What Do Paleo-Geochemical Tracers Tell Us About the Deep Ocean Circulation During the Last Ice Age?

Paleo-tracers such as carbon 13 and cadmium show that the deep Atlantic was enriched in nutrients during the Last Ice Age. The conventionally accepted interpretation of these higher nutrient levels is that a reduction of the rate of formation of nutrient-depleted Lower North Atlantic Deep Water (Low...

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Bibliographic Details
Main Author: LeGrand, Pascal
Other Authors: MASSACHUSETTS INST OF TECH CAMBRIDGE
Format: Text
Language:English
Published: 1994
Subjects:
Physical and Dynamic Oceanography
Geology
Geochemistry and Mineralogy
Snow
Ice and Permafrost
*OCEAN CURRENTS
*NORTH ATLANTIC OCEAN
*DEEP OCEANS
*PALEONTOLOGY
MATHEMATICAL MODELS
ALGORITHMS
COMPUTERIZED SIMULATION
THESES
VORTICES
NUTRIENTS
OXYGEN
MARINE ATMOSPHERES
OCEANOGRAPHIC DATA
LEAST SQUARES METHOD
CLIMATE
CADMIUM
SALINITY
AIR WATER INTERACTIONS
OCEAN MODELS
WATER MASSES
GEOCHEMISTRY
OCEAN BOTTOM
WATER DISTRIBUTION
SEA ICE
ANTARCTIC REGIONS
GLACIERS
GLACIAL GEOLOGY
TRACER STUDIES
RADIOCARBON DATING
SOUTH ATLANTIC OCEAN
Antarctic
Antarc*
Ice
NADW
North Atlantic Deep Water
North Atlantic
permafrost
Sea ice
South Atlantic Ocean
Online Access:http://www.dtic.mil/docs/citations/ADA298636
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA298636
Description
Summary:Paleo-tracers such as carbon 13 and cadmium show that the deep Atlantic was enriched in nutrients during the Last Ice Age. The conventionally accepted interpretation of these higher nutrient levels is that a reduction of the rate of formation of nutrient-depleted Lower North Atlantic Deep Water (Lower NADW) allowed nutrient-rich Antarctic Bottom Water (AABW) to push further north during the Last Glacial Maximum (LGM) (Boyle and Keigwin, 1982; 1987; Duplessy et al., 1988). The evidence for this interpretation is re-examined in this work, with an emphasis on the quantitative analysis of the paleodata An end-member analysis of the 813C data indicates a larger volume of AABW and a smaller volume of Lower NADW during the LOM. It is not yet possible, however, to quantify the extent of the volume differences between the modem and the glacial distributions, because the LGM omega(13)C end-members are poorly known. The second issue examined in this thesis deals with the interpretation of the water mass distribution, inferred from paleo-tracers, in terms of the oceanic circulation. Using a dynamical inverse model of the North Atlantic and a kinematic inverse model of the South Atlantic, it is shown that a tracer distribution corresponding to a significantly reduced volume of Lower NADW does not necessarily correspond to a reduced flux of NADW. Indeed, a circulation almost identical to a modem ocean reference circulation is consistent with the available LGM 813C and 818Q data. (AN)

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