High resolution ancient sedimentary DNA shows that alpine plant diversity is associated with human land use and climate change

The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mamma...

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Published in	Nature communications Vol. 13; no. 1; pp. 6559 - 16
Main Authors	Garcés-Pastor, Sandra, Coissac, Eric, Lavergne, Sébastien, Schwörer, Christoph, Theurillat, Jean-Paul, Heintzman, Peter D., Wangensteen, Owen S., Tinner, Willy, Rey, Fabian, Heer, Martina, Rutzer, Astrid, Walsh, Kevin, Lammers, Youri, Brown, Antony G., Goslar, Tomasz, Rijal, Dilli P., Karger, Dirk N., Pellissier, Loïc, Heiri, Oliver, Alsos, Inger Greve
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 04.11.2022 Nature Publishing Group Springer Nature Nature Portfolio
Subjects	704/106/413 704/158/2165 704/158/2462 704/158/670 Climate Change Coexistence Deforestation Deoxyribonucleic acid DNA DNA, Ancient Flowers & plants Holocene Human impact Human influences Human-environment relationship Humanities and Social Sciences Humans Lakes Land use Life Sciences Livestock Middle Ages Mountain lakes multidisciplinary Plant diversity Plant species Plants (botany) Plants - genetics Pollen Science Science (multidisciplinary) Spores Stone Age Taxa Vegetation Alps Palaeoecology Biodiversity Climate-change ecology Palaeoclimate
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Abstract	The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sed aDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. Here, the authors use sedimentary DNA, pollen, fungal spores, chironomids, and microcharcoal from an alpine lake core to reconstruct vegetation across 12,000 years. They find that vegetation responded to climate in the early Holocene, followed by a shift to human activity from 6000 years onward corresponding with an increase in deforestation and agropastoralism.
AbstractList	The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sed aDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. Here, the authors use sedimentary DNA, pollen, fungal spores, chironomids, and microcharcoal from an alpine lake core to reconstruct vegetation across 12,000 years. They find that vegetation responded to climate in the early Holocene, followed by a shift to human activity from 6000 years onward corresponding with an increase in deforestation and agropastoralism. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sed aDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. Here, the authors use sedimentary DNA, pollen, fungal spores, chironomids, and microcharcoal from an alpine lake core to reconstruct vegetation across 12,000 years. They find that vegetation responded to climate in the early Holocene, followed by a shift to human activity from 6000 years onward corresponding with an increase in deforestation and agropastoralism. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps.Here, the authors use sedimentary DNA, pollen, fungal spores, chironomids, and microcharcoal from an alpine lake core to reconstruct vegetation across 12,000 years. They find that vegetation responded to climate in the early Holocene, followed by a shift to human activity from 6000 years onward corresponding with an increase in deforestation and agropastoralism. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sed aDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps. The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps.The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed vegetation, temperature, human impact and livestock over the past ~12,000 years from Lake Sulsseewli, based on sedimentary ancient plant and mammal DNA, pollen, spores, chironomids, and microcharcoal. We assembled a highly-complete local DNA reference library (PhyloAlps, 3923 plant taxa), and used this to obtain an exceptionally rich sedaDNA record of 366 plant taxa. Vegetation mainly responded to climate during the early Holocene, while human activity had an additional influence on vegetation from 6 ka onwards. Land-use shifted from episodic grazing during the Neolithic and Bronze Age to agropastoralism in the Middle Ages. Associated human deforestation allowed the coexistence of plant species typically found at different elevational belts, leading to levels of plant richness that characterise the current high diversity of this region. Our findings indicate a positive association between low intensity agropastoral activities and precipitation with the maintenance of the unique subalpine and alpine plant diversity of the European Alps.
ArticleNumber	6559
Author	Heintzman, Peter D. Heer, Martina Garcés-Pastor, Sandra Lavergne, Sébastien Wangensteen, Owen S. Alsos, Inger Greve Rijal, Dilli P. Theurillat, Jean-Paul Tinner, Willy Pellissier, Loïc Walsh, Kevin Rey, Fabian Schwörer, Christoph Karger, Dirk N. Brown, Antony G. Lammers, Youri Coissac, Eric Goslar, Tomasz Rutzer, Astrid Heiri, Oliver
