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McCave, I. N. et al. (2008): Glacial-interglacial changes in water mass structure and flow in the SW Pacific Ocean
Leg/Site/Hole:
Related Expeditions:
ODP 181
DSDP 90
DSDP 90 594
ODP 181 1123
Identifier:
ID:
2011-014276
Type:
georefid
ID:
10.1016/j.quascirev.2008.07.010
Type:
doi
Creator:
Name:
McCave, I. N.
Affiliation:
University of Cambridge, Godwin Laboratory for Paleoclimate Research, Cambridge, United Kingdom
Role:
author
Name:
Carter, L.
Affiliation:
Victoria University of Wellington, New Zealand
Role:
author
Name:
Hall, I. R.
Affiliation:
Cardiff University, United Kingdom
Role:
author
Identification:
Title:
Glacial-interglacial changes in water mass structure and flow in the SW Pacific Ocean
Year:
2008
Source:
Quaternary Science Reviews
Publisher:
Elsevier, International
Volume:
27
Issue:
19-20
Pages:
1886-1908
Abstract:
Eight- to ten-point depth profiles (from 1200 to 4800 m water depth) of oxygen and carbon isotopic values derived from benthic foraminifera, averaged over selected times in the past 160 ka, are presented. The data are from 10 sediment cores off eastern New Zealand, mainly North Chatham Rise. This lies under the Deep Western Boundary Current in the Southwest Pacific and is the main point of entry for several water masses into the Pacific Ocean. The benthic isotopic profiles are related to the structure of water masses at present and inferred for the past. These have retained a constant structure of Lower Circumpolar Deep Water-Upper Circumpolar Deep Water/North Pacific Deep Water-Antarctic Intermediate Water with no apparent changes in the depths of water mass boundaries between glacial and interglacial states. Sortable silt particle size data for four cores are also examined to show that the vigour of the inflow to the Pacific, while variable, appears to have remained fairly constant on average. Among the lowest Last Glacial Maximum values of benthic delta (super 13) C in the world ocean (-1.03 ppm based on Cibicidoides wullerstorfi) occurs here at approximately 2200 m. Comparable values occur in the Atlantic sector of the Southern Ocean, while those from the rest of the Pacific are distinctly higher, confirming that the Southern Ocean was the source for the unventilated/nutrient-enriched water seen here. Oxygen and carbon isotopic data are compatible with a glacial cold deep water mass of high salinity, but lower nutrient content (or better ventilated), below approximately 3500 m depth. This contrasts with the South Atlantic where unventilated/nutrient-enriched water extends all the way to the sea bed. Comparison with previous studies also suggests that the deeper reaches of the Antarctic Circumpolar Current below approximately 3500 m are not homogeneous all around the Southern Ocean, with the Kerguelen Plateau and/or the Macquarie-Balleny Ridges posing barriers to the eastward spread of the deepest low-delta (super 13) C water out of the South Atlantic in glacials. These barriers, combined with inferred high density of bottom waters, restricted inter-basin exchange and allow three glacial domains dominated by bottom waters from Weddell Sea, Adelie Coast and Ross Sea to be defined. We suggest that the Ross Sea was the main source of the deep water entering the Pacific below approximately 3500 m. Abstract Copyright (2008) Elsevier, B.V.
Language:
English
Genre:
Serial
Rights:
URL:
Coverage:
Geographic coordinates:
North:-41.4710
West:-171.2956
East: 174.5653
South:-78.3000
Keywords:
Quaternary geology; accelerator mass spectra; bottom water; C-13/C-12; C-14; carbon; Cenozoic; cores; Deep Sea Drilling Project; deep-water environment; DSDP Site 594; Foraminifera; glacial environment; grain size; interglacial environment; Invertebrata; IPOD; isotope ratios; isotopes; Kerguelen Plateau; last glacial maximum; Leg 181; Leg 90; marine sediments; mass spectra; microfossils; O-18/O-16; Ocean Drilling Program; ODP Site 1123; oxygen; Pacific Ocean; paleo-oceanography; paleocirculation; paleocurrents; paleoenvironment; Protista; Quaternary; radioactive isotopes; Ross Sea; sediments; Southern Ocean; spectra; stable isotopes; upper Quaternary; water masses; Weddell Sea;
.
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