribution, the number of molecular markers used and the analytical techniques employed, frequently leading to incomplete postglacial recolonisation scenarios. The broad-scale genetic structure of the European badger (Meles meles) is of interest as it may result from historic restriction to glacial refugia and/or recent anthropogenic impact. However, previous studies were based mostly on samples from western Europe, making it difficult to draw robust conclusions about the location of refugia, patterns of postglacial expansion and recent demography. In the present study, continent-wide sampling and analyses with multiple markers provided evidence for two glacial refugia (Iberia and southeast Europe) that contributed to the genetic variation observed in badgers in Europe today. Approximate Bayesian computation provided support for a colonisation of Scandinavia from both Iberian and southeastern refugia. In the whole of Europe, we observed a decline in genetic diversity with increasing latitude, suggesting that the reduced diversity in the peripheral populations resulted from a postglacial expansion processes. Although MSVAR v.1.3 also provided evidence for recent genetic bottlenecks in some of these peripheral populations, the simulations performed to estimate the method's power to correctly infer the past demography of our empirical populations suggested that the timing and severity of bottlenecks could not be established with certainty. We urge caution against trying to relate demographic declines inferred using MSVAR with particular historic or climatological events. [ABSTRACT FROM AUTHOR]

Published

2014

15. Range-wide multilocus phylogeography of the red fox reveals ancient continental divergence, minimal genomic exchange and distinct demographic histories.

Author

Statham, Mark J., Murdoch, James, Janecka, Jan, Aubry, Keith B., Edwards, Ceiridwen J., Soulsbury, Carl D., Berry, Oliver, Wang, Zhenghuan, Harrison, David, Pearch, Malcolm, Tomsett, Louise, Chupasko, Judith, and Sacks, Benjamin N.

Subjects

RED fox, FOXES, PHYLOGEOGRAPHY, MITOCHONDRIAL DNA, PLEISTOCENE Epoch, REPRODUCTION

Abstract

Widely distributed taxa provide an opportunity to compare biogeographic responses to climatic fluctuations on multiple continents and to investigate speciation. We conducted the most geographically and genomically comprehensive study to date of the red fox ( Vulpes vulpes), the world's most widely distributed wild terrestrial carnivore. Analyses of 697 bp of mitochondrial sequence in ~1000 individuals suggested an ancient Middle Eastern origin for all extant red foxes and a 400 kya ( SD = 139 kya) origin of the primary North American (Nearctic) clade. Demographic analyses indicated a major expansion in Eurasia during the last glaciation (~50 kya), coinciding with a previously described secondary transfer of a single matriline (Holarctic) to North America. In contrast, North American matrilines (including the transferred portion of Holarctic clade) exhibited no signatures of expansion until the end of the Pleistocene (~12 kya). Analyses of 11 autosomal loci from a subset of foxes supported the colonization time frame suggested by mt DNA (and the fossil record) but, in contrast, reflected no detectable secondary transfer, resulting in the most fundamental genomic division of red foxes at the Bering Strait. Endemic continental Y-chromosome clades further supported this pattern. Thus, intercontinental genomic exchange was overall very limited, consistent with long-term reproductive isolation since the initial colonization of North America. Based on continental divergence times in other carnivoran species pairs, our findings support a model of peripatric speciation and are consistent with the previous classification of the North American red fox as a distinct species, V. fulva. [ABSTRACT FROM AUTHOR]

Published

2014

16. Investigating the effects of Pleistocene events on genetic divergence within Richardsonius balteatus, a widely distributed western North American minnow.

Author

Houston, Derek D., Shiozawa, Dennis K., Tilston Smith, Brian, and Riddle, Brett R.

