Hot acidic Late Permian seas stifle life in record time

The end of Permian time (252–251 Ma) hosts the largest mass extinction in Earth history, yet events heralding this global catastrophe remain intensely disputed. We present a chemostratigraphic marker, the 187Re/ 188Os ratio, which soars to unprecedented levels approaching the Permo-Triassic boundary...

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Bibliographic Details
Published in:Earth and planetary science letters 2011-10, Vol.310 (3), p.389-400
Main Authors: Georgiev, Svetoslav, Stein, Holly J., Hannah, Judith L., Bingen, Bernard, Weiss, Hermann M., Piasecki, Stefan
Format: Article
Language:English
Subjects:
anoxia
Boundaries
Earth
Greenland–Norway
Markers
Meteorites
Ocean temperature
Permo-Triassic extinction
Re–Os geochronology
Shale
Shelves
Trace elements
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Summary:The end of Permian time (252–251 Ma) hosts the largest mass extinction in Earth history, yet events heralding this global catastrophe remain intensely disputed. We present a chemostratigraphic marker, the 187Re/ 188Os ratio, which soars to unprecedented levels approaching the Permo-Triassic boundary. These ratios are tied to profound trace element changes and a precise Re–Os time record at 252 Ma preserved in black shales from East Greenland and the mid-Norwegian shelf. Within a 36-meter shale section, an 80-fold increase in Re concentrations (two-fold for Os) signals seawater conditions that became increasingly inhospitable to life. Unwavering initial 187Os/ 188Os ratios of 0.6 preclude mafic volcanism and meteorite impact as the direct cause of Late Permian anoxia. We argue that extraordinarily high 187Re/ 188Os ratios are the hallmark of simultaneously rising ocean temperature and acidity, leading to loss of oxygen and the stifling of life in latest Permian time. ► Shales from Greenland and mid-Norwegian shelf yield precise Late Permian Re–Os ages. ► Dramatic trace element changes upsection capture rapid development of severe anoxia. ► Unwavering initial Os ratios at ~ 0.6 acquit mafic volcanism as the cause of anoxia. ► 187Re/ 188Os ratios soar to unprecedented levels approaching the P–Tr boundary. ► High ocean temperature, acidity and anoxia together stifled Late Permian marine life.
ISSN:0012-821X
1385-013X
DOI:10.1016/j.epsl.2011.08.010