Last glacial jetting of cold waters through the subtropical convergence zone in the southwest Pacific off eastern New Zealand, and some geological implications
Last glacial jetting of cold waters through the subtropical convergence zone in the southwest Pacific off eastern New Zealand, and some geological implications
Recent evidence suggests that the Subtropical Convergence (STC) zone east of New Zealand shifted little from its modern position along Chatham Rise during the last glaciation, and that offshore surface waters north of the STC zone cooled only slightly. However, at nearshore core site P69 (2195 m depth), 115 km off the east coast of North Island and ca 300 km north of the modern STC zone, planktonic foraminiferal species, transfer function data and stable oxygen and carbon isotope records suggest that surface waters were colder by up to 6°C during the late last glacial period compared to the Holocene, and included a strong upwelling signature. Presently site P69 is bathed by south-flowing subtropical waters in the East Cape Current. The nearshore western end of Chatham Rise supports a major bathymetric depression, the Mernoo Saddle, through which some exchange between northern subtropical and southern subantarctic water presently occurs. It is proposed that as a result of much intensified current flows south of the Rise during the last glaciation, a consequence of more compressed subantarctic water masses, lowered sea level, and an expanded and stronger Westerly Wind system, there was accelerated leakage northwards of both Australasian Subantarctic Water and upwelled Antarctic Intermediate Water over Mernoo Saddle in a modified and intensified Southland Current. The expanded cold water masses displaced the south-flowing warm East Cape Current off southeastern North Island, and offshore divergence was accompanied by wind-assisted upwelling of nutrient-rich waters in the vicinity of P69. A comparable kind of inshore cold water jetting possibly characterised most glacial periods since the latest Miocene, and may account for the occasional occurrence of subantarctic marine fossils in onland late Cenozoic deposits north of the STC zone, rather than invoking wholesale major oscillations of the oceanic STC itself.
NEW ZEALAND WATERS, SUBTROPICAL CONVERGENCE, QUATERNARY, PALAEOCEANOGRAPHY, FORAMINIFERA, UPWELLING
103-121
Nelson, C.S.
996fba73-a9c6-4b02-bcf7-758022388cb1
Hendy, I.L.
a4137a4c-ae58-4461-9fc9-9cbeef030943
Neil, H.L.
a3dde6e4-c8b1-4d23-98e7-4595f75ef010
Hendy, C.H.
477f7bf6-da97-4027-8b9c-5dc891594de9
Weaver, P.P.E.
1ab10035-6132-46aa-8a5c-6fb23a1b8ab4
2000
Nelson, C.S.
996fba73-a9c6-4b02-bcf7-758022388cb1
Hendy, I.L.
a4137a4c-ae58-4461-9fc9-9cbeef030943
Neil, H.L.
a3dde6e4-c8b1-4d23-98e7-4595f75ef010
Hendy, C.H.
477f7bf6-da97-4027-8b9c-5dc891594de9
Weaver, P.P.E.
1ab10035-6132-46aa-8a5c-6fb23a1b8ab4
Nelson, C.S., Hendy, I.L., Neil, H.L., Hendy, C.H. and Weaver, P.P.E.
(2000)
Last glacial jetting of cold waters through the subtropical convergence zone in the southwest Pacific off eastern New Zealand, and some geological implications.
Palaeogeography, Palaeoclimatology, Palaeoecology, 156 (1/2), .
(doi:10.1016/S0031-0182(99)00134-0).
Abstract
Recent evidence suggests that the Subtropical Convergence (STC) zone east of New Zealand shifted little from its modern position along Chatham Rise during the last glaciation, and that offshore surface waters north of the STC zone cooled only slightly. However, at nearshore core site P69 (2195 m depth), 115 km off the east coast of North Island and ca 300 km north of the modern STC zone, planktonic foraminiferal species, transfer function data and stable oxygen and carbon isotope records suggest that surface waters were colder by up to 6°C during the late last glacial period compared to the Holocene, and included a strong upwelling signature. Presently site P69 is bathed by south-flowing subtropical waters in the East Cape Current. The nearshore western end of Chatham Rise supports a major bathymetric depression, the Mernoo Saddle, through which some exchange between northern subtropical and southern subantarctic water presently occurs. It is proposed that as a result of much intensified current flows south of the Rise during the last glaciation, a consequence of more compressed subantarctic water masses, lowered sea level, and an expanded and stronger Westerly Wind system, there was accelerated leakage northwards of both Australasian Subantarctic Water and upwelled Antarctic Intermediate Water over Mernoo Saddle in a modified and intensified Southland Current. The expanded cold water masses displaced the south-flowing warm East Cape Current off southeastern North Island, and offshore divergence was accompanied by wind-assisted upwelling of nutrient-rich waters in the vicinity of P69. A comparable kind of inshore cold water jetting possibly characterised most glacial periods since the latest Miocene, and may account for the occasional occurrence of subantarctic marine fossils in onland late Cenozoic deposits north of the STC zone, rather than invoking wholesale major oscillations of the oceanic STC itself.
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Published date: 2000
Keywords:
NEW ZEALAND WATERS, SUBTROPICAL CONVERGENCE, QUATERNARY, PALAEOCEANOGRAPHY, FORAMINIFERA, UPWELLING
Identifiers
Local EPrints ID: 8783
URI: http://eprints.soton.ac.uk/id/eprint/8783
ISSN: 0031-0182
PURE UUID: 97dd6bd2-6451-48d5-bc18-e49a60ff85fb
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Date deposited: 13 Sep 2004
Last modified: 15 Mar 2024 04:52
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Contributors
Author:
C.S. Nelson
Author:
I.L. Hendy
Author:
H.L. Neil
Author:
C.H. Hendy
Author:
P.P.E. Weaver
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