Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact

Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact

The tropical archipelago of Wallacea contains thousands of individual islands interspersed between mainland Asia and Near Oceania, and marks the location of a series of ancient oceanic voyages leading to the peopling of Sahul—i.e., the former continent that joined Australia and New Guinea at a time...

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Main Authors: Gludhug A. Purnomo, Kieren J. Mitchell, Sue O’Connor, Shimona Kealy, Leonard Taufik, Sophie Schiller, Adam Rohrlach, Alan Cooper, Bastien Llamas, Herawati Sudoyo, João C. Teixeira, Raymond Tobler
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Genes
Subjects:
phylogeography
human migrations
Sahul
mitochondria
mtDNA
Online Access:https://www.mdpi.com/2073-4425/12/7/965
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spelling doaj-78e6fd3923aa4a94bc5d5d04678575532021-07-23T13:41:38ZengMDPI AGGenes2073-44252021-06-011296596510.3390/genes12070965Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian ContactGludhug A. Purnomo0Kieren J. Mitchell1Sue O’Connor2Shimona Kealy3Leonard Taufik4Sophie Schiller5Adam Rohrlach6Alan Cooper7Bastien Llamas8Herawati Sudoyo9João C. Teixeira10Raymond Tobler11Australian Centre for Ancient DNA, School of Biological Sciences, University of Adelaide, Adelaide 5005, AustraliaAustralian Centre for Ancient DNA, School of Biological Sciences, University of Adelaide, Adelaide 5005, AustraliaArchaeology and Natural History, School of Culture, History and Language, College of Asia and the Pacific, Australian National University, Canberra 2601, AustraliaArchaeology and Natural History, School of Culture, History and Language, College of Asia and the Pacific, Australian National University, Canberra 2601, AustraliaGenome Diversity and Diseases Laboratory, Eijkman Institute of Molecular Biology, Jakarta 10430, IndonesiaARC Centre of Excellence for Mathematical and Statistical Frontiers, School of Mathematical Sciences, University of Adelaide, Adelaide 5005, AustraliaARC Centre of Excellence for Mathematical and Statistical Frontiers, School of Mathematical Sciences, University of Adelaide, Adelaide 5005, AustraliaBlue Sky Genetics, P.O. Box 287, Adelaide 5137, AustraliaAustralian Centre for Ancient DNA, School of Biological Sciences, University of Adelaide, Adelaide 5005, AustraliaGenome Diversity and Diseases Laboratory, Eijkman Institute of Molecular Biology, Jakarta 10430, IndonesiaAustralian Centre for Ancient DNA, School of Biological Sciences, University of Adelaide, Adelaide 5005, AustraliaAustralian Centre for Ancient DNA, School of Biological Sciences, University of Adelaide, Adelaide 5005, AustraliaThe tropical archipelago of Wallacea contains thousands of individual islands interspersed between mainland Asia and Near Oceania, and marks the location of a series of ancient oceanic voyages leading to the peopling of Sahul—i.e., the former continent that joined Australia and New Guinea at a time of lowered sea level—by 50,000 years ago. Despite the apparent deep antiquity of human presence in Wallacea, prior population history research in this region has been hampered by patchy archaeological and genetic records and is largely concentrated upon more recent history that follows the arrival of Austronesian seafarers ~3000–4000 years ago (3–4 ka). To shed light on the deeper history of Wallacea and its connections with New Guinea and Australia, we performed phylogeographic analyses on 656 whole mitogenomes from these three regions, including 186 new samples from eight Wallacean islands and three West Papuan populations. Our results point to a surprisingly dynamic population history in Wallacea, marked by two periods of extensive demographic change concentrated around the Last Glacial Maximum ~15 ka and post-Austronesian contact ~3 ka. These changes appear to have greatly diminished genetic signals informative about the original peopling of Sahul, and have important implications for our current understanding of the population history of the region.https://www.mdpi.com/2073-4425/12/7/965phylogeographyhuman migrationsSahulmitochondriamtDNA
collection DOAJ
language English
format Article
sources DOAJ
author Gludhug A. Purnomo
Kieren J. Mitchell
Sue O’Connor
Shimona Kealy
Leonard Taufik
Sophie Schiller
Adam Rohrlach
Alan Cooper
Bastien Llamas
Herawati Sudoyo
João C. Teixeira
Raymond Tobler
spellingShingle Gludhug A. Purnomo
Kieren J. Mitchell
Sue O’Connor
Shimona Kealy
Leonard Taufik
Sophie Schiller
Adam Rohrlach
Alan Cooper
Bastien Llamas
Herawati Sudoyo
João C. Teixeira
Raymond Tobler
Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
Genes
phylogeography
human migrations
Sahul
mitochondria
mtDNA
author_facet Gludhug A. Purnomo
Kieren J. Mitchell
Sue O’Connor
Shimona Kealy
Leonard Taufik
Sophie Schiller
Adam Rohrlach
Alan Cooper
Bastien Llamas
Herawati Sudoyo
João C. Teixeira
Raymond Tobler
author_sort Gludhug A. Purnomo
title Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
title_short Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
title_full Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
title_fullStr Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
title_full_unstemmed Mitogenomes Reveal Two Major Influxes of Papuan Ancestry across Wallacea Following the Last Glacial Maximum and Austronesian Contact
title_sort mitogenomes reveal two major influxes of papuan ancestry across wallacea following the last glacial maximum and austronesian contact
publisher MDPI AG
series Genes
issn 2073-4425
publishDate 2021-06-01
description The tropical archipelago of Wallacea contains thousands of individual islands interspersed between mainland Asia and Near Oceania, and marks the location of a series of ancient oceanic voyages leading to the peopling of Sahul—i.e., the former continent that joined Australia and New Guinea at a time of lowered sea level—by 50,000 years ago. Despite the apparent deep antiquity of human presence in Wallacea, prior population history research in this region has been hampered by patchy archaeological and genetic records and is largely concentrated upon more recent history that follows the arrival of Austronesian seafarers ~3000–4000 years ago (3–4 ka). To shed light on the deeper history of Wallacea and its connections with New Guinea and Australia, we performed phylogeographic analyses on 656 whole mitogenomes from these three regions, including 186 new samples from eight Wallacean islands and three West Papuan populations. Our results point to a surprisingly dynamic population history in Wallacea, marked by two periods of extensive demographic change concentrated around the Last Glacial Maximum ~15 ka and post-Austronesian contact ~3 ka. These changes appear to have greatly diminished genetic signals informative about the original peopling of Sahul, and have important implications for our current understanding of the population history of the region.
topic phylogeography
human migrations
Sahul
mitochondria
mtDNA
url https://www.mdpi.com/2073-4425/12/7/965
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