Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316

Uniquely in the Southern Hemisphere the New Zealand micro-continent spans the interface between a subtropical gyre and the Subantarctic Circumpolar Current. Its 20° latitudinal extent includes a complex of submerged plateaux, ridges, saddles and basins which, in the present interglacial, are partial...

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Main Authors:	Hayward, Bruce W, Scott, George H, Crundwell, Martin P, Kennett, James P, Carter, Lionel, Neil, Helen L, Sabaa, Ashwaq T, Wilson, Kate, Rodger, J Stuart, Schaefer, Grace, Grenfell, Hugh R, Li, Qianyu
Format:	Article in Journal/Newspaper
Language:	English
Published:	PANGAEA - Data Publisher for Earth & Environmental Science 2008
Subjects:	Composite Core Gravity corer Leg90 Leg181 Glomar Challenger Joides Resolution Deep Sea Drilling Project DSDP Ocean Drilling Program ODP Antarctic Southern Ocean The Antarctic Pacific New Zealand Hayward Kennett Schaefer Rodger Bounty Trough Pukaki Pukaki Saddle Antarc*
Online Access:	https://dx.doi.org/10.1594/pangaea.742595 https://doi.pangaea.de/10.1594/PANGAEA.742595

id	ftdatacite:10.1594/pangaea.742595
record_format	openpolar
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	English
topic	Composite Core Gravity corer Leg90 Leg181 Glomar Challenger Joides Resolution Deep Sea Drilling Project DSDP Ocean Drilling Program ODP
spellingShingle	Composite Core Gravity corer Leg90 Leg181 Glomar Challenger Joides Resolution Deep Sea Drilling Project DSDP Ocean Drilling Program ODP Hayward, Bruce W Scott, George H Crundwell, Martin P Kennett, James P Carter, Lionel Neil, Helen L Sabaa, Ashwaq T Wilson, Kate Rodger, J Stuart Schaefer, Grace Grenfell, Hugh R Li, Qianyu Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
topic_facet	Composite Core Gravity corer Leg90 Leg181 Glomar Challenger Joides Resolution Deep Sea Drilling Project DSDP Ocean Drilling Program ODP
description	Uniquely in the Southern Hemisphere the New Zealand micro-continent spans the interface between a subtropical gyre and the Subantarctic Circumpolar Current. Its 20° latitudinal extent includes a complex of submerged plateaux, ridges, saddles and basins which, in the present interglacial, are partial barriers to circulation and steer the Subtropical (STF) and Subantarctic (SAF) fronts. This configuration offers a singular opportunity to assess the influence of bottom topography on oceanic circulation through Pleistocene glacial - interglacial (G/I) cycles, its effect on the location and strength of the fronts, and its ability to generate significant differences in mixed layer thermal history over short distances.For this study we use new planktic foraminiferal based sea-surface temperature (SST) estimates spanning the past 1 million years from a latitudinal transect of four deep ocean drilling sites. We conclude that: 1. the effect of the New Zealand landmass was to deflect the water masses south around the bathymetric impediments; 2. the effect of a shallow submerged ridge on the down-current side (Chatham Rise), was to dynamically trap the STF along its crest, in stark contrast to the usual glacial-interglacial (G-I) meridional migration that occurs in the open ocean; 3. the effect of more deeply submerged, downstream plateaux (Campbell, Bounty) was to dynamically trap the SAF along its steep southeastern margin; 4. the effects of saddles across the submarine plateaux was to facilitate the development of jets of subtropical and subantarctic surface water through the fronts, forming localized downstream gyres or eddies during different phases in the G-I climate cycles; 5. the deep Pukaki Saddle across the Campbell-Bounty Plateaux guided a branch of the SAF to flow northwards during each glacial, to form a strong gyre of circumpolar surface water in the Bounty Trough, especially during the mid-Pleistocene Climate Transition (MIS 22-16) when exceptionally high SST gradients existed across the STF; 6. the shallower Mernoo Saddle, at the western end of the Chatham Rise, provided a conduit for subtropical water to jet southwards across the STF in the warmest interglacial peaks (MIS 11, 5.5) and for subantarctic water to flow northwards during glacials; 7. although subtropical or subantarctic drivers can prevail at a particular phase of a G-I cycles, it appears that the Antarctic Circumpolar Current is the main influence on the regional hydrography.Thus complex submarine topography can affect distinct differences in the climate records over short distances with implications for using such records in interpreting global or regional trends. Conversely, the local topography can amplify the paleoclimate record in different ways in different places, thus enhancing its value for the study of more minor paleoceanographic influences that elsewhere are more difficult to detect. Such sites include DSDP 594, which like some other Southern Ocean sites, has the typical late Pleistocene asymmetrical saw-tooth G-I climate pattern transformed to a gap-tooth pattern of quasi-symmetrical interglacial spikes that interrupt extended periods of minimum glacial temperatures.