Author_xml	– sequence: 1 givenname: Sandra orcidid: 0000-0001-5652-7264 surname: Garcés-Pastor fullname: Garcés-Pastor, Sandra email: sandra.garces-pastor@uit.no organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway – sequence: 2 givenname: Eric orcidid: 0000-0001-7507-6729 surname: Coissac fullname: Coissac, Eric organization: Université Grenoble-Alpes, Université Savoie Mont Blanc, CNRS, LECA – sequence: 3 givenname: Sébastien surname: Lavergne fullname: Lavergne, Sébastien organization: Université Grenoble-Alpes, Université Savoie Mont Blanc, CNRS, LECA – sequence: 4 givenname: Christoph orcidid: 0000-0002-8884-8852 surname: Schwörer fullname: Schwörer, Christoph organization: Palaeoecology, Institute of Plant Sciences & Oeschger Centre for Climate Change Research, University of Bern – sequence: 5 givenname: Jean-Paul orcidid: 0000-0002-1843-5809 surname: Theurillat fullname: Theurillat, Jean-Paul organization: Fondation Aubert, 1938 Champex-Lac, Switzerland, Department of Plant Sciences, University of Geneva – sequence: 6 givenname: Peter D. surname: Heintzman fullname: Heintzman, Peter D. organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway – sequence: 7 givenname: Owen S. orcidid: 0000-0001-5593-348X surname: Wangensteen fullname: Wangensteen, Owen S. organization: Norwegian College of Fishery Science, UiT - The Arctic University of Norway, Department of Evolutionary Biology, Ecology and Environmental Sciences and Biodiversity Research Institute (IRBIO), University of Barcelona – sequence: 8 givenname: Willy surname: Tinner fullname: Tinner, Willy organization: Palaeoecology, Institute of Plant Sciences & Oeschger Centre for Climate Change Research, University of Bern – sequence: 9 givenname: Fabian surname: Rey fullname: Rey, Fabian organization: Department of Environmental Sciences, University of Basel – sequence: 10 givenname: Martina surname: Heer fullname: Heer, Martina organization: Department of Environmental Sciences, University of Basel – sequence: 11 givenname: Astrid surname: Rutzer fullname: Rutzer, Astrid organization: Department of Environmental Sciences, University of Basel – sequence: 12 givenname: Kevin orcidid: 0000-0003-1621-2625 surname: Walsh fullname: Walsh, Kevin organization: Department of Archaeology, University of York – sequence: 13 givenname: Youri orcidid: 0000-0003-0952-2668 surname: Lammers fullname: Lammers, Youri organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway – sequence: 14 givenname: Antony G. surname: Brown fullname: Brown, Antony G. organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway – sequence: 15 givenname: Tomasz orcidid: 0000-0002-1346-3122 surname: Goslar fullname: Goslar, Tomasz organization: Faculty of Geographical and Geological Sciences, Adam Mickiewicz University – sequence: 16 givenname: Dilli P. orcidid: 0000-0002-6194-4414 surname: Rijal fullname: Rijal, Dilli P. organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway – sequence: 17 givenname: Dirk N. orcidid: 0000-0001-7770-6229 surname: Karger fullname: Karger, Dirk N. organization: Swiss Federal Research Institute for Forest, Snow, and Landscape Research (WSL) – sequence: 18 givenname: Loïc orcidid: 0000-0002-2289-8259 surname: Pellissier fullname: Pellissier, Loïc organization: Department of Environmental System Science, Institute of Terrestrial Ecosystems, ETH Zurich, Swiss Federal Research Institute WSL – sequence: 20 givenname: Oliver orcidid: 0000-0002-3957-5835 surname: Heiri fullname: Heiri, Oliver organization: Department of Environmental Sciences, University of Basel – sequence: 21 givenname: Inger Greve orcidid: 0000-0002-8610-1085 surname: Alsos fullname: Alsos, Inger Greve organization: The Arctic University Museum of Norway, UiT - The Arctic University of Norway
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/36333301$$D View this record in MEDLINE/PubMed https://hal.science/hal-04387667$$DView record in HAL
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Contributor	Abdulhak, Sylvain Thuiller, Wilfried Denoeud, France Ronikier, Michał Taberlet, Pierre Wincker, Patrick Legland, Thomas Fort, Noémie Mráz, Patrik Bzeznick, Bruno Villaret, Jean-Charles Salomez, Pierre Aubert, Serge Dentant, Cédric Bonet, Richard Delahaye, Thierry Szatmari, Paul-Marian Perfus, Monique Pouchon, Charles Alberti, Adriana Boleda, Martí Slovák, Marek Roquet, Cristina Orvain, Céline Gielly, Ludovic Garraud, Luc Pache, Gilles Hombiat, Anthony Van Es, Jérémie Leccia, Marie-France Pușcaș, Mihai Eggenberg, Stefan Feichtinger, Linda Rioux, Delphine Huc, Stéphanie Latzin, Sonia Spillmann, John Wüest, Rafael O Michaud, Henri Hurdu, Bogdan-Iuliu Rome, Maxime Zimmermann, Niklaus E Smyčka, Jan Mikolajczak, Alexis Valay, Jean-Gabriel Möhl, Adrian Bonnet, Véronique Noble, Virgile Douzet, Rolland Boyer, Frédéric Šemberová, Kristýna Sanz, Thomas Perrier, Christophe Offerhaus, Benoît
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Keywords	Palaeoecology Biodiversity Climate-change ecology Palaeoclimate
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Snippet	The European Alps are highly rich in species, but their future may be threatened by ongoing changes in human land use and climate. Here, we reconstructed... Here, the authors use sedimentary DNA, pollen, fungal spores, chironomids, and microcharcoal from an alpine lake core to reconstruct vegetation across 12,000...
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SubjectTerms	704/106/413 704/158/2165 704/158/2462 704/158/670 Climate Change Coexistence Deforestation Deoxyribonucleic acid DNA DNA, Ancient Flowers & plants Holocene Human impact Human influences Human-environment relationship Humanities and Social Sciences Humans Lakes Land use Life Sciences Livestock Middle Ages Mountain lakes multidisciplinary Plant diversity Plant species Plants (botany) Plants - genetics Pollen Science Science (multidisciplinary) Spores Stone Age Taxa Vegetation
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Title	High resolution ancient sedimentary DNA shows that alpine plant diversity is associated with human land use and climate change
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