Revising the recent evolutionary history of equids using ancient DNA

Orlando, Ludovic; Metcalf, Jessica L.; Alberdi, María Teresa; Antunes, Miguel Telles; Bonjean, Dominique; Otte, Marcel; Martin, Fabiana; Eisenmann, Véra; Mashkour, Marjan; Morello, Flavia; Prado, José Luis; Salas-Gismondi, Rodolfo; Shockey, Bruce J.; Wrinn, Patrick J.; Vasil'ev, Sergei K.; Ovodov, Nicolai D.; Cherry, Michael; Hopwood, Blair; Male, Dean A.; Austin, Jeremy J.; Hänni, Catherine; Cooper, Alan

doi:10.1073/pnas.0903672106

Cited by 140 publications

(148 citation statements)

References 52 publications

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“…It is therefore not entirely surprising that not all wild horses shared the bay-dun or black-dun phenotypes. Moreover, previous studies suggested that morphological-and genetic-variability was much larger in Pleistocene animal populations compared with their modern counterparts (30)(31)(32), and it is likely that this increased variability extended to color phenotypes as well. However, the overall picture still supports the notion that artificial selection was the driving force behind the rapid increase of coat-color variation in domestic animals and resulting in their remarkable modern variability.…”

Section: Discussionmentioning

confidence: 99%

Genotypes of predomestic horses match phenotypes painted in Paleolithic works of cave art

Pruvost

Bellone

Benecke

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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Archaeologists often argue whether Paleolithic works of art, cave paintings in particular, constitute reflections of the natural environment of humans at the time. They also debate the extent to which these paintings actually contain creative artistic expression, reflect the phenotypic variation of the surrounding environment, or focus on rare phenotypes. The famous paintings “The Dappled Horses of Pech-Merle,” depicting spotted horses on the walls of a cave in Pech-Merle, France, date back ∼25,000 y, but the coat pattern portrayed in these paintings is remarkably similar to a pattern known as “leopard” in modern horses. We have genotyped nine coat-color loci in 31 predomestic horses from Siberia, Eastern and Western Europe, and the Iberian Peninsula. Eighteen horses had bay coat color, seven were black, and six shared an allele associated with the leopard complex spotting ( LP ), representing the only spotted phenotype that has been discovered in wild, predomestic horses thus far. LP was detected in four Pleistocene and two Copper Age samples from Western and Eastern Europe, respectively. In contrast, this phenotype was absent from predomestic Siberian horses. Thus, all horse color phenotypes that seem to be distinguishable in cave paintings have now been found to exist in prehistoric horse populations, suggesting that cave paintings of this species represent remarkably realistic depictions of the animals shown. This finding lends support to hypotheses arguing that cave paintings might have contained less of a symbolic or transcendental connotation than often assumed.

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Section: Discussionmentioning

confidence: 99%

Genotypes of predomestic horses match phenotypes painted in Paleolithic works of cave art

Pruvost

Bellone

Benecke

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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“…We drilled and extracted the tooth sample which we named P2_Leceia (415 mg) and for comparison a second tooth P1_Porto (a left M/2 collected from Porto das Carretas, a Chalcolithic site in the south of Portugal, near the Guadiana river, and dated to around the same time as the Leceia sample, the second half of the third millennium BC) 185e332 mg were obtained from three extractions by a silica-based extraction protocol as in Orlando et al (2009) with appropriate extraction controls in an ancient DNA laboratory at the Centre for GeoGenetics, Copenhagen, Denmark. We then built the DNA extractions into indexed blunt-end libraries using the NEBNext DNA Library Prep Master Mix set for 454 (Biolabs,ref:E6070s) and amplified the libraries as in Vilstrup et al (2013).…”

Section: Molecular Analysesmentioning

confidence: 99%

“…28, 51, 225) and even for the manufacture of shields for war (Antunes, 2006), supporting venatory activities, and also to prevent the destruction of crops by this herd living animal. The correlation between E. hydruntinus and the "zebro", though attractive, has been rejected by ancient DNA analyses that assigned the remains purported to have been the last representative of this species, to donkeys (Orlando et al, 2009). Therefore, the "zebro" were most likely domestic donkeys (E. asinus) turned feral, a possibility proposed by C. Liesau, during several stages of the historic record, related to epidemic diseases, which conduced to the abandonment of the fields (pers.…”

Section: Introduction: the Past Presence Of Equids In The Iberian Penmentioning

confidence: 99%

First evidence of Equus asinus L. in the Chalcolithic disputes the Phoenicians as the first to introduce donkeys into the Iberian Peninsula

Cardoso

Vilstrup

Eisenmann

et al. 2013

Journal of Archaeological Science

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“…For the infinitely dated samples, the 95% CIs include the range 30,000-80,000 years, and the weight of the sample density is concentrated around 52,000 years. A further calibration was incorporated at the time of divergence between E. asinus, and the remaining lineages: We used a lognormal prior sampling between 1.0 and 5.5 myrs; these confidence intervals incorporate both the fossil record age estimates [57][58][59] and previous divergence estimates based on molecular data 60 . The results of the tip-dating analysis are shown in Supplementary Table S7. …”

Section: Primer Designmentioning

confidence: 99%

Discovery of lost diversity of paternal horse lineages using ancient DNA

et al. 2011

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modern domestic horses display abundant genetic diversity within female-inherited mitochondrial DnA, but practically no sequence diversity on the male-inherited Y chromosome. several hypotheses have been proposed to explain this discrepancy, but can only be tested through knowledge of the diversity in both the ancestral (pre-domestication) maternal and paternal lineages. As wild horses are practically extinct, ancient DnA studies offer the only means to assess this ancestral diversity. Here we show considerable ancestral diversity in ancient male horses by sequencing 4 kb of Y chromosomal DnA from eight ancient wild horses and one 2,800-year-old domesticated horse. Both ancient and modern domestic horses form a separate branch from the ancient wild horses, with the Przewalski horse at its base. our methodology establishes the feasibility of re-sequencing long ancient nuclear DnA fragments and demonstrates the power of ancient Y chromosome DnA sequence data to provide insights into the evolutionary history of populations.

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Revising the recent evolutionary history of equids using ancient DNA

Cited by 140 publications

References 52 publications

Genotypes of predomestic horses match phenotypes painted in Paleolithic works of cave art

Genotypes of predomestic horses match phenotypes painted in Paleolithic works of cave art

First evidence of Equus asinus L. in the Chalcolithic disputes the Phoenicians as the first to introduce donkeys into the Iberian Peninsula

Discovery of lost diversity of paternal horse lineages using ancient DNA

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