Benthic and planktic foraminiferal Mg/Ca, Ba/Ca and local seawater d18O estimates

During the middle Miocene, Earth's climate changed from a global warm period (Miocene Climatic Optimum) into a colder one with the expansion of the Antarctic ice sheet. This prominent climate transition was also a period of drastic changes in global atmospheric circulation. The development of t...

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Bibliographic Details
Main Authors: Yang, Xueping, Groeneveld, Jeroen, Jian, Zhimin, Steinke, Stephan, Giosan, Liviu
Format: Dataset
Language:English
Published: PANGAEA 2020
Subjects:
adjusted
AGE
Calculated from Mg/Ca ratios (Anand et al.
2003)
CDRILL
Core drilling
DEPTH
sediment/rock
Foraminifera
benthic
benthic δ18O
Fragmentation index
planktic foraminifera
ICP-MS (Thermo X7)
Mass spectrometer
Finnigan
MAT253
connected with Automatic carbonate preparation line
Kiel III
NGHP-01-01A
Sea surface temperature
Trilobatus sacculifer
Barium/Calcium ratio
Manganese/Calcium ratio
δ18O
seawater
reconstructed
Antarctic
Southern Ocean
The Antarctic
Antarc*
Ice Sheet
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.910403
https://doi.org/10.1594/PANGAEA.910403
Description
Summary:During the middle Miocene, Earth's climate changed from a global warm period (Miocene Climatic Optimum) into a colder one with the expansion of the Antarctic ice sheet. This prominent climate transition was also a period of drastic changes in global atmospheric circulation. The development of the South Asian Monsoon (SAM) is not well understood and mainly derived from proxy records of wind strength. Proxy records for middle Miocene changes in rainfall are virtually non-existent for India and the Arabian Sea prior to 11 Ma. This study presents planktic foraminiferal trace element (Mg/Ca and Ba/Ca) and stable oxygen isotope records from NGHP-01 Site 01A off the coast of West India in the Eastern Arabian Sea (EAS) to reconstruct the regional surface hydrography and hydroclimate in the SAM region during the middle Miocene. The Ba/Ca and local seawater d18O (d18Osw) changes reveal a notable gradual increase in SAM rainfall intensity during the middle Miocene. Additionally to this long term increase in precipitation, the seawater δ18O is punctuated by a prominent decrease, i.e. freshening, at ~14 Ma contemporary with Antarctic glaciation. This suggests that Southern Ocean Intermediate Waters (SOIW) transmitted Antarctic salinity changes into the Arabian Sea via an “oceanic tunnel” mechanism. The middle Miocene increase in SAM rainfall is consistent with climate model simulations of an overall strengthening Asian monsoon from the Eocene to the middle/late Miocene with a further acceleration after the Middle Miocene climate transition.

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