Genetic nature of eastern wolves: Past, present and future

Kyle, Christopher J.; Johnson, Aria; Patterson, Brent R.; Wilson, Paul J.; Shami, Karmi; Grewal, Sonya; White, Bradley N.

doi:10.1007/s10592-006-9130-0

Cited by 88 publications

(121 citation statements)

References 41 publications

(84 reference statements)

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“…These new invaders have a mixed ancestry including contributions from grey wolves, coyotes and Great Lakes wolves. Prior genetic evidence suggests that hybridization has been increasing in the Great Lakes region over the past 50 years and that hybrids now populate large areas of the Great Lakes states and New England (Lehman et al 1991;Roy et al 1994;Wilson et al 2000;Kyle et al 2006). Historical records indicate that hybridization between coyotes and wolf-like canids in the area did not begin until after 1900 when coyotes first entered the region (Hilton 1978;Lehman et al 1991).…”

Section: Discussionmentioning

confidence: 99%

“…These concerns are further complicated by the recent suggestion based on molecular genetic data that C. l. lycaon is a distinct wolf-like species unique to the region that evolved independently in North America from a coyote-like ancestor. Consequently, hybridization among three wolf-like species is a possibility (Lehman et al 1991;Wilson et al 2000;Kyle et al 2006).…”

Section: Introductionmentioning

confidence: 99%

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Native Great Lakes wolves were not restored

Leonard

Wayne

2007

Biol. Lett.

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Wolves from the Great Lakes area were historically decimated due to habitat loss and predator control programmes. Under the protection of the US Endangered Species Act, the population has rebounded to approximately 3000 individuals. We show that the pre-recovery population was dominated by mitochondrial DNA haplotypes from an endemic American wolf referred to here as the Great Lakes wolf. In contrast, the recent population is admixed, and probably derives also from the grey wolf (Canis lupus) of Old World origin and the coyote (Canis latrans). Consequently, the pre-recovery population has not been restored, casting doubt on delisting actions.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Native Great Lakes wolves were not restored

Leonard

Wayne

2007

Biol. Lett.

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“…4), suggesting a more heterogeneous process of admixture, with some individuals largely free of coyote ancestry, especially in more western populations (Koblmüller et al 2009;Rutledge et al 2010a). Notably, the distinctive wolves of Algonquin Provincial Park in central Ontario that have the archetypical C1 mtDNA haplotype thought to be representative of the Great Lakes wolf taxon (Wilson et al 2000;Kyle et al 2006) have the largest proportion of their genome assigned to coyotes. Finally, in the full analysis, at K = 9 and K = 10, the red wolf (orange) and Great Lakes wolf (dark green), respectively, show a distinct genetic signature that appears analogous to subspecific partitions such as the Mexican wolf (Fig.…”

Section: Relationships and Admixture Of Enigmatic Wolf-like Canidsmentioning

confidence: 99%

“…1; Supplemental Table S1). Origin through ancient hybridization or an independent New World evolution might warrant greater preservation efforts and legal protection, whereas origin through recent hybridization would suggest a dynamic evolutionary zone of questionable conservation status, although the ecological significance of such hybrids should also be considered (Crandall et al 2000; Kyle et al 2006;Leonard and Wayne 2008). Specifically, the red wolf is protected as a distinct endangered species under the US Endangered Species Act (ESA) and wildlife management agencies dedicate considerable resources to study, monitor, and protect the red wolf (Phillips et al 2003).…”

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confidence: 99%

A genome-wide perspective on the evolutionary history of enigmatic wolf-like canids

vonHoldt¹,

Pollinger²,

Earl³

et al. 2011

Genome Res.

274

443

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High-throughput genotyping technologies developed for model species can potentially increase the resolution of demographic history and ancestry in wild relatives. We use a SNP genotyping microarray developed for the domestic dog to assay variation in over 48K loci in wolf-like species worldwide. Despite the high mobility of these large carnivores, we find distinct hierarchical population units within gray wolves and coyotes that correspond with geographic and ecologic differences among populations. Further, we test controversial theories about the ancestry of the Great Lakes wolf and red wolf using an analysis of haplotype blocks across all 38 canid autosomes. We find that these enigmatic canids are highly admixed varieties derived from gray wolves and coyotes, respectively. This divergent genomic history suggests that they do not have a shared recent ancestry as proposed by previous researchers. Interspecific hybridization, as well as the process of evolutionary divergence, may be responsible for the observed phenotypic distinction of both forms. Such admixture complicates decisions regarding endangered species restoration and protection.

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“…Additionally, the failure on the part of Koblmuller et al (2009) to distinguish between coyote and eastern wolf lineages obscures the view that western Great Lakes region wolves contain grey and eastern wolf genetic material, and thus are grey-eastern wolf hybrids (C. lupus Â lycaon) and not wolf -coyote hybrids (Wheeldon 2009;Wheeldon & White 2009;Wilson et al 2009). In addition to a more careful analysis of the probable colonization routes of western coyotes into northeastern North America, Kays et al should have considered this alternative hypothesis, which has considerable support in the literature (see Kyle et al 2006 …”

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confidence: 99%

Colonization history and ancestry of northeastern coyotes

2010

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Recently Kays et al. (2010) reported on mitochondrial DNA (mtDNA) sequence data and skull measurements to demonstrate a hybrid origin for northeastern coyotes. They suggested that, as western coyotes (Canis latrans) expanded their range in the last century, they colonized Ontario from Minnesota and hybridized with wolves, and subsequently colonized the northeastern United States via movement across the Saint-Lawrence River. We support the

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Genetic nature of eastern wolves: Past, present and future

Cited by 88 publications

References 41 publications

Native Great Lakes wolves were not restored

Native Great Lakes wolves were not restored

A genome-wide perspective on the evolutionary history of enigmatic wolf-like canids

Colonization history and ancestry of northeastern coyotes

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