The transitional climate of the late Miocene Arctic; winter-dominated precipitation with high seasonal variability

The late Miocene (11.6-5.3 Ma) was an important transitional period following the greenhouse conditions of the Eocene. In order to gain insight into the Arctic paleoclimate of the time, we performed high-resolution intraring δ13C analyses on fossil wood collected from the late Miocene Khapchansky se...

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Bibliographic Details
Published in:Geology (Boulder) 2017-05, Vol.45 (5), p.447-450
Main Authors: Schubert, Brian A, Jahren, A. Hope, Davydov, Sergei P, Warny, Sophie
Format: Article
Language:English
Subjects:
annual variations
Anthropogenic factors
Arctic precipitation
Arctic region
Arctic sea ice
Asia
atmospheric precipitation
C-13/C-12
carbon
Cenozoic
Climate
climate change
Commonwealth of Independent States
Eocene
fossil wood
Fossils
Geological time
Greenhouses
High resolution
human activity
Ice cover
Interannual variability
isotope ratios
isotopes
Miocene
modern analogs
Neogene
northeastern Siberia
Paleoclimate
paleoclimatology
paleohydrology
Precipitation
Russian Federation
Sea ice
Seasonal variability
Seasonal variation
Seasonal variations
Seasons
Sediments
Siberia
stable isotopes
Stratigraphy
Summer
Summer precipitation
Tertiary
upper Miocene
Variability
Winter
Winter precipitation
Wood
Yakutia Russian Federation
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Summary:The late Miocene (11.6-5.3 Ma) was an important transitional period following the greenhouse conditions of the Eocene. In order to gain insight into the Arctic paleoclimate of the time, we performed high-resolution intraring δ13C analyses on fossil wood collected from the late Miocene Khapchansky sediments of northeastern Siberia (∼69°N). From these data we quantified the ratio of summer to winter precipitation (Ps/Pw) and compared it to current values for the region determined from modern wood samples and instrumental records. We observed much greater frequency of winter-dominated precipitation (Ps/Pw < 1) and much greater variability in Ps/Pw during the Miocene than today. Specifically, years with Ps/Pw < 1 occurred three times more often, and years with at least three times as much precipitation in summer or winter (0.33 < Ps/Pw < 3.0) occurred approximately twice as often during the Miocene than today. We attribute the high interannual variability in precipitation to an inconsistent moisture source associated with the relatively unstable and incomplete ice cover in the Arctic Ocean during the late Miocene. Our result highlights the potential for enhanced variability in Arctic precipitation in response to Arctic sea ice decline caused by anthropogenic, CO2-induced warming.
ISSN:0091-7613
1943-2682
DOI:10.1130/G38746.1