Author
Listed:
- Yucheng Wang
(University of Cambridge
University of Copenhagen)
- Mikkel Winther Pedersen
(University of Copenhagen)
- Inger Greve Alsos
(UiT— The Arctic University of Norway)
- Bianca Sanctis
(University of Cambridge
University of Cambridge)
- Fernando Racimo
(University of Copenhagen)
- Ana Prohaska
(University of Cambridge)
- Eric Coissac
(UiT— The Arctic University of Norway
Université Grenoble Alpes, Université Savoie Mont Blanc, CNRS, LECA)
- Hannah Lois Owens
(University of Copenhagen)
- Marie Kristine Føreid Merkel
(UiT— The Arctic University of Norway)
- Antonio Fernandez-Guerra
(University of Copenhagen)
- Alexandra Rouillard
(University of Copenhagen
UiT—The Arctic University of Norway)
- Youri Lammers
(UiT— The Arctic University of Norway)
- Adriana Alberti
(Université Paris-Saclay, CEA, CNRS, Institute for Integrative Biology of the Cell (I2BC)
CEA, CNRS, Université Evry, Université Paris-Saclay)
- France Denoeud
(CEA, CNRS, Université Evry, Université Paris-Saclay)
- Daniel Money
(University of Cambridge)
- Anthony H. Ruter
(University of Copenhagen)
- Hugh McColl
(University of Copenhagen)
- Nicolaj Krog Larsen
(University of Copenhagen)
- Anna A. Cherezova
(St Petersburg State University
Arctic and Antarctic Research Institute)
- Mary E. Edwards
(University of Southampton
University of Alaska Fairbanks)
- Grigory B. Fedorov
(St Petersburg State University
Arctic and Antarctic Research Institute)
- James Haile
(University of Copenhagen)
- Ludovic Orlando
(Université Paul Sabatier, Faculté de Médecine Purpan)
- Lasse Vinner
(University of Copenhagen)
- Thorfinn Sand Korneliussen
(University of Copenhagen
National Research University, Higher School of Economics)
- David W. Beilman
(University of Hawaii)
- Anders A. Bjørk
(University of Copenhagen)
- Jialu Cao
(University of Copenhagen)
- Christoph Dockter
(Carlsberg Research Laboratory)
- Julie Esdale
(Colorado State University)
- Galina Gusarova
(UiT— The Arctic University of Norway
St Petersburg State University)
- Kristian K. Kjeldsen
(Geological Survey of Denmark and Greenland)
- Jan Mangerud
(University of Bergen
Bjerknes Centre for Climate Research)
- Jeffrey T. Rasic
(US National Park Service, Gates of the Arctic National Park and Preserve)
- Birgitte Skadhauge
(Carlsberg Research Laboratory)
- John Inge Svendsen
(University of Bergen
Bjerknes Centre for Climate Research)
- Alexei Tikhonov
(, Russian Academy of Sciences)
- Patrick Wincker
(CEA, CNRS, Université Evry, Université Paris-Saclay)
- Yingchun Xing
(Chinese Academy of Fishery Sciences)
- Yubin Zhang
(Jilin University)
- Duane G. Froese
(University of Alberta)
- Carsten Rahbek
(University of Copenhagen
University of Copenhagen)
- David Nogues Bravo
(University of Copenhagen)
- Philip B. Holden
(The Open University)
- Neil R. Edwards
(The Open University)
- Richard Durbin
(University of Cambridge)
- David J. Meltzer
(University of Copenhagen
Southern Methodist University)
- Kurt H. Kjær
(University of Copenhagen)
- Per Möller
(Lund University)
- Eske Willerslev
(University of Cambridge
University of Copenhagen
Wellcome Trust Sanger Institute, Wellcome Genome Campus
University of Bremen)
Abstract
During the last glacial–interglacial cycle, Arctic biotas experienced substantial climatic changes, yet the nature, extent and rate of their responses are not fully understood1–8. Here we report a large-scale environmental DNA metagenomic study of ancient plant and mammal communities, analysing 535 permafrost and lake sediment samples from across the Arctic spanning the past 50,000 years. Furthermore, we present 1,541 contemporary plant genome assemblies that were generated as reference sequences. Our study provides several insights into the long-term dynamics of the Arctic biota at the circumpolar and regional scales. Our key findings include: (1) a relatively homogeneous steppe–tundra flora dominated the Arctic during the Last Glacial Maximum, followed by regional divergence of vegetation during the Holocene epoch; (2) certain grazing animals consistently co-occurred in space and time; (3) humans appear to have been a minor factor in driving animal distributions; (4) higher effective precipitation, as well as an increase in the proportion of wetland plants, show negative effects on animal diversity; (5) the persistence of the steppe–tundra vegetation in northern Siberia enabled the late survival of several now-extinct megafauna species, including the woolly mammoth until 3.9 ± 0.2 thousand years ago (ka) and the woolly rhinoceros until 9.8 ± 0.2 ka; and (6) phylogenetic analysis of mammoth environmental DNA reveals a previously unsampled mitochondrial lineage. Our findings highlight the power of ancient environmental metagenomics analyses to advance understanding of population histories and long-term ecological dynamics.
Suggested Citation
Yucheng Wang & Mikkel Winther Pedersen & Inger Greve Alsos & Bianca Sanctis & Fernando Racimo & Ana Prohaska & Eric Coissac & Hannah Lois Owens & Marie Kristine Føreid Merkel & Antonio Fernandez-Guerr, 2021.
"Late Quaternary dynamics of Arctic biota from ancient environmental genomics,"
Nature, Nature, vol. 600(7887), pages 86-92, December.
Handle:
RePEc:nat:nature:v:600:y:2021:i:7887:d:10.1038_s41586-021-04016-x
DOI: 10.1038/s41586-021-04016-x
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Cited by:
- Pilowsky, Julia A. & Manica, Andrea & Brown, Stuart & Rahbek, Carsten & Fordham, Damien A., 2022.
"Simulations of human migration into North America are more sensitive to demography than choice of palaeoclimate model,"
Ecological Modelling, Elsevier, vol. 473(C).
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