format	Article in Journal/Newspaper
author	Hayward, Bruce W Scott, George H Crundwell, Martin P Kennett, James P Carter, Lionel Neil, Helen L Sabaa, Ashwaq T Wilson, Kate Rodger, J Stuart Schaefer, Grace Grenfell, Hugh R Li, Qianyu
author_facet	Hayward, Bruce W Scott, George H Crundwell, Martin P Kennett, James P Carter, Lionel Neil, Helen L Sabaa, Ashwaq T Wilson, Kate Rodger, J Stuart Schaefer, Grace Grenfell, Hugh R Li, Qianyu
author_sort	Hayward, Bruce W
title	Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
title_short	Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
title_full	Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
title_fullStr	Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
title_full_unstemmed	Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316
title_sort	sea-surface temperature reconstruction in the southwest pacific, supplement to: hayward, bruce w; scott, george h; crundwell, martin p; kennett, james p; carter, lionel; neil, helen l; sabaa, ashwaq t; wilson, kate; rodger, j stuart; schaefer, grace; grenfell, hugh r; li, qianyu (2008): the effect of submerged plateaux on pleistocene gyral circulation and sea-surface temperatures in the southwest pacific. global and planetary change, 63(4), 309-316
publisher	PANGAEA - Data Publisher for Earth & Environmental Science
publishDate	2008
url	https://dx.doi.org/10.1594/pangaea.742595 https://doi.pangaea.de/10.1594/PANGAEA.742595
long_lat	ENVELOPE(167.350,167.350,-78.117,-78.117) ENVELOPE(-65.167,-65.167,-67.117,-67.117) ENVELOPE(166.383,166.383,-71.367,-71.367) ENVELOPE(-83.567,-83.567,-79.700,-79.700) ENVELOPE(178.070,178.070,-45.499,-45.499) ENVELOPE(162.100,162.100,-82.817,-82.817) ENVELOPE(176.333,176.333,-48.500,-48.500)
geographic	Antarctic Southern Ocean The Antarctic Pacific New Zealand Hayward Kennett Schaefer Rodger Bounty Trough Pukaki Pukaki Saddle
geographic_facet	Antarctic Southern Ocean The Antarctic Pacific New Zealand Hayward Kennett Schaefer Rodger Bounty Trough Pukaki Pukaki Saddle
genre	Antarc* Antarctic Southern Ocean
genre_facet	Antarc* Antarctic Southern Ocean
op_relation	https://dx.doi.org/10.1016/j.gloplacha.2008.07.003 https://dx.doi.org/10.1016/j.marmicro.2004.12.001 https://dx.doi.org/10.1029/97pa02982 https://dx.doi.org/10.1016/s0377-8398(97)00025-x https://dx.doi.org/10.1029/2004pa001080
op_rights	Creative Commons Attribution 3.0 Unported https://creativecommons.org/licenses/by/3.0/legalcode cc-by-3.0
op_rightsnorm	CC-BY
op_doi	https://doi.org/10.1594/pangaea.742595 https://doi.org/10.1016/j.gloplacha.2008.07.003 https://doi.org/10.1016/j.marmicro.2004.12.001 https://doi.org/10.1029/97pa02982 https://doi.org/10.1016/s0377-8398(97)00025-x https://doi.org/10.1029/2004pa0
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spelling	ftdatacite:10.1594/pangaea.742595 2023-05-15T13:47:07+02:00 Sea-surface temperature reconstruction in the Southwest Pacific, supplement to: Hayward, Bruce W; Scott, George H; Crundwell, Martin P; Kennett, James P; Carter, Lionel; Neil, Helen L; Sabaa, Ashwaq T; Wilson, Kate; Rodger, J Stuart; Schaefer, Grace; Grenfell, Hugh R; Li, Qianyu (2008): The effect of submerged plateaux on Pleistocene gyral circulation and sea-surface temperatures in the Southwest Pacific. Global and Planetary Change, 63(4), 309-316 Hayward, Bruce W Scott, George H Crundwell, Martin P Kennett, James P Carter, Lionel Neil, Helen L Sabaa, Ashwaq T Wilson, Kate Rodger, J Stuart Schaefer, Grace Grenfell, Hugh R Li, Qianyu 2008 application/zip https://dx.doi.org/10.1594/pangaea.742595 https://doi.pangaea.de/10.1594/PANGAEA.742595 en eng PANGAEA - Data Publisher for Earth & Environmental Science https://dx.doi.org/10.1016/j.gloplacha.2008.07.003 https://dx.doi.org/10.1016/j.marmicro.2004.12.001 https://dx.doi.org/10.1029/97pa02982 https://dx.doi.org/10.1016/s0377-8398(97)00025-x https://dx.doi.org/10.1029/2004pa001080 Creative Commons Attribution 3.0 Unported https://creativecommons.org/licenses/by/3.0/legalcode cc-by-3.0 CC-BY Composite Core Gravity corer Leg90 Leg181 Glomar Challenger Joides Resolution Deep Sea Drilling Project DSDP Ocean Drilling Program ODP