Subjects

REDSIDE shiner, MINNOWS, CLIMATE change, OSCILLATIONS, PHYLOGEOGRAPHY, NUCLEOTIDE sequencing

Abstract

Background Biogeographers seek to understand the influences of global climate shifts and geologic changes to the landscape on the ecology and evolution of organisms. Across both longer and shorter timeframes, the western North American landscape has experienced dynamic transformations related to various geologic processes and climatic oscillations, including events as recently as the Last Glacial Maximum (LGM; ~20 Ka) that have impacted the evolution of the North American biota. Redside shiner is a cyprinid species that is widely distributed throughout western North America. The species' native range includes several well-documented Pleistocene refugia. Here we use mitochondrial DNA sequence data to assess phylogeography, and to test two biogeographic hypotheses regarding post-glacial colonization by redside shiner: 1) Redside shiner entered the Bonneville Basin at the time of the Bonneville Flood (Late Pleistocene; 14.5 Ka), and 2) redside shiner colonized British Columbia post-glacially from a single refugium in the Upper Columbia River drainage. Results Genetic diversification in redside shiner began in the mid to late Pleistocene, but was not associated with LGM. Different clades of redside shiner were distributed in multiple glacial age refugia, and each clade retains a signature of population expansion, with clades having secondary contact in some areas. Conclusions Divergence times between redside shiner populations in the Bonneville Basin and the Upper Snake/Columbia River drainage precedes the Bonneville Flood, thus it is unlikely that redside shiner invaded the Bonneville Basin during this flooding event. All but one British Columbia population of redside shiner are associated with the Upper Columbia River drainage with the lone exception being a population near the coast, suggesting that the province as a whole was colonized from multiple refugia, but the inland British Columbia redside shiner populations are affiliated with a refugium in the Upper Columbia River drainage. [ABSTRACT FROM AUTHOR]

Published

2014

17. Late-glacial recolonization and phylogeography of European red deer ( Cervus elaphus L.).

Author

Meiri, Meirav, Lister, Adrian M., Higham, Thomas F. G., Stewart, John R., Straus, Lawrence G., Obermaier, Henriette, González Morales, Manuel R., Marín ‐ Arroyo, Ana B., and Barnes, Ian

Subjects

PLEISTOCENE Epoch, HOLOCENE Epoch, RED deer, PHYLOGEOGRAPHY, LIMB-girdle muscular dystrophy, FOSSIL DNA

Abstract

The Pleistocene was an epoch of extreme climatic and environmental changes. How individual species responded to the repeated cycles of warm and cold stages is a major topic of debate. For the European fauna and flora, an expansion-contraction model has been suggested, whereby temperate species were restricted to southern refugia during glacial times and expanded northwards during interglacials, including the present interglacial ( Holocene). Here, we test this model on the red deer ( Cervus elaphus) a large and highly mobile herbivore, using both modern and ancient mitochondrial DNA from the entire European range of the species over the last c. 40 000 years. Our results indicate that this species was sensitive to the effects of climate change. Prior to the Last Glacial Maximum ( LGM) haplogroups restricted today to South- East Europe and Western Asia reached as far west as the UK. During the LGM, red deer was mainly restricted to southern refugia, in Iberia, the Balkans and possibly in Italy and South- Western Asia. At the end of the LGM, red deer expanded from the Iberian refugium, to Central and Northern Europe, including the UK, Belgium, Scandinavia, Germany, Poland and Belarus. Ancient DNA data cannot rule out refugial survival of red deer in North- West Europe through the LGM. Had such deer survived, though, they were replaced by deer migrating from Iberia at the end of the glacial. The Balkans served as a separate LGM refugium and were probably connected to Western Asia with genetic exchange between the two areas. [ABSTRACT FROM AUTHOR]

Published

2013

18. Phylogeography of the forest-dwelling European pine marten ( M artes martes): new insights into cryptic northern glacial refugia.

Author

Ruiz-González, Aritz, Madeira, María José, Randi, Ettore, Abramov, Alexei V., Davoli, Francesca, and Gómez-Moliner, Benjamín J.

