Exploring the landscape and climatic conditions of Neanderthals and anatomically modern humans in the Middle East: the rodent assemblage from the late Pleistocene of Kaldar Cave (Khorramabad Valley, Iran)

ABSTRACTBackgroundAfter three decades of mtDNA studies on human evolution the only incontrovertible main result is the African origin of all extant modern humans. In addition, a southern coastal route has been relentlessly imposed to explain the Eurasian colonization of these African pioneers. Based on the age of macrohaplogroup L3, from which all maternal Eurasian and the majority of African lineages originated, that out-of-Africa event has been dated around 60-70 kya. On the opposite side, we have proposed a northern route through Central Asia across the Levant for that expansion. Consistent with the fossil record, we have dated it around 125 kya. To help bridge differences between the molecular and fossil record ages, in this article we assess the possibility that mtDNA macrohaplogroup L3 matured in Eurasia and returned to Africa as basic L3 lineages around 70 kya.ResultsThe coalescence ages of all Eurasian (M,N) and African L3 lineages, both around 71 kya, are not significantly different. The oldest M and N Eurasian clades are found in southeastern Asia instead near of Africa as expected by the southern route hypothesis. The split of the Y-chromosome composite DE haplogroup is very similar to the age of mtDNA L3. A Eurasian origin and back migration to Africa has been proposed for the African Y-chromosome haplogroup E. Inside Africa, frequency distributions of maternal L3 and paternal E lineages are positively correlated. This correlation is not fully explained by geographic or ethnic affinities. It seems better to be the result of a joint and global replacement of the old autochthonous male and female African lineages by the new Eurasian incomers.ConclusionsThese results are congruent with a model proposing an out-of-Africa of early anatomically modern humans around 125 kya. A return to Africa of Eurasian fully modern humans around 70 kya, and a second Eurasian global expansion by 60 kya. Climatic conditions and the presence of Neanderthals played key roles in these human movements.

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The Evolution of Modern Behaviour and its Implications for Maritime Dispersal During the Palaeolithic

Cambridge Archaeological Journal ◽

10.1017/s0959774315000098 ◽

2015 ◽

Vol 25 (4) ◽

pp. 829-846 ◽

Cited By ~ 8

Author(s):

Thomas P. Leppard

Keyword(s):

Late Pleistocene ◽

Cognitive Architecture ◽

Central Question ◽

Upper Palaeolithic ◽

Modern Humans ◽

Cognitive Capacities ◽

Dispersal Model ◽

The Social ◽

Anatomically Modern Humans ◽

Bodies Of Water

Oceans and seas are more frequently thought to have been barriers to than enablers of movement for archaic hominins. This interpretation has been challenged by a revisionist model which suggests that bodies of water facilitated the dispersal of pre-moderns. This paper addresses the revisionist model by defining maritime dispersal as a series of cognitive and organizational problems, the capacity to solve which must have arisen during the evolution of Homo. The central question posed is: knowing the type of social and cognitive configuration necessary for strategic maritime dispersal, and knowing the social and cognitive capacities of hominin species implied in the revisionist dispersal model, how likely is it that such species possessed the capacity to undertake purposive maritime colonization? Available data suggest that the evolution of modern cognitive architecture during the Late Pleistocene correlates positively with increasing evidence for maritime dispersal in the Upper Palaeolithic, and that behavioural modernity is implicated in the appearance of strategic maritime dispersal in Homo. Consequently, it is likely that deliberate trans-oceanic seagoing is restricted to Anatomically Modern Humans, and possibly Neanderthals.

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Development of bone and lithic technologies by anatomically modern humans during the late Pleistocene to Holocene in Sulawesi and Wallacea

Quaternary International ◽

10.1016/j.quaint.2020.12.045 ◽

2021 ◽

Author(s):

Rintaro Ono ◽

Riczar Fuentes ◽

Noel Amano ◽

Harry Octavianus Sofian ◽

Sriwigati ◽

...

Keyword(s):

Late Pleistocene ◽

Modern Humans ◽

Anatomically Modern Humans ◽

Late Pleistocene To Holocene

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Island migration and foraging behaviour by anatomically modern humans during the late Pleistocene to Holocene in Wallacea: New evidence from Central Sulawesi, Indonesia

Quaternary International ◽

10.1016/j.quaint.2020.03.054 ◽

2020 ◽

Vol 554 ◽

pp. 90-106 ◽

Cited By ~ 5

Author(s):

Rintaro Ono ◽

Riczar Fuentes ◽

Alfred Pawlik ◽

Harry Octavianus Sofian ◽

Sriwigati ◽

...

Keyword(s):

Late Pleistocene ◽

Foraging Behaviour ◽

Modern Humans ◽

Anatomically Modern Humans ◽

Late Pleistocene To Holocene ◽

New Evidence ◽

Central Sulawesi

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Late Pleistocene climate change and the global expansion of anatomically modern humans

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1209494109 ◽

2012 ◽

Vol 109 (40) ◽

pp. 16089-16094 ◽

Cited By ~ 106

Author(s):

A. Eriksson ◽

L. Betti ◽

A. D. Friend ◽

S. J. Lycett ◽

J. S. Singarayer ◽

...