article Supplementary Collection of Datasets Collection 2008 ftdatacite https://doi.org/10.1594/pangaea.742595 https://doi.org/10.1016/j.gloplacha.2008.07.003 https://doi.org/10.1016/j.marmicro.2004.12.001 https://doi.org/10.1029/97pa02982 https://doi.org/10.1016/s0377-8398(97)00025-x https://doi.org/10.1029/2004pa0 2022-02-09T12:07:01Z Uniquely in the Southern Hemisphere the New Zealand micro-continent spans the interface between a subtropical gyre and the Subantarctic Circumpolar Current. Its 20° latitudinal extent includes a complex of submerged plateaux, ridges, saddles and basins which, in the present interglacial, are partial barriers to circulation and steer the Subtropical (STF) and Subantarctic (SAF) fronts. This configuration offers a singular opportunity to assess the influence of bottom topography on oceanic circulation through Pleistocene glacial - interglacial (G/I) cycles, its effect on the location and strength of the fronts, and its ability to generate significant differences in mixed layer thermal history over short distances.For this study we use new planktic foraminiferal based sea-surface temperature (SST) estimates spanning the past 1 million years from a latitudinal transect of four deep ocean drilling sites. We conclude that: 1. the effect of the New Zealand landmass was to deflect the water masses south around the bathymetric impediments; 2. the effect of a shallow submerged ridge on the down-current side (Chatham Rise), was to dynamically trap the STF along its crest, in stark contrast to the usual glacial-interglacial (G-I) meridional migration that occurs in the open ocean; 3. the effect of more deeply submerged, downstream plateaux (Campbell, Bounty) was to dynamically trap the SAF along its steep southeastern margin; 4. the effects of saddles across the submarine plateaux was to facilitate the development of jets of subtropical and subantarctic surface water through the fronts, forming localized downstream gyres or eddies during different phases in the G-I climate cycles; 5. the deep Pukaki Saddle across the Campbell-Bounty Plateaux guided a branch of the SAF to flow northwards during each glacial, to form a strong gyre of circumpolar surface water in the Bounty Trough, especially during the mid-Pleistocene Climate Transition (MIS 22-16) when exceptionally high SST gradients existed across the STF; 6. the shallower Mernoo Saddle, at the western end of the Chatham Rise, provided a conduit for subtropical water to jet southwards across the STF in the warmest interglacial peaks (MIS 11, 5.5) and for subantarctic water to flow northwards during glacials; 7. although subtropical or subantarctic drivers can prevail at a particular phase of a G-I cycles, it appears that the Antarctic Circumpolar Current is the main influence on the regional hydrography.Thus complex submarine topography can affect distinct differences in the climate records over short distances with implications for using such records in interpreting global or regional trends. Conversely, the local topography can amplify the paleoclimate record in different ways in different places, thus enhancing its value for the study of more minor paleoceanographic influences that elsewhere are more difficult to detect. Such sites include DSDP 594, which like some other Southern Ocean sites, has the typical late Pleistocene asymmetrical saw-tooth G-I climate pattern transformed to a gap-tooth pattern of quasi-symmetrical interglacial spikes that interrupt extended periods of minimum glacial temperatures. Article in Journal/Newspaper Antarc* Antarctic Southern Ocean DataCite Metadata Store (German National Library of Science and Technology) Antarctic Southern Ocean The Antarctic Pacific New Zealand Hayward ENVELOPE(167.350,167.350,-78.117,-78.117) Kennett ENVELOPE(-65.167,-65.167,-67.117,-67.117) Schaefer ENVELOPE(166.383,166.383,-71.367,-71.367) Rodger ENVELOPE(-83.567,-83.567,-79.700,-79.700) Bounty Trough ENVELOPE(178.070,178.070,-45.499,-45.499) Pukaki ENVELOPE(162.100,162.100,-82.817,-82.817) Pukaki Saddle ENVELOPE(176.333,176.333,-48.500,-48.500)

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