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Coywolf

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Captive-bred F1 gray wolf × coyote hybrids, Wildlife Science Center in Forest Lake, Minnesota

A coywolf is a canid hybrid descended from coyotes (Canis latrans), eastern wolves (Canis lycaon), gray wolves (Canis lupus), and dogs (Canis familiaris). All of these species are members of the genus Canis with 78 chromosomes; they therefore can interbreed.[1] One genetic study indicates that these species genetically diverged relatively recently (around 55,000–117,000 years ago). Genomic studies indicate that nearly all North American gray wolf populations possess some degree of admixture with coyotes following a geographic cline, with the lowest levels occurring in Alaska, and the highest in Ontario and Quebec, as well as Atlantic Canada.[2] Another term for these hybrids is sometimes wolfote.

Description

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Hybrids of any combination tend to be larger than coyotes but smaller than wolves; they show behaviors intermediate between coyotes and the other parent's species.[3][4] In one captive hybrid experiment, six F1 hybrid pups from a male northwestern gray wolf and a female coyote were measured shortly after birth with an average on their weights, total lengths, head lengths, body lengths, hind foot lengths, shoulder circumferences, and head circumferences compared with those on pure coyote pups at birth. Despite being delivered by a female coyote, the hybrid pups at birth were much larger and heavier than regular coyote pups born and measured around the same time.[3] At six months of age, these hybrids were closely monitored at the Wildlife Science Center. Executive Director Peggy Callahan at the facility states that the howls of these hybrids are said to start off much like regular gray wolves with a deep strong vocalization, but changes partway into a coyote-like high pitched yipping.[5]

Compared with pure coyotes, eastern wolf × coyote hybrids form more cooperative social groups and are generally less aggressive with each other while playing.[6] Hybrids also reach sexual maturity when they are two years old, which is much later than occurs in pure coyotes.[7]

Varieties

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Eastern coyotes

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An Eastern coyote, a coyote-wolf hybrid in West Virginia near the Virginia state line.

Eastern coyotes range from New England, New York, New Jersey, Pennsylvania,[8] Ohio,[9] West Virginia,[10] Maryland,[11] Delaware, and Virginia.[12] Their range also occurs in the Canadian provinces of Ontario, Quebec, New Brunswick,[13] Nova Scotia,[14] Prince Edward Island and Newfoundland and Labrador.[15] Coyotes and wolves hybridized in the Great Lakes region, followed by an eastern coyote expansion, creating the largest mammalian hybrid zone known.[16] Extensive hunting of gray wolves over a period of 400 years caused a population decline that reduced the number of suitable mates, thus facilitating coyote genes swamping into the eastern wolf population. This has caused concern over the purity of remaining wolves in the area, and the resulting eastern coyotes are too small to substitute for pure wolves as apex predators of moose and deer.[17]

The main nucleus of pure eastern wolves is currently concentrated within Algonquin Provincial Park. This susceptibility to hybridization led to the eastern wolf being listed as Special Concern under the Canadian Committee on the Status of Endangered Wildlife and with the Committee on the Status of Species at Risk in Ontario. By 2001, protection was extended to eastern wolves occurring on the outskirts of the park, thus no longer depriving Park eastern wolves of future pure-blooded mates. By 2012, the genetic composition of the park's eastern wolves was roughly restored to what it was in the mid-1960s, rather than in the 1980s–1990s, when the majority of wolves had large amounts of coyote DNA.[17]

Aside from the combinations of coyotes and eastern wolves making up most of the modern day eastern coyote's gene pools, some of the coyotes in the northeastern United States have mild domestic dog (C. lupus familiaris) and western Great Plains gray wolf (C. l. nubilus) influences in their gene pool. This suggests that the eastern coyote is actually a four-in-one hybrid of coyotes, eastern wolves, western gray wolves, and dogs. The hybrids living in areas with higher white-tailed deer density often have higher degrees of wolf genes than those living in urban environments. The addition of domestic dog genes may have played a minor role in facilitating the eastern hybrids' adaptability to survive in human-developed areas.[18]

