The White Ocean hypothesis: a late Pleistocene Southern Ocean governed by Coccolithophores and driven by phosphorus

Paleoproductivity is a critical component in past ocean biogeochemistry, but accurate reconstructions of productivity are often hindered by limited integration of proxies. Here, we integrate geochemical (phosphorus) and micropaleontological proxies at millennial timescales, revealing that the coccol...

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Bibliographic Details
Published in:Frontiers in Microbiology
Main Authors: Jose Abel Flores, Gabriel Michael Filippelli, Francisco Javier Sierro, Jennifer C. Latimer
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S.A. 2012
Subjects:
Phosphorus
geochemistry
Southern Ocean
Coccolithophores
Paleoecology
Paleoproductivity
Microbiology
QR1-502
Antarctic
The Antarctic
Antarc*
Ice Sheet
South Atlantic Ocean
Online Access:https://doi.org/10.3389/fmicb.2012.00233
https://doaj.org/article/60a57ab1a2154c39bfd8937940ebcf77
Description
Summary:Paleoproductivity is a critical component in past ocean biogeochemistry, but accurate reconstructions of productivity are often hindered by limited integration of proxies. Here, we integrate geochemical (phosphorus) and micropaleontological proxies at millennial timescales, revealing that the coccolithophore record in the Subantarctic zone of the South Atlantic Ocean is driven largely by variations in marine phosphorus availability. A quantitative micropaleontological and geochemical analysis carried out in sediments retrieved from ODP Site 1089 (Subantarctic Zone) reveals that most of the export productivity in this region over the last 0.5 my was due to coccolithophores. Glacial periods were generally intervals of high productivity, with productivity reaching a peak at terminations. Particularly high productivity was observed at Termination V and Termination IV, events that are characterized by high abundance of coccolithophores and maxima in the phosphorus/titanium and strontium/titanium records. We link the increase in productivity both to regional oceanographic phenomena, i.e., the northward displacement of the upwelling cell of the Antarctic divergence when the ice-sheet expanded, and to the increase in the inventory of phosphorus in the ocean due to enhanced transfer of this nutrient from continental margins during glacial lowstands in sea level. The Mid-Brunhes interval stands out from the rest of the record, being dominated by the small and highly-calcified species Gephyrocapsa caribbeanica that provides most of the carbonate in these sediments. This likely represents higher availability of phosphorus in the surface ocean, especially in mesotrophic and oligotrophic zones. Under these condition, some coccolithophore species developed an r-strategy (opportunistic species; growth rate maximized) resulting in the bloom of G. caribbeanica. These seasonal blooms of may have inducedwhite tides similar to those observed today in Emiliania huxleyi.

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