Neoproterozoic Variations in the C-isotopic Composition of Seawater: Stratigraphic and Biogeochemical Implications
The recent proliferation of stratigraphic studies of δ 13 C variation in carbonates and organic C in later Neoproterozoic and basal Cambrian successions (similar to 850-530 Ma) indicates a strong oscillating trend in the C-isotopic composition of surface seawater. Alone, this trend does not adequate...
| Published in: | Precambrian Research |
|---|---|
| Main Authors: | , |
| Language: | English |
| Published: |
Elsevier
1995
|
| Subjects: | |
| Online Access: | http://nrs.harvard.edu/urn-3:HUL.InstRepos:3119536 https://doi.org/10.1016/0301-9268(94)00070-8 |
| Summary: | The recent proliferation of stratigraphic studies of δ 13 C variation in carbonates and organic C in later Neoproterozoic and basal Cambrian successions (similar to 850-530 Ma) indicates a strong oscillating trend in the C-isotopic composition of surface seawater. Alone, this trend does not adequately characterize discrete intervals in Neoproterozoic time. However, integrated with the vectorial signals provided by fossils and Sr-isotopic variations, C isotope chemostratigraphy facilitates the interbasinal correlation of later Neoproterozoic successions. Results of these studies are evaluated in terms of four stratigraphic intervals: (1) the Precambrian/Cambrian boundary, (2) the post-Varanger terminal Proterozoic, (3) the late Cryogenian, and (4) the early Cryogenian. Where biostratigraphic or radiometric data constrain the age of Neoproterozoic sedimentary sequences, secular variations in C and Sr isotopes can provide a level of stratigraphic resolution exceeding that provided by fossils alone. Isotopic data place strong constraints on the chemical evolution of seawater, linking it to major tectonic and paleoclimatic events. They also provide a biogeochemical framework for the understanding of the initial radiation of macroscopic metazoans, which is associated stratigraphically, and perhaps causally, with a global increase in the burial of organic C and a concomitant rise of atmospheric O 2 . Organismic and Evolutionary Biology |
|---|