Open AccessAn end to the “rain ratio” reign?
Author(s) -
Ridgwell Andy J.
Publication year - 2003
Publication title -
geochemistry, geophysics, geosystems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.928
H-Index - 136
ISSN - 1525-2027
DOI - 10.1029/2003gc000512
Subject(s) - geology , carbonate , carbon dioxide in earth's atmosphere , calcium carbonate , oceanography , deep sea , sedimentary rock , total organic carbon , interglacial , quaternary , carbon cycle , ecosystem , mineralogy , geochemistry , paleontology , climate change , environmental chemistry , ecology , chemistry , organic chemistry , biology
One of the most elegant mechanisms forwarded for late Quaternary atmospheric CO 2 variability concerns the sensitivity of calcium carbonate preservation in deep ocean sediments to the relative delivery rates of calcium carbonate and particulate organic carbon (the CaCO 3 :POC “rain ratio”). It was implicitly assumed that any change in the CaCO 3 :POC rain ratio of biogenic material produced in the surface ocean will be communicated directly to the sediments. This would allow relatively subtle shifts in ecosystem composition to affect sedimentary CaCO 3 preservation (and thus atmospheric CO 2 ). However, recent research into the controls on the transport of POC to depth suggests that the rain ratio “seen” by the sediments may instead be buffered against any perturbation occurring at the surface. This casts doubt on the viability of hypotheses envisaging ecological changes as a means of accounting for the observed glacial‐interglacial CO 2 signal.