The four-in-one hybrid theory was further explored in 2014, when Monzón and his team reanalyzed the tissue and SNP samples taken from 425 eastern coyotes to determine the degree of wolf and dog introgressions involved in each geographic range.[19] The domestic dog allele averages 10% of the eastern coyote's genepool, while 26% is contributed by a cluster of both eastern wolves and western gray wolves. The remaining 64% matched mostly with coyotes. This analysis suggested that prior to the uniformity of its modern-day genetic makeup, multiple swarms of genetic exchanges between the coyotes, feral dogs, and the two distinct wolf populations present in the Great Lakes region may have occurred. Urban environments often favor coyote genes, while the ones in the rural and deep forest areas maintain higher levels of wolf content. A 2016 meta-analysis of 25 genetics studies from 1995 to 2013 found that the northeastern coywolf is 60% western coyote, 30% eastern wolf, and 10% domestic dog. However, this hybrid canid is only now coming into contact with the southern wave of coyote migration into the southern United States.[20]

Red wolves and eastern wolves

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A Red wolf

The taxonomy of the red and eastern wolf of the Southeastern United States and the Great Lakes regions, respectively, has been long debated, with various schools of thought advocating that they represent either unique species or results of varying degrees of gray wolf × coyote admixture.

In May 2011, an examination of 48,000 single nucleotide polymorphisms in red wolves, eastern wolves, gray wolves, and dogs indicated that the red and eastern wolves were hybrid species, with the red wolf being 76% coyote and 20% gray wolf, and the eastern wolf being 58% gray wolf and 42% coyote, finding no evidence of being distinct species in either.[21] The study was criticized for having used red wolves with recent coyote ancestry,[22] and a reanalysis in 2012 indicated that it suffered from insufficient sampling.[23]

A comprehensive review in 2012 further argued that the study's dog samples were unrepresentative of the species' global diversity, having been limited to boxers and poodles, and that the red wolf samples came from modern rather than historical specimens.[24] The review was itself criticized by a panel of scientists selected for an independent peer review of its findings by the USFWS, which noted that the study's conclusion that the eastern wolf was a full species was based on insufficient evidence — just two unique nonrecombining markers.[25]

In 2016, a whole-genome DNA study suggested that all of the North American canids, both wolves and coyotes, diverged from a common ancestor 6,000–117,000 years ago. The whole-genome sequence analysis shows that two endemic species of North American wolf, the red wolf and eastern wolf, are admixtures of the coyote and gray wolf.[26][27]

Mexican wolf × coyote hybrids

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In a study that analyzed the molecular genetics of coyotes, as well as samples of historical red wolves and Mexican wolves from Texas, a few coyote genetic markers have been found in the historical samples of some isolated Mexican wolf individuals. Likewise, gray wolf Y chromosomes have also been found in a few individual male Texan coyotes.[28] This study suggested that although the Mexican wolf is generally less prone to hybridizations with coyotes, exceptional genetic exchanges with the Texan coyotes may have occurred among individual gray wolves from historical remnants before the population was completely extirpated in Texas. The resulting hybrids would later on melt back into the coyote populations as the wolves disappeared.

The same study discussed an alternative possibility that the red wolves, which also once overlapped with both species in central Texas, were involved in circuiting the gene flows between the coyotes and gray wolves, much like how the eastern wolf is suspected to have bridged gene flows between gray wolves and coyotes in the Great Lakes region, since direct hybridizations between coyotes and gray wolves is considered rare.

In tests performed on a stuffed carcass of what was initially labelled a chupacabra, mitochondrial DNA analysis conducted by Texas State University showed that it was a coyote, though subsequent tests revealed that it was a coyote × gray wolf hybrid sired by a male Mexican wolf.[29]

Northwestern wolf × coyote hybrid experiment

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A F1 hybrid coyote-gray wolf hybrid, conceived in captivity

In 2013, the U.S. Department of Agriculture Wildlife Services conducted a captive-breeding experiment at their National Wildlife Research Center Predator Research Facility in Logan, Utah. Using gray wolves from British Columbia and western coyotes, they produced six hybrids, making this the first hybridization case between pure coyotes and northwestern wolves. The experiment, which used artificial insemination, was intended to determine whether or not the sperm of the larger gray wolves in the west was capable of fertilizing the egg cells of western coyotes. Aside from the historical hybridizations between coyotes and the smaller Mexican wolves in the south, as well as with eastern wolves and red wolves, gray wolves from the northwestern US and western provinces of Canada were not known to interbreed with coyotes in the wild, thus prompting the experiment.

