Hyena paleogenomes reveal a complex evolutionary history of cross-continental gene flow between spotted and cave hyena

Westbury, Michael V.; Hartmann, Stefanie; Barlow, Axel; Preick, Michaela; Ridush, Bogdan; Nagel, Doris; Rathgeber, Thomas; Ziegler, Rafael; Baryshnikov, Gennady; Sheng, Guilian; Ludwig, Arne; Wiesel, Ingrid; Dalén, Love; Bibi, Faysal; Werdelin, Lars; Heller, Rasmus; Hofreiter, Michael

doi:10.1126/sciadv.aay0456

Cited by 43 publications

(81 citation statements)

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“…With more samples analyzed in the future, the phylogenetic relationships between modern spotted hyenas and east Asian cave hyenas could be confirmed or modified. The Bayesian analysis carried out in BEAST indicates that all the analyzed spotted hyenas, including modern individuals from northern and southern Africa and fossils from east Asia, share the most recent common ancestor (tMRCA) at ~ 2.77 Ma, which agrees well with the time estimated from nuclear genomes 12 . Furthermore, based on the divergence time between the SYZ and the northern African individuals (Fig.…”

Section: Resultssupporting

confidence: 72%

“…The phylogenies constructed from both of our proteomic datasets indicate the Namibian individual as a basal lineage, which agrees with the result of gene flow analysis, i.e. the Namibian individual contained the fewest windows of gene flow from cave hyenas compared with other modern individuals12 . Moreover, considering the amino acid substitutions in the Crocuta populations (seeSupplementary Information), the Namibian individual represented the ancestral type of amino acid (Isoleucine, i.e.…”

supporting

confidence: 83%

“…www.nature.com/scientificreports/ and mitochondrial phylogenies was interpreted as putative gene flow12 , which could also fit the case of east Asia here. The phylogenies constructed from both of our proteomic datasets indicate the Namibian individual as a basal lineage, which agrees with the result of gene flow analysis, i.e.…”

supporting

confidence: 66%

“…As no annotated complete genome of the Hyaenidae species was available online at the time, a homologous proteome from domestic cat (Felis catus; GenBank assembly accession: GCA_000181335; number of protein sequences = 32,891) was downloaded from Uniprot as a reference database to obtain the bone and dentine proteomes of these Pleistocene samples. The raw data were run against the entire domestic cat proteome database with the addition of a selected group of common bone and dentine proteins from Carnivora, especially the family Hyaenidae, which were manually translated from published genomes 12,57 . Common contaminants were included in the database as well.…”

Section: Atr-ftir Analysis Attenuated Total Reflectance-fourier Tranmentioning

confidence: 99%

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Palaeoproteomic analysis of Pleistocene cave hyenas from east Asia

Rao

Yang

Liu

et al. 2020

Sci Rep

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The spotted hyena (Crocuta crocuta) is the only extant species of the genus Crocuta, which once occupied a much wider range during the Pliocene and Pleistocene. However, its origin and evolutionary history is somewhat contentious due to discordances between morphological, nuclear, and mitochondrial data. Due to the limited molecular data from east Asian Crocuta, also known as cave hyena, and the difficulty of extracting ancient DNA from this area, here we present proteomic analysis of cave hyenas from three locations in northern China. This marks the first proteomic data generated from cave hyenas, adding new molecular data to the east Asian populations. Phylogenetic analysis based on these protein sequences reveals two different groups of cave hyenas in east Asia, one of which could not be distinguished from modern spotted hyenas from northern Africa, tentatively the result of previously suggested gene flow between these lineages. With developments of instrumentation and analytical methods, proteomics holds promising potential for molecular phylogenetic reconstructions of ancient fauna previously thought to be unreachable using ancient DNA.

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Section: Resultssupporting

confidence: 72%

supporting

confidence: 83%

supporting

confidence: 66%

Section: Atr-ftir Analysis Attenuated Total Reflectance-fourier Tranmentioning

confidence: 99%

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Palaeoproteomic analysis of Pleistocene cave hyenas from east Asia

Rao

Yang

Liu

et al. 2020

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“…Our results suggest that cave lions diverged from present-day lions early during the Pleistocene, a period that appears to be important in the diversification of a number of other megafaunal species (e.g. cave bears from their sister clade, the brown and polar bears, 1.59 mya 17 ; the main mammoth clades, ~ 2.0–1.0 mya 18 ; the split between African and Eurasian hyena populations, ~ 2.5 mya, 19 ). This result is in line with previous studies that have hypothesised that cave lions and modern lions are distinct species, based on morphological 5 and genetic data 9 .…”

