Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp
© 2017 Springer-Verlag GmbH Germany, part of Springer Nature Recent global warming is pronounced in high-latitude regions (e.g. northern Asia), and will cause the vegetation to change. Future vegetation trends (e.g. the “arctic greening”) will feed back into atmospheric circulation and the global cl...
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ftneicon:oai:rour.neicon.ru:rour/168392 2023-05-15T14:31:26+02:00 Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp Tian F. Cao X. Dallmeyer A. Lohmann G. Zhang X. Ni J. Andreev A. Anderson P. Lozhkin A. Bezrukova E. Rudaya N. Xu Q. Herzschuh U. 2017 https://openrepository.ru/article?id=168392 unknown Vegetation History and Archaeobotany 1 http://rour.neicon.ru:80/xmlui/bitstream/rour/168392/1/nora.pdf 0939-6314 https://openrepository.ru/article?id=168392 SCOPUS09396314-2017-SID85037628207 China Model-data comparison Northern Asia Permafrost Pollen Siberia Vegetation-climate disequilibrium Article in Press 2017 ftneicon 2020-07-21T11:57:40Z © 2017 Springer-Verlag GmbH Germany, part of Springer Nature Recent global warming is pronounced in high-latitude regions (e.g. northern Asia), and will cause the vegetation to change. Future vegetation trends (e.g. the “arctic greening”) will feed back into atmospheric circulation and the global climate system. Understanding the nature and causes of past vegetation changes is important for predicting the composition and distribution of future vegetation communities. Fossil pollen records from 468 sites in northern and eastern Asia were biomised at selected times between 40 cal ka bp and today. Biomes were also simulated using a climate-driven biome model and results from the two approaches compared in order to help understand the mechanisms behind the observed vegetation changes. The consistent biome results inferred by both approaches reveal that long-term and broad-scale vegetation patterns reflect global- to hemispheric-scale climate changes. Forest biomes increase around the beginning of the late deglaciation, become more widespread during the early and middle Holocene, and decrease in the late Holocene in fringe areas of the Asian Summer Monsoon. At the southern and southwestern margins of the taiga, forest increases in the early Holocene and shows notable species succession, which m ay have been caused by winter warming at ca. 7 cal ka bp. At the northeastern taiga margin (central Yakutia and northeastern Siberia), shrub expansion during the last deglaciation appears to prevent the permafrost from thawing and hinders the northward expansion of evergreen needle-leaved species until ca. 7 cal ka bp. The vegetation-climate disequilibrium during the early Holocene in the taiga-tundra transition zone suggests that projected climate warming will not cause a northward expansion of evergreen needle-leaved species. Other/Unknown Material Arctic Greening Arctic Global warming permafrost taiga Tundra Yakutia Siberia NORA (National aggregator of open repositories of Russian universities) Arctic |
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Open Polar |
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NORA (National aggregator of open repositories of Russian universities) |
op_collection_id |
ftneicon |
language |
unknown |
topic |
China Model-data comparison Northern Asia Permafrost Pollen Siberia Vegetation-climate disequilibrium |
spellingShingle |
China Model-data comparison Northern Asia Permafrost Pollen Siberia Vegetation-climate disequilibrium Tian F. Cao X. Dallmeyer A. Lohmann G. Zhang X. Ni J. Andreev A. Anderson P. Lozhkin A. Bezrukova E. Rudaya N. Xu Q. Herzschuh U. Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
topic_facet |
China Model-data comparison Northern Asia Permafrost Pollen Siberia Vegetation-climate disequilibrium |
description |
© 2017 Springer-Verlag GmbH Germany, part of Springer Nature Recent global warming is pronounced in high-latitude regions (e.g. northern Asia), and will cause the vegetation to change. Future vegetation trends (e.g. the “arctic greening”) will feed back into atmospheric circulation and the global climate system. Understanding the nature and causes of past vegetation changes is important for predicting the composition and distribution of future vegetation communities. Fossil pollen records from 468 sites in northern and eastern Asia were biomised at selected times between 40 cal ka bp and today. Biomes were also simulated using a climate-driven biome model and results from the two approaches compared in order to help understand the mechanisms behind the observed vegetation changes. The consistent biome results inferred by both approaches reveal that long-term and broad-scale vegetation patterns reflect global- to hemispheric-scale climate changes. Forest biomes increase around the beginning of the late deglaciation, become more widespread during the early and middle Holocene, and decrease in the late Holocene in fringe areas of the Asian Summer Monsoon. At the southern and southwestern margins of the taiga, forest increases in the early Holocene and shows notable species succession, which m ay have been caused by winter warming at ca. 7 cal ka bp. At the northeastern taiga margin (central Yakutia and northeastern Siberia), shrub expansion during the last deglaciation appears to prevent the permafrost from thawing and hinders the northward expansion of evergreen needle-leaved species until ca. 7 cal ka bp. The vegetation-climate disequilibrium during the early Holocene in the taiga-tundra transition zone suggests that projected climate warming will not cause a northward expansion of evergreen needle-leaved species. |
format |
Other/Unknown Material |
author |
Tian F. Cao X. Dallmeyer A. Lohmann G. Zhang X. Ni J. Andreev A. Anderson P. Lozhkin A. Bezrukova E. Rudaya N. Xu Q. Herzschuh U. |
author_facet |
Tian F. Cao X. Dallmeyer A. Lohmann G. Zhang X. Ni J. Andreev A. Anderson P. Lozhkin A. Bezrukova E. Rudaya N. Xu Q. Herzschuh U. |
author_sort |
Tian F. |
title |
Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
title_short |
Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
title_full |
Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
title_fullStr |
Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
title_full_unstemmed |
Biome changes and their inferred climatic drivers in northern and eastern continental Asia at selected times since 40 cal ka bp |
title_sort |
biome changes and their inferred climatic drivers in northern and eastern continental asia at selected times since 40 cal ka bp |
publishDate |
2017 |
url |
https://openrepository.ru/article?id=168392 |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic Greening Arctic Global warming permafrost taiga Tundra Yakutia Siberia |
genre_facet |
Arctic Greening Arctic Global warming permafrost taiga Tundra Yakutia Siberia |
op_source |
SCOPUS09396314-2017-SID85037628207 |
op_relation |
Vegetation History and Archaeobotany 1 http://rour.neicon.ru:80/xmlui/bitstream/rour/168392/1/nora.pdf 0939-6314 https://openrepository.ru/article?id=168392 |
_version_ |
1766305064328101888 |