Modern aridity in the Altai-Sayan mountain range derived from multiple millennial proxies

Modern aridity in the Altai-Sayan mountain range derived from multiple millennial proxies

Temperature and precipitation changes are crucial for larch trees growing at high-elevation sites covered by permafrost in the Altai-Sayan mountain range (ASMR). To contextualize the amplitude of recent climate fluctuations, we have to look into the past by analyzing millennial paleoclimatic archive...

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Bibliographic Details
Published in:Scientific reports Vol. 12; no. 1; p. 7752
Main Authors: Churakova-Sidorova, Olga V., Myglan, Vladimir S., Fonti, Marina V., Naumova, Oksana V., Kirdyanov, Alexander V., Kalugin, Ivan A., Babich, Valery V., Falster, Georgina M., Vaganov, Eugene A., Siegwolf, Rolf T. W., Saurer, Matthias
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 11-05-2022
Nature Publishing Group
Nature Portfolio
Subjects:
704/106
704/158
704/158/2165
704/158/2455
704/158/2466
704/172
704/242
704/286
704/47
Air temperature
Archives & records
Cellulose
Climate Change
Forests
Humanities and Social Sciences
Larix
multidisciplinary
Permafrost
Precipitation
Science
Science (multidisciplinary)
Summer
Temperature
Trees
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Summary:Temperature and precipitation changes are crucial for larch trees growing at high-elevation sites covered by permafrost in the Altai-Sayan mountain range (ASMR). To contextualize the amplitude of recent climate fluctuations, we have to look into the past by analyzing millennial paleoclimatic archives recording both temperature and precipitation. We developed annually resolved 1500-year tree-ring cellulose chronologies (δ 13 C cell , δ 18 O cell ), and used these new records to reconstruct the variability in local summer precipitation and air temperature. We combined our new local reconstructions with existing paleoclimatic archives available for the Altai. The data show a strong decreasing trend by ca. 49% in regional summer precipitation, along with a regional summer temperature increase towards the twenty-first century, relative to the preceding 1500 years. Modern dry conditions (1966–2016 CE) in the ASMR are the result of simultaneous summer warming and decreased precipitation. Our new reconstructions also demonstrate that climate change in the ASMR is much stronger compared to the global average.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-022-11299-1