Open AccessExposure-age data from across Antarctica reveal mid-Miocene establishment of polar desert climate
Author(s) -
Perry Spector,
Greg Balco
Publication year - 2020
Publication title -
geology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.609
H-Index - 215
eISSN - 1943-2682
pISSN - 0091-7613
DOI - 10.1130/g47783.1
Subject(s) - geology , weathering , cosmogenic nuclide , erosion , denudation , biota , neogene , late miocene , physical geography , climate change , paleoclimatology , elevation (ballistics) , earth science , paleontology , oceanography , structural basin , tectonics , geometry , mathematics , ecology , physics , cosmic ray , biology , astrophysics , geography
High-elevation rock surfaces in Antarctica have some of the oldest cosmogenic-nuclide exposure ages on Earth, dating back to the Miocene. A compilation of all available 3He, 10Be, and 21Ne exposure-age data from the Antarctic continent shows that exposure histories recorded by these surfaces extend back to, but not before, the mid-Miocene cooling at 14–15 Ma. At high elevation, this cooling entailed a transition between a climate in which liquid water and biota were present and could contribute to surface weathering and erosion, and a polar desert climate in which virtually all weathering and erosion processes had been shut off. This climate appears to have continued uninterrupted between the mid-Miocene and the present.
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