Recent atmospheric drying in Siberia is not unprecedented over the last 1,500 years

Newly developed millennial δ 13 C larch tree-ring chronology from Siberia allows reconstruction of summer (July) vapor pressure deficit (VPD) changes in a temperature-limited environment. VPD increased recently, but does not yet exceed the maximum values reconstructed during the Medieval Warm Anomal...

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Bibliographic Details
Published in:Scientific reports 2020-09, Vol.10 (1), p.15024-15024, Article 15024
Main Authors: Churakova Sidorova, O. V., Corona, C., Fonti, M. V., Guillet, S., Saurer, M., Siegwolf, R. T. W., Stoffel, M., Vaganov, E. A.
Format: Article
Language:English
Subjects:
704/106
704/158
704/172
Air temperature
Biocompatibility
Biodegradability
Biodegradation
Bone growth
Calcium phosphates
Drought
Evapotranspiration
Forest ecosystems
Humanities and Social Sciences
Hydrogen peroxide
Hydrology
Ice ages
Ions
Magnesium
multidisciplinary
Osteoblastogenesis
Osteoclastogenesis
Osteogenesis
Oxidation
Permafrost
Phosphate
Science
Science (multidisciplinary)
Terrestrial ecosystems
Tibia
Vapor pressure
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Summary:Newly developed millennial δ 13 C larch tree-ring chronology from Siberia allows reconstruction of summer (July) vapor pressure deficit (VPD) changes in a temperature-limited environment. VPD increased recently, but does not yet exceed the maximum values reconstructed during the Medieval Warm Anomaly. The most humid conditions in the Siberian North were recorded in the Early Medieval Period and during the Little Ice Age. Increasing VPD under elevated air temperature affects the hydrology of these sensitive ecosystems by greater evapotranspiration rates. Further VPD increases will significantly affect Siberian forests most likely leading to drought and forest mortality even under additional access of thawed permafrost water. Adaptation strategies are needed for Siberian forest ecosystems to protect them in a warming world.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-71656-w