The six resulting hybrids included four males and two females. At six months of age, the hybrids were closely monitored and were shown to display both physical and behavioral characteristics from both species, as well as some physical similarities to the eastern wolves, whose status as a distinct wolf species or as a genetically distinct subspecies of the gray wolf is controversial. Regardless, the result of this experiment concluded that northwestern wolves, much like many other canids, are capable of hybridizing with coyotes.[3]

In 2015, a research team from the cell and microbiology department of Anoka-Ramsey Community College revealed that an F2 litter of two pups had been produced from two of the original hybrids. At the same time, despite the six F1's successful delivery from the same coyote, they were not all full siblings because multiple sperm from eight different northwestern wolves were used in their production. The successful production of the F2 litter, nonetheless, confirmed that hybrids of coyotes and northwestern wolves are just as fertile as hybrids of coyotes to eastern and red wolves. Both the F1 and F2 hybrids were found to be phenotypically intermediate between the western gray wolves and coyotes. Unlike the F1 hybrids, which were produced via artificial insemination, the F2 litter was produced from a natural breeding.[30]

The study also discovered through sequencing 16S ribosomal RNA encoding genes that the F1 hybrids all have an intestinal microbiome distinct from both parent species, but which was once reported to be present in some gray wolves. Moreover, analysis of their complementary DNA and ribosomal RNA revealed that the hybrids have very differential gene expressions compared to those in gray wolf controls.

Coydogs

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Coydogs in Wyoming, 1951

Hybrids between coyotes and domestic dogs have been bred in captivity, dating to pre-Columbian Mexico.[31] Other specimens were later produced by mammal biologists mostly for research purposes. Domestic dogs are included in the gray wolf species.[32] Hence, coydogs are another biological sub-variation of hybrids between coyotes and gray wolves - the dog being considered a domesticated subspecies of Canis lupus.[33]

