Geochemistry of Eocene/Oligocene sediments of ODP Site 177-1090

The Agulhas Ridge, off the tip of Africa between the Atlantic and Indian Oceans, is ideally located to capture the evolution of Paleogene-early Neogene circulation patterns associated with global cooling. Multiproxy records of productivity (biogenic barium (Baex), opal, CaCO3 mass accumulation rates...

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Bibliographic Details
Main Authors: Anderson, Linda Davis, Delaney, Margaret Lois
Format: Dataset
Language:English
Published: PANGAEA 2005
Subjects:
177-1090B
177-1090D
Accumulation rate
barium
excess
calcium carbonate
opal
phosphorus
AGE
Aluminium
Aluminium/Titanium ratio
Barium excess
Calcium
Depth
composite
sediment/rock
DRILL
Drilling/drill rig
DSDP/ODP/IODP sample designation
Event label
Joides Resolution
Leg177
Manganese
Method comment
Ocean Drilling Program
ODP
detrital
reactive
total
Sample code/label
Silicon dioxide
South Atlantic Ocean
Terrigenous
Titanium
Uranium
Antarc*
Antarctica
Ice Sheet
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.837756
https://doi.org/10.1594/PANGAEA.837756
Description
Summary:The Agulhas Ridge, off the tip of Africa between the Atlantic and Indian Oceans, is ideally located to capture the evolution of Paleogene-early Neogene circulation patterns associated with global cooling. Multiproxy records of productivity (biogenic barium (Baex), opal, CaCO3 mass accumulation rates (MARs)), nutrient and organic carbon burial (reactive phosphorus (Pr) MARs), and redox state of deep waters (U enrichment) from Ocean Drilling Program (ODP) Site 1090 reflect hydrographic shifts in this region between the middle Eocene and early Oligocene (~9–33 Ma). Several peaks in increased export productivity and burial of organic matter occurred within the late Eocene (~36.5, ~34, and ~33.7 Ma), which along with surface hydrologic conditions favoring opaline organisms over calcareous organisms could have aided in the draw down of pCO2 to a threshold level that facilitated large ice sheet development on Antarctica in the earliest Oligocene. Our multiproxy approach illustrates the importance of vertical as well as spatial hydrographic reorganization in amplifying or driving climatic cooling of the middle Eocene to early Oligocene by facilitating increases in the relative or absolute burial of organic carbon.

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