Section: Resultsmentioning

confidence: 93%

Early Pleistocene origin and extensive intra-species diversity of the extinct cave lion

Stanton

Alberti

Плотников

et al. 2020

Sci Rep

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The cave lion is an extinct felid that was widespread across the Holarctic throughout the Late pleistocene. its closest extant relative is the lion (Panthera leo), but the timing of the divergence between these two taxa, as well as their taxonomic ranking are contentious. In this study we analyse 31 mitochondrial genome sequences from cave lion individuals that, through a combination of 14 c and genetic tip dating, are estimated to be from dates extending well into the mid-Pleistocene. We identified two deeply diverged and well-supported reciprocally monophyletic mitogenome clades in the cave lion, and an additional third distinct lineage represented by a single individual. One of these clades was restricted to Beringia while the other was prevalent across western Eurasia. These observed clade distributions are in line with previous observations that Beringian and European cave lions were morphologically distinct. The divergence dates for these lineages are estimated to be far older than those between extant lions subspecies. By combining our radiocarbon tip-dates with a split time prior that takes into account the most up-to-date fossil stem calibrations, we estimated the mitochondrial DNA divergence between cave lions and lions to be 1.85 Million ya (95% 0.52-2.91 Mya). Taken together, these results support previous hypotheses that cave lions existed as at least two subspecies during the Pleistocene, and that lions and cave lions were distinct species. The cave lion (Panthera spelaea) was an apex predator across the Holarctic 1,2 until their extinction at the end of the Pleistocene 3 (last occurrence in the fossil record 14,219 ± 112 cal BP 4). Cave lions were larger than extant lions 5 , and Pleistocene cave art suggests that they did not have manes. However they may have shared several behavioural traits with their modern counterparts, such as group living and courtship rituals 6. Cave lion taxonomy has been contentious, being variously considered a subspecies of Panthera leo 7,8 , a sister species to extant lions (Panthera spelaea) 5,9 , or even being more closely related to the tiger (Panthera tigris spelaea) 10. In particular, the molecular estimate of the timing of the split between cave lions and extant lions has varied considerably between studies (~ 600 kya 8 ; 1.23-2.93 mya 11). Ersmark et al. 12 identified two major cave lion mitochondrial DNA haplogroups (based on ~ 348 bp of ATP8 and control region sequences) and showed that

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New insights into cave hyena ethology and the implications for territorial competition with hominins in Late Pleistocene north‐west Europe: the case of Caverne Marie‐Jeanne (Belgium)

Jimenez

Germonpré

Boudin

2021

J Quaternary Science

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Megacarnivore behaviours shape ecological dynamics between their prey and competitors and therefore play a key role in structuring ecosystems. In Late Pleistocene Eurasia, hominins and hyenas were sympatric predators. Since the first discoveries of Crocuta c. spelaea in the 19th century, this 'bone-crushing' species has been identified at most Palaeolithic sites and has inspired many taphonomic studies. Nonetheless, there is still very little known about its reproductive, social and spatial behaviours. We believe that exploring the complexity of the cave hyena's ethology is a way to better understand spatial relationships and niche sharing/partitioning between hominins and other top predators in Pleistocene ecosystems. This paper focuses on the study of Caverne Marie-Jeanne Layer 4 (Hastière, Belgium), one of the best-preserved palaeontological sites in the region. The exceptional number of hyena neonates in this assemblage (minimum number of individuals >300) has led us to describe, for the first time, a Late Pleistocene hyena birth den that was reused over a long period of time around 47.6-43k a BP. By bridging the gap between archaeology and palaeontology, we explore the potential of carnivore socio-spatial organisation and denning habits as an ecological proxy and discuss how these new unique data could help us further understand hominins' spatial strategy in southern Belgium.

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Hyena paleogenomes reveal a complex evolutionary history of cross-continental gene flow between spotted and cave hyena

Cited by 43 publications

References 58 publications

Palaeoproteomic analysis of Pleistocene cave hyenas from east Asia

Palaeoproteomic analysis of Pleistocene cave hyenas from east Asia

Early Pleistocene origin and extensive intra-species diversity of the extinct cave lion

New insights into cave hyena ethology and the implications for territorial competition with hominins in Late Pleistocene north‐west Europe: the case of Caverne Marie‐Jeanne (Belgium)

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