Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present

The tropical Pacific is a significant component of the ocean's climate system and a source of considerable global climate variability, including El Niño. Tightly coupled sea surface and thermocline dynamics influence tropical climate on a variety of spatial and temporal scales. Records of past...

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Main Author:	Ford, Heather
Other Authors:	Ravelo, Ana C
Format:	Other/Unknown Material
Language:	English
Published:	eScholarship, University of California 2013
Subjects:	Paleoclimate science Geochemistry foraminifera SST subsurface temperature Pacific Planktonic foraminifera
Online Access:	https://escholarship.org/uc/item/0s73p7s9

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spelling	ftcdlib:oai:escholarship.org/ark:/13030/qt0s73p7s9 2023-05-15T18:00:50+02:00 Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present Ford, Heather Ravelo, Ana C 2013-01-01 application/pdf https://escholarship.org/uc/item/0s73p7s9 en eng eScholarship, University of California qt0s73p7s9 https://escholarship.org/uc/item/0s73p7s9 public Paleoclimate science Geochemistry foraminifera SST subsurface temperature etd 2013 ftcdlib 2019-12-06T23:53:25Z The tropical Pacific is a significant component of the ocean's climate system and a source of considerable global climate variability, including El Niño. Tightly coupled sea surface and thermocline dynamics influence tropical climate on a variety of spatial and temporal scales. Records of past climate surface and subsurface temperature variability, on long and short times scales, may aid in identifying the radiative and dynamic forcing important to tropical climate during different global climate states. During the Pliocene warm period (3.0-4.3 Ma) and Last Glacial Maximum (LGM, ~0.020 Ma) the global mean state was substantially different and may have influenced the behavior and strength of various processes and mechanisms that determine tropical climate. In this dissertation, I use geochemical techniques, including the novel application of the magnesium-calcite ratio of individual planktonic foraminifera, to investigate the different processes that determine tropical change on different time scales and background climate states.In the first project, I generated stable isotope and minor element records using a subsurface dwelling planktonic foraminifera from a transect of sites across the Pacific cold tongue. Using subsurface temperatures as a proxy for thermocline depth, my records suggest there was a gradual shoaling of the eastern equatorial Pacific thermocline from the early Pliocene to present day. In the second and third projects, I use the minor element ratio of individual surface and subsurface dwelling foraminifera to monitor the SST and subsurface temperature background state, high-resolution variability and radiative and dynamic processes that determine tropical climate. The results suggest the tropical western Pacific has responded primarily to radiative forcing on glacial-interglacial time scales since the early Pliocene. In contrast, the eastern Pacific has responded to changes in dynamic and radiative forcing during the last glacial period, which influenced the background spatial pattern of the cold tongue region. Additionally, changes in individual foraminifera variability suggest a decrease in El Niño Southern Oscillation during the most recent glacial period in comparison to the Holocene. These records show that different scales of variability (i.e. long-term, glacial-interglacial, and seasonal/interannual) may illuminate the processes and mechanisms important to paleoclimate interpretations on various temporal and spatial scales. Other/Unknown Material Planktonic foraminifera University of California: eScholarship Pacific
institution	Open Polar
collection	University of California: eScholarship
op_collection_id	ftcdlib
language	English
topic	Paleoclimate science Geochemistry foraminifera SST subsurface temperature
spellingShingle	Paleoclimate science Geochemistry foraminifera SST subsurface temperature Ford, Heather Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
topic_facet	Paleoclimate science Geochemistry foraminifera SST subsurface temperature
description	The tropical Pacific is a significant component of the ocean's climate system and a source of considerable global climate variability, including El Niño. Tightly coupled sea surface and thermocline dynamics influence tropical climate on a variety of spatial and temporal scales. Records of past climate surface and subsurface temperature variability, on long and short times scales, may aid in identifying the radiative and dynamic forcing important to tropical climate during different global climate states. During the Pliocene warm period (3.0-4.3 Ma) and Last Glacial Maximum (LGM, ~0.020 Ma) the global mean state was substantially different and may have influenced the behavior and strength of various processes and mechanisms that determine tropical climate. In this dissertation, I use geochemical techniques, including the novel application of the magnesium-calcite ratio of individual planktonic foraminifera, to investigate the different processes that determine tropical change on different time scales and background climate states.In the first project, I generated stable isotope and minor element records using a subsurface dwelling planktonic foraminifera from a transect of sites across the Pacific cold tongue. Using subsurface temperatures as a proxy for thermocline depth, my records suggest there was a gradual shoaling of the eastern equatorial Pacific thermocline from the early Pliocene to present day. In the second and third projects, I use the minor element ratio of individual surface and subsurface dwelling foraminifera to monitor the SST and subsurface temperature background state, high-resolution variability and radiative and dynamic processes that determine tropical climate. The results suggest the tropical western Pacific has responded primarily to radiative forcing on glacial-interglacial time scales since the early Pliocene. In contrast, the eastern Pacific has responded to changes in dynamic and radiative forcing during the last glacial period, which influenced the background spatial pattern of the cold tongue region. Additionally, changes in individual foraminifera variability suggest a decrease in El Niño Southern Oscillation during the most recent glacial period in comparison to the Holocene. These records show that different scales of variability (i.e. long-term, glacial-interglacial, and seasonal/interannual) may illuminate the processes and mechanisms important to paleoclimate interpretations on various temporal and spatial scales.
author2	Ravelo, Ana C
format	Other/Unknown Material
author	Ford, Heather
author_facet	Ford, Heather
author_sort	Ford, Heather
title	Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
title_short	Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
title_full	Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
title_fullStr	Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
title_full_unstemmed	Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present
title_sort	evolution of tropical pacific ocean dynamics: surface to subsurface temperature variability from the pliocene to present
publisher	eScholarship, University of California
publishDate	2013
url	https://escholarship.org/uc/item/0s73p7s9
geographic	Pacific
geographic_facet	Pacific
genre	Planktonic foraminifera
genre_facet	Planktonic foraminifera
op_relation	qt0s73p7s9 https://escholarship.org/uc/item/0s73p7s9
op_rights	public
_version_	1766170101221949440

Evolution Of Tropical Pacific Ocean Dynamics: Surface To Subsurface Temperature Variability From The Pliocene To Present

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