Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates

The Earth's most severe glaciations are thought to have occurred about 600 million years ago, in the late Neoproterozoic era. A puzzling feature of glacial deposits from this interval is that they are overlain by 1–5-m-thick 'cap carbonates' (particulate deep-water marine carbonate ro...

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Bibliographic Details
Main Authors: Jiang, Ganqing, Kennedy, Martin J., Christie-Blick, Nicholas
Format: Article in Journal/Newspaper
Language:English
Published: 2003
Subjects:
Geochemistry
Geology
Paleoclimatology
Methane hydrate
Online Access:https://doi.org/10.7916/D8DB8BZX
id ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8DB8BZX
record_format openpolar
spelling ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/D8DB8BZX 2023-05-15T17:11:51+02:00 Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates Jiang, Ganqing Kennedy, Martin J. Christie-Blick, Nicholas 2003 https://doi.org/10.7916/D8DB8BZX English eng https://doi.org/10.7916/D8DB8BZX Geochemistry Geology Paleoclimatology Articles 2003 ftcolumbiauniv https://doi.org/10.7916/D8DB8BZX 2019-04-04T08:10:00Z The Earth's most severe glaciations are thought to have occurred about 600 million years ago, in the late Neoproterozoic era. A puzzling feature of glacial deposits from this interval is that they are overlain by 1–5-m-thick 'cap carbonates' (particulate deep-water marine carbonate rocks) associated with a prominent negative carbon isotope excursion. Cap carbonates have been controversially ascribed to the aftermath of almost complete shutdown of the ocean ecosystems for millions of years during such ice ages—the 'snowball Earth' hypothesis. Conversely, it has also been suggested that these carbonate rocks were the result of destabilization of methane hydrates during deglaciation and concomitant flooding of continental shelves and interior basins. The most compelling criticism of the latter 'methane hydrate' hypothesis has been the apparent lack of extreme isotopic variation in cap carbonates inferred locally to be associated with methane seeps. Here we report carbon isotopic and petrographic data from a Neoproterozoic postglacial cap carbonate in south China that provide direct evidence for methane-influenced processes during deglaciation. This evidence lends strong support to the hypothesis that methane hydrate destabilization contributed to the enigmatic cap carbonate deposition and strongly negative carbon isotopic anomalies following Neoproterozoic ice ages. This explanation requires less extreme environmental disturbance than that implied by the snowball Earth hypothesis. Article in Journal/Newspaper Methane hydrate Columbia University: Academic Commons
institution Open Polar
collection Columbia University: Academic Commons
op_collection_id ftcolumbiauniv
language English
topic Geochemistry
Geology
Paleoclimatology
spellingShingle Geochemistry
Geology
Paleoclimatology
Jiang, Ganqing
Kennedy, Martin J.
Christie-Blick, Nicholas
Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
topic_facet Geochemistry
Geology
Paleoclimatology
description The Earth's most severe glaciations are thought to have occurred about 600 million years ago, in the late Neoproterozoic era. A puzzling feature of glacial deposits from this interval is that they are overlain by 1–5-m-thick 'cap carbonates' (particulate deep-water marine carbonate rocks) associated with a prominent negative carbon isotope excursion. Cap carbonates have been controversially ascribed to the aftermath of almost complete shutdown of the ocean ecosystems for millions of years during such ice ages—the 'snowball Earth' hypothesis. Conversely, it has also been suggested that these carbonate rocks were the result of destabilization of methane hydrates during deglaciation and concomitant flooding of continental shelves and interior basins. The most compelling criticism of the latter 'methane hydrate' hypothesis has been the apparent lack of extreme isotopic variation in cap carbonates inferred locally to be associated with methane seeps. Here we report carbon isotopic and petrographic data from a Neoproterozoic postglacial cap carbonate in south China that provide direct evidence for methane-influenced processes during deglaciation. This evidence lends strong support to the hypothesis that methane hydrate destabilization contributed to the enigmatic cap carbonate deposition and strongly negative carbon isotopic anomalies following Neoproterozoic ice ages. This explanation requires less extreme environmental disturbance than that implied by the snowball Earth hypothesis.
format Article in Journal/Newspaper
author Jiang, Ganqing
Kennedy, Martin J.
Christie-Blick, Nicholas
author_facet Jiang, Ganqing
Kennedy, Martin J.
Christie-Blick, Nicholas
author_sort Jiang, Ganqing
title Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
title_short Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
title_full Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
title_fullStr Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
title_full_unstemmed Stable Isotopic Evidence for Methane Seeps in Neoproterozoic Postglacial Cap Carbonates
title_sort stable isotopic evidence for methane seeps in neoproterozoic postglacial cap carbonates
publishDate 2003
url https://doi.org/10.7916/D8DB8BZX
genre Methane hydrate
genre_facet Methane hydrate
op_relation https://doi.org/10.7916/D8DB8BZX
op_doi https://doi.org/10.7916/D8DB8BZX
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