See also

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References

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  1. ^ Wayne, R. (1993). "Molecular evolution of the dog family". Trends in Genetics. 9 (6): 218–24. doi:10.1016/0168-9525(93)90122-X. PMID 8337763.
  2. ^ vonHoldt, B. M.; Cahill, J. A.; Fan, Z.; Gronau, I.; Robinson, J.; Pollinger, J. P.; Shapiro, B.; Wall, J.; Wayne, R. K. (2016). "Whole-genome sequence analysis shows that two endemic species of North American wolf are admixtures of the coyote and gray wolf". Science Advances. 2 (7): e1501714. Bibcode:2016SciA....2E1714V. doi:10.1126/sciadv.1501714. PMC 5919777. PMID 29713682.
  3. ^ a b c Mech, L. D.; Christensen, B. W.; Asa, C. S.; Callahan, M.; Young, J. K. (2014). "Production of Hybrids between Western Gray Wolves and Western Coyotes". PLOS ONE. 9 (2): e88861. Bibcode:2014PLoSO...988861M. doi:10.1371/journal.pone.0088861. PMC 3934856. PMID 24586418.
  4. ^ Way J. G. (2007). "A comparison of body mass of Canis latrans (Coyotes) between eastern and western North America" (PDF). Northeastern Naturalist. 14 (1): 111–24. doi:10.1656/1092-6194(2007)14[111:acobmo]2.0.co;2. S2CID 85288738.
  5. ^ Riese, Clive (March 19, 2014), Wildlife Science Center partners in study impacting wolf controversy, Forest Lake Times
  6. ^ Bekoff, M. (1978). "Behavioral Development in Coyotes and Eastern Coyotes", pp. 97–124 in M. Bekoff, (ed.) Coyotes: Biology, Behavior, and Management. Academic Press, New York. ISBN 1930665423.
  7. ^ Way J.G.; Rutledge L.; Wheeldon T.; White B.N. (2010). "Genetic characterization of Eastern "Coyotes" in eastern Massachusetts" (PDF). Northeastern Naturalist. 17 (2): 189–204. doi:10.1656/045.017.0202. S2CID 135542.
  8. ^ "Greater than the sum of its parts". The Economist. October 31, 2015. Retrieved October 30, 2015.
  9. ^ Update on Coy Wolf sightings in Ohio – Ohio Ag Net | Ohio's Country Journal. Ocj.com. Retrieved on 2018-09-05.
  10. ^ West Virginia DNR – Coyote. Wvdnr.gov. Retrieved on 2018-09-05.
  11. ^ Coyotes in Maryland. Department of Natural Resources. maryland.gov
  12. ^ Coyote-Wolf Hybrids Have Spread Across U.S. East. News.nationalgeographic.com (2011-11-08). Retrieved on 2018-09-05.
  13. ^ "Living with Wildlife – Eastern coyotes" (PDF). Natural Resources website. Government of New Brunswick. Retrieved February 2, 2014.
  14. ^ "Frequently Asked Questions about Eastern Coyote in Nova Scotia". Department of Natural Resources website. Government of Nova Scotia. Retrieved February 2, 2014.
  15. ^ "Living with Coyotes in Newfoundland and Labrador". The Department of Environment and Conservation website. Government of Newfoundland and Labrador. Archived from the original on February 19, 2014. Retrieved February 2, 2014.
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  19. ^ Monzon, Javier (January 22, 2014). "It's a "Coyote-wolf-dog eat dog" world". Gotham Coyote Project. Archived from the original on August 7, 2016. Retrieved June 16, 2016.
  20. ^ "Northeastern coyote/coywolf taxonomy and admixture: A meta-analysis" (PDF). Canid Biology & Conservation. 19 (1): 1–7. Archived from the original (PDF) on April 4, 2016. Retrieved March 20, 2016.
  21. ^ von Holt, B.M.; et al. (May 12, 2011). "A genome-wide perspective on the evolutionary history of enigmatic wolf-like canids". Genome Res. 21 (8): 1294–305. doi:10.1101/gr.116301.110. PMC 3149496. PMID 21566151.
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  23. ^ Rutledge, L. Y; Devillard, S; Boone, J. Q; Hohenlohe, P. A; White, B. N (July 2015). "RAD sequencing and genomic simulations resolve hybrid origins within North American Canis". Biology Letters. 11 (7): 20150303. doi:10.1098/rsbl.2015.0303. PMC 4528444. PMID 26156129.
  24. ^ Chambers, Steven M.; Fain, Steven R.; Fazio, Bud; Amaral, Michael (2012). "An account of the taxonomy of North American wolves from morphological and genetic analyses". North American Fauna. 77: 1–67. doi:10.3996/nafa.77.0001.
  25. ^ Dumbacher, J. (January 2014). "Review of Proposed Rule Regarding Status of the Wolf Under the Endangered Species Act" (PDF). NCEAS. U.S. Fish & Wildlife Service.
  26. ^ von Holdt, B.M.; Cahill, J. A.; Fan, Z.; Gronau, I.; Robinson, J.; Pollinger, J.P.; et al. (2016). "Whole-genome sequence analysis shows that two endemic species of North American wolf are admixtures of the coyote and gray wolf". Science Advances. 2 (7): e1501714. Bibcode:2016SciA....2E1714V. doi:10.1126/sciadv.1501714. PMC 5919777. PMID 29713682.
  27. ^ Morell, Virginia (2016). "How do you save a wolf that's not really a wolf?". Science. doi:10.1126/science.aag0699.
  28. ^ Hailer, F.; Leonard, J.A. (2008). "Hybridization among three native North American Canis species in a region of natural sympatry". PLOS ONE. 3 (10): e3333. Bibcode:2008PLoSO...3.3333H. doi:10.1371/journal.pone.0003333. PMC 2556088. PMID 18841199.
  29. ^ Ardizzoni, S. (September 1, 2013). "Texas State University researcher helps unravel mystery of Texas 'blue dog' claimed to be Chupacabra". Bio News Texas. Archived from the original on March 19, 2014. Retrieved January 23, 2014.
  30. ^ "NCUR". Archived from the original on April 24, 2016. Retrieved April 1, 2016.
  31. ^ Valadez, Raúl; Rodríguez, Bernardo; Manzanilla, Linda; Tejeda, Samuel. "13. Dog-wolf Hybrid Biotype Reconstruction from the Archaeological City of Teotihuacan in Prehispanic Central Mexico" (PDF). In Snyder, Lynn M.; Moore, Elizabeth A. (eds.). 9th ICAZ Conference, Durham 2002: Dogs and People in Social, Working, Economic, or Symbolic Interaction. pp. 120–130. Archived from the original (PDF) on September 23, 2015. Retrieved December 12, 2014.
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  33. ^ Anderson, T.M.; Vonholdt, B.M.; Candille, S.I.; Musiani, M.; Greco, C.; Stahler, D.R.; et al. (2009). "Molecular and evolutionary history of melanism in North American gray wolves". Science. 323 (5919): 1339–1343. Bibcode:2009Sci...323.1339A. doi:10.1126/science.1165448. PMC 2903542. PMID 19197024.

Further reading

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