Subjects

PHYLOGEOGRAPHY, PINE marten, PENINSULAS, MITOCHONDRIAL DNA, SPECIES distribution, HAPLOTYPES, PALEONTOLOGY

Abstract

The role of southern European peninsulas as glacial refugia for temperate species has been widely established, but the role of cryptic northern refugia has only recently been addressed. Here, we describe the phylogeographic pattern of the forest-dwelling European pine marten ( M artes martes), using a 1600-bp mitochondrial DNA ( mtDNA) fragment from 287 individuals sampled across the entire distribution range of the species. To clarify the relationships between M. martes and its sister species the sable ( M artes zibellina) in Fennoscandia and Russia, ten M. zibellina samples were also included in the analyses. Our results reveal the presence of 69 different haplotypes for M. martes and ten haplotypes for M. zibellina, which are split into three major assemblages: Mediterranean, central-northern European, and Fennoscandian- Russian clades, showing a global pattern of spatial segregation, with some area of overlap and genetic admixture. It is apparent that the Mediterranean phylogroup did not significantly contribute to the postglacial recolonization of most of the Palaearctic range of the species. Instead, most of Europe was colonized by the central-northern European phylogroup, which probably survived the last glaciations in northern cryptic refugia, as has previously been suggested by palaeontological studies. A highly divergent phylogroup has been discovered in Fennoscandia- Russia, which includes specimens from both Martes species. Calculations of divergence times suggest that the phylogroups split during the Pleistocene. Overall, our study indicates a complex phylogeographic history for M. martes, indicating a mixed pattern of recolonization of northern Europe from both Mediterranean and non- Mediterranean refugia, providing new insights into the existence of cryptic northern glacial refugia for temperate species in Europe. © 2013 The Linnean Society of London, Biological Journal of the Linnean Society, 2013, 109, 1-18. [ABSTRACT FROM AUTHOR]

Published

2013

19. Parallel and lineage-specific molecular adaptation to climate in boreal black spruce.

Author

PRUNIER, JULIEN, GÉRARDI, SÉBASTIEN, LAROCHE, JÉRÔME, BEAULIEU, JEAN, and BOUSQUET, JEAN

Subjects

BIOLOGICAL variation, GENETIC polymorphisms, SINGLE nucleotide polymorphisms, PHYLOGEOGRAPHY, BLACK spruce, INSECTS

Abstract

In response to selective pressure, adaptation may follow different genetic pathways throughout the natural range of a species due to historical differentiation in standing genetic variation. Using 41 populations of black spruce ( Picea mariana), the objectives of this study were to identify adaptive genetic polymorphisms related to temperature and precipitation variation across the transcontinental range of the species, and to evaluate the potential influence of historical events on their geographic distribution. Population structure was first inferred using 50 control nuclear markers. Then, 47 candidate gene SNPs identified in previous genome scans were tested for relationship with climatic factors using an FST-based outlier method and regressions between allele frequencies and climatic variations. Two main intraspecific lineages related to glacial vicariance were detected at the transcontinental scale. Within-lineage analyses of allele frequencies allowed the identification of 23 candidate SNPs significantly related to precipitation and/or temperature variation, among which seven were common to both lineages, eight were specific to the eastern lineage and eight were specific to the western lineage. The implication of these candidate SNPs in adaptive processes was further supported by gene functional annotations. Multiple evidences indicated that the occurrence of lineage-specific adaptive SNPs was better explained by selection acting on historically differentiated gene pools rather than differential selection due to heterogeneity of interacting environmental factors and pleiotropic effects. Taken together, these findings suggest that standing genetic variation of potentially adaptive nature has been modified by historical events, hence affecting the outcome of recent selection and leading to different adaptive routes between intraspecific lineages. [ABSTRACT FROM AUTHOR]

Published

2012

20. Modern and ancient red fox (Vulpes vulpes) in Europe show an unusual lack of geographical and temporal structuring, and differing responses within the carnivores to historical climatic change.

Subjects

PHYLOGEOGRAPHY, NUCLEOTIDE sequence, RED fox, GENETICS

Abstract

The article reports on a phylogeographical study of the red fox, throughout Europe. It states the study uses a combination of DNA sequences obtained from museum specimens and modern sequence to show the differing responses within the carnivores to historical climatic change. Random genetic drift was found responsible for slight isolation by distance as well as differentiation associated with time in red fox.

Published

2011

21. Refugial persistence and postglacial recolonization of North America by the cold-tolerant herbaceous plant Orthilia secunda G. E. BEATTY and J. PROVAN REFUGIAL PERSISTENCE OF A COLD-TOLERANT PLANT.

