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Lear, Caroline H. et al. (2010): Cenozoic benthic foraminiferal Mg/Ca and Li/Ca records; toward unlocking temperatures and saturation states
Leg/Site/Hole:
Related Expeditions:
ODP 122
DSDP 73
DSDP 73 522
ODP 122 761
Identifier:
ID:
2013-034387
Type:
georefid
ID:
10.1029/2009PA001880
Type:
doi
Creator:
Name:
Lear, Caroline H.
Affiliation:
Cardiff University, School of Earth and Ocean Sciences, Cardiff, United Kingdom
Role:
author
Name:
Mawbey, Elaine M.
Affiliation:
Rutgers-State University of New Jersey, United States
Role:
author
Name:
Rosenthal, Yair
Affiliation:
Role:
author
Identification:
Title:
Cenozoic benthic foraminiferal Mg/Ca and Li/Ca records; toward unlocking temperatures and saturation states
Year:
2010
Source:
Paleoceanography
Publisher:
American Geophysical Union, Washington, DC, United States
Volume:
25
Issue:
4
Pages:
Abstract:
The sensitivities of benthic foraminiferal Mg/Ca and Li/Ca to bottom water temperature and carbonate saturation state have recently been assessed. Here we present a new approach that uses paired Mg/Ca and Li/Ca records to calculate simultaneous changes in temperature and saturation state. Using previously published records, we first use this approach to document a cooling of deep ocean waters associated with the establishment of the Antarctic ice sheet at the Eocene-Oligocene climate transition. We then apply this approach to new records of the Middle Miocene Climate Transition from ODP Site 761 to estimate variations in bottom water temperature and the oxygen isotopic composition of seawater. We estimate that the oxygen isotopic composition of seawater varied by approximately 1ppm between the deglacial extreme of the Miocene Climatic Optimum and the glacial maximum following the Middle Miocene Climate Transition, indicating large amplitude variations in ice volume. However, the longer-term change between 15.3 and 12.5 Ma is marked by a approximately 1 degrees C cooling of deep waters, and an increase in the oxygen isotopic composition of seawater of approximately 0.6ppm. We find that bottom water saturation state increased in the lead up to the Middle Miocene Climate Transition and decreased shortly after. This supports decreasing pCO (sub 2) as a driver for global cooling and ice sheet expansion, in agreement with existing boron isotope and leaf stomatal index CO (sub 2) records but in contrast to the published alkenone CO (sub 2) records.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage:
Geographic coordinates:
North:-16.4413
West:-5.0647
East: 115.3206
South:-26.0651
Keywords:
Stratigraphy; Isotope geochemistry; alkali metals; alkaline earth metals; Angola Basin; Atlantic Ocean; benthic taxa; calcium; carbonates; Cenozoic; chemostratigraphy; cores; Deep Sea Drilling Project; DSDP Site 522; Eocene; Foraminifera; geochemical methods; geochemistry; Indian Ocean; Invertebrata; IPOD; isotope ratios; isotopes; Leg 122; Leg 73; Li/Ca; lithium; lithofacies; magnesium; marine environment; metals; Mg/Ca; microfossils; Miocene; Neogene; O-18/O-16; Ocean Drilling Program; ODP Site 761; Oligocene; oxygen; paleo-oceanography; paleoclimatology; Paleogene; paleotemperature; Protista; saturation; sea water; South Atlantic; stable isotopes; temperature; Tertiary; Wombat Plateau;
.
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