Keyword(s):

Climate Change ◽

Late Pleistocene ◽

Modern Humans ◽

Global Expansion ◽

Pleistocene Climate ◽

Anatomically Modern Humans ◽

Pleistocene Climate Change

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Dental Morphological Affinities Among Late-Pleistocene and Recent Humans

Dental Anthropology Journal ◽

10.26575/daj.v14i2.183 ◽

2018 ◽

Vol 14 (2) ◽

pp. 1-8

Author(s):

Shara E. Bailey

Keyword(s):

Late Pleistocene ◽

Modern Human ◽

Upper Paleolithic ◽

Dental Morphology ◽

Modern Humans ◽

Modern Human Origins ◽

Close Relationship ◽

Anatomically Modern Humans ◽

Sub Saharan ◽

Two Populations

The study uses analyses of Mean Measure of Divergence (MMD) to assess the affinities of ten populations representing early anatomically modern humans, Upper Paleolithic Europeans, recent modern humans, and Neandertals. The 18-triat MMD analysis demonstrates that, dentally, Neandertals are quite divergent from all modern humans. The results of cluster analyses based on MMD values suggest two major clusters: Neandertals and modern humans. The data also suggest two sub-clusters within the modern human cluster. One links Upper Paleolithic Europeans with recent North Africans and Europeans. The other links early anatomically modern humans with Late Pleistocene Africans and recent Sub-Saharan Africans. These results do not support a close relationship between Neandertals and any modern human groups samples. They also tentatively suggest that, if the two populations were interbreeding, it is not reflected in their dental morphology. The results showing a close affinity between early anatomically modern humans and Sub-Saharan Africans are consist with the Recent African Origin model for modern human origins.

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A Morphometric Investigation into the Origin(s) of Anatomically Modern Humans

10.30861/9781841713441 ◽

2003 ◽

Author(s):

Phillip J. Habgood

Keyword(s):

Modern Humans ◽

Morphometric Investigation ◽

Anatomically Modern Humans

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Initial Upper Palaeolithic humans in Europe had recent Neanderthal ancestry

Nature ◽

10.1038/s41586-021-03335-3 ◽

2021 ◽

Vol 592 (7853) ◽

pp. 253-257 ◽

Cited By ~ 3

Author(s):

Mateja Hajdinjak ◽

Fabrizio Mafessoni ◽

Laurits Skov ◽

Benjamin Vernot ◽

Alexander Hübner ◽

...

Keyword(s):

Family History ◽

East Asia ◽

Late Pleistocene ◽

Modern Human ◽

Human Migration ◽

Upper Palaeolithic ◽

Modern Humans ◽

Genome Wide ◽

Genome Wide Data

AbstractModern humans appeared in Europe by at least 45,000 years ago1–5, but the extent of their interactions with Neanderthals, who disappeared by about 40,000 years ago6, and their relationship to the broader expansion of modern humans outside Africa are poorly understood. Here we present genome-wide data from three individuals dated to between 45,930 and 42,580 years ago from Bacho Kiro Cave, Bulgaria1,2. They are the earliest Late Pleistocene modern humans known to have been recovered in Europe so far, and were found in association with an Initial Upper Palaeolithic artefact assemblage. Unlike two previously studied individuals of similar ages from Romania7 and Siberia8 who did not contribute detectably to later populations, these individuals are more closely related to present-day and ancient populations in East Asia and the Americas than to later west Eurasian populations. This indicates that they belonged to a modern human migration into Europe that was not previously known from the genetic record, and provides evidence that there was at least some continuity between the earliest modern humans in Europe and later people in Eurasia. Moreover, we find that all three individuals had Neanderthal ancestors a few generations back in their family history, confirming that the first European modern humans mixed with Neanderthals and suggesting that such mixing could have been common.

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Stochastic models support rapid peopling of Late Pleistocene Sahul

Nature Communications ◽

10.1038/s41467-021-21551-3 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Corey J. A. Bradshaw ◽

Kasih Norman ◽

Sean Ulm ◽

Alan N. Williams ◽

Chris Clarkson ◽

...

Keyword(s):

Stochastic Models ◽

Ecological Model ◽

New Guinea ◽

Emergent Properties ◽

Modern Humans ◽

Global Migration ◽

Early Settlement ◽

Anatomically Modern Humans ◽

Settlement Event ◽

Initial Entry

AbstractThe peopling of Sahul (the combined continent of Australia and New Guinea) represents the earliest continental migration and settlement event of solely anatomically modern humans, but its patterns and ecological drivers remain largely conceptual in the current literature. We present an advanced stochastic-ecological model to test the relative support for scenarios describing where and when the first humans entered Sahul, and their most probable routes of early settlement. The model supports a dominant entry via the northwest Sahul Shelf first, potentially followed by a second entry through New Guinea, with initial entry most consistent with 50,000 or 75,000 years ago based on comparison with bias-corrected archaeological map layers. The model’s emergent properties predict that peopling of the entire continent occurred rapidly across all ecological environments within 156–208 human generations (4368–5599 years) and at a plausible rate of 0.71–0.92 km year−1. More broadly, our methods and approaches can readily inform other global migration debates, with results supporting an exit of anatomically modern humans from Africa 63,000–90,000 years ago, and the peopling of Eurasia in as little as 12,000–15,000 years via inland routes.

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