Author

Beatty, Gemma E. and Provan, Jim

Subjects

COLD (Temperature), COLD adaptation, PHYLOGEOGRAPHY, ICE sheets, LAST Glacial Maximum, MOLECULAR ecology

Abstract

Previous phylogeographical and palaeontological studies on the biota of northern North America have revealed a complex scenario of glacial survival in multiple refugia and differing patterns of postglacial recolonization. Many putative refugial regions have been proposed both north and south of the ice sheets for species during the Last Glacial Maximum, but the locations of many of these refugia remain a topic of great debate. In this study, we used a phylogeographical approach to elucidate the refugial and recolonization history of the herbaceous plant species Orthilia secunda in North America, which is found in disjunct areas in the west and east of the continent, most of which were either glaciated or lay close to the limits of the ice sheets. Analysis of 596 bp of the chloroplast trnS- trnG intergenic spacer and five microsatellite loci in 84 populations spanning the species' range in North America suggests that O. secunda persisted through the Last Glacial Maximum (LGM) in western refugia, even though palaeodistribution modelling indicated a suitable climate envelope across the entire south of the continent. The present distribution of the species has resulted from recolonization from refugia north and south of the ice sheets, most likely in Beringia or coastal regions of Alaska and British Columbia, the Washington/Oregon region in the northwest USA, and possibly from the region associated with the putative 'ice-free corridor' between the Laurentide and Cordilleran ice sheets. Our findings also highlight the importance of the Pacific Northwest as an important centre of intraspecific genetic diversity, owing to a combination of refugial persistence in the area and recolonization from other refugia. [ABSTRACT FROM AUTHOR]

Published

2010

22. Of glaciers and refugia: a decade of study sheds new light on the phylogeography of northwestern North America A. B. A. SHAFER Et Al. PHYLOGEOGRAPHY OF NORTHWESTERN NORTH AMERICA.

Author

SHAFER, AARON B. A., CULLINGHAM, CATHERINE I., CÔTÉ, STEEVE D., and COLTMAN, DAVID W.

Subjects

GLACIERS, FRESHWATER organisms, PHYLOGEOGRAPHY

Abstract

Glacial cycles have played a dominant role in shaping the genetic structure and distribution of biota in northwestern North America. The two major ice age refugia of Beringia and the Pacific Northwest were connected by major mountain chains and bordered by the Pacific Ocean. As a result, numerous refugial options were available for the regions taxa during glacial advances. We reviewed the importance of glaciations and refugia in shaping northwestern North America's phylogeographic history. We also tested whether ecological variables were associated with refugial history. The recurrent phylogeographic patterns that emerged were the following: (i) additional complexity, i.e. refugia within refugia, in both Beringia and the Pacific Northwest; and (ii) strong evidence for cryptic refugia in the Alexander Archipelago and Haida Gwaii, the Canadian Arctic and within the ice-sheets. Species with contemporary ranges that covered multiple refugia, or those with high dispersal ability, were significantly more likely to have resided in multiple refugia. Most of the shared phylogeographic patterns can be attributed to multiple refugial locales during the last glacial maximum or major physiographic barriers like rivers and glaciers. However, some of the observed patterns are much older and appear connected to the orogeny of the Cascade-Sierra chain or allopatric differentiation during historic glacial advances. The emergent patterns from this review suggest we should refine the classic Beringian-southern refugial paradigm for northwestern North American biota and highlight the ecological and evolutionary consequences of colonization from multiple refugia. [ABSTRACT FROM AUTHOR]

Published

2010

23. Retracing the history and planning the future of the red squirrel (Sciurus vulgaris) in Ireland using non-invasive genetics

Author

O’Meara, Denise B., McDevitt, Allan D., O’Neill, David, Harrington, Andrew P., Turner, Peter, Carr, William, Desmond, Michael, Lawton, Colin, Marnell, Ferdia, Rubalcava, Sarah, Sheehy, Emma, Sleeman, David P., Tosh, David, Waters, Catherine, and O’Reilly, Catherine

Published

2018