Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record

The presence of multiple physical mechanisms at play throughout the Late Pleistocene makes it difficult to confidently attribute climate variability to particular forcings. The tropical Pacific's role in past climate change is especially ambiguous because most tropical records lack the resoluti...

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Bibliographic Details
Main Authors: SA, Carolin, K, Cobb, JF, Adkins, B, Clark, S, Lejau, J, Lynch-Stieglitz, J, Malang, AA, Tuen
Format: Article in Journal/Newspaper
Language:unknown
Published: American Geophysical Union 2013
Subjects:
G Geography (General)
GE Environmental Sciences
Pacific
Medina
Sunda
Ice Sheet
Online Access:http://ir.unimas.my/7127/
http://adsabs.harvard.edu/abs/2013AGUFMPP31E.05C
id ftunivmsarawak:oai:ir.unimas.my:7127
record_format openpolar
spelling ftunivmsarawak:oai:ir.unimas.my:7127 2023-05-15T16:41:39+02:00 Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record SA, Carolin K, Cobb JF, Adkins B, Clark S, Lejau, J, Lynch-Stieglitz J, Malang AA, Tuen 2013 http://ir.unimas.my/7127/ http://adsabs.harvard.edu/abs/2013AGUFMPP31E.05C unknown American Geophysical Union SA, Carolin and K, Cobb and JF, Adkins and B, Clark and S, Lejau, and S, Lejau, and J, Lynch-Stieglitz and J, Malang and AA, Tuen (2013) Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record. AGU Fall Meeting Abstracts, 1. p. 5. G Geography (General) GE Environmental Sciences Article PeerReviewed 2013 ftunivmsarawak 2017-06-15T09:16:41Z The presence of multiple physical mechanisms at play throughout the Late Pleistocene makes it difficult to confidently attribute climate variability to particular forcings. The tropical Pacific's role in past climate change is especially ambiguous because most tropical records lack the resolution, length, and chronological control to completely resolve rapid variability - including abrupt climate change events, ice age terminations, and sea level shifts - against a background of orbital-scale variations. Stalagmites from Gunung Mulu, located in northern Borneo, allow for the construction of reproducible centennial-scale records of hydrologic variability that are precisely-dated and continuous throughout most of the late Pleistocene. Comparison of such records to other regional and global paleorecords as well as relevant simulations from numerical climate models provide valuable insights into the mechanisms responsible for western tropical Pacific hydroclimate variability on centennial to multi-millennial scales. Here we present a large compilation of overlapping U/Th-dated Gunung Mulu stalagmite delta18O records spanning the last 160ky. The composite records demonstrate the complex response of northern Borneo convection to both high-latitude and low-latitude forcings and external insolation. The ice-volume-corrected Borneo delta18O records show little correspondence between regional convective activity and either global sea level shifts (e.g. 1) or Sunda Shelf areal exposure. This result stands in marked contrast to a recently published Last Glacial Maximum (LGM) data-model synthesis that implicates sea level as a dominant driver of tropical Indo-Pacific hydroclimate variability (2). Alternatively, when precessional signals are not muted, the composite Borneo delta18O record varies in phase with equatorial fall insolation, suggesting that precessional forcing is the dominant cause of tropical western Pacific hydroclimate variability on orbital timescales. This is best illustrated across Termination II, when the oscillation of equatorial fall insolation is large and out of phase with ice sheet decay (e.g. 3). During this transition, Borneo stalagmite delta18O begins a shift to more negative delta18O values at 128.8 × 0.9 kybp, almost directly overlapping the equatorial fall insolation cycle. The muted response of tropical western Pacific hydrology to global temperature change and sea level rise relative to precessional insolation represents an important observational constraint on the sequence of climate feedbacks responsible for glacial terminations. 1. M. Medina-Elizalde. Earth Planet. Sci. Lett. 362, 310 (Jan, 2013). 2. P. N. DiNezio, J. E. Tierney. Nature Geoscience 6, 485 (Jun, 2013). 3. A. L. Thomas et al. Science 324, 1186 (May, 2009). Article in Journal/Newspaper Ice Sheet Universiti Malaysia Sarawak: UNIMAS Institutional Repository Pacific Medina ENVELOPE(-66.233,-66.233,-68.453,-68.453) Sunda ENVELOPE(-6.982,-6.982,62.205,62.205)
institution Open Polar
collection Universiti Malaysia Sarawak: UNIMAS Institutional Repository
op_collection_id ftunivmsarawak
language unknown
topic G Geography (General)
GE Environmental Sciences
spellingShingle G Geography (General)
GE Environmental Sciences
SA, Carolin
K, Cobb
JF, Adkins
B, Clark
S, Lejau,
J, Lynch-Stieglitz
J, Malang
AA, Tuen
Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
topic_facet G Geography (General)
GE Environmental Sciences
description The presence of multiple physical mechanisms at play throughout the Late Pleistocene makes it difficult to confidently attribute climate variability to particular forcings. The tropical Pacific's role in past climate change is especially ambiguous because most tropical records lack the resolution, length, and chronological control to completely resolve rapid variability - including abrupt climate change events, ice age terminations, and sea level shifts - against a background of orbital-scale variations. Stalagmites from Gunung Mulu, located in northern Borneo, allow for the construction of reproducible centennial-scale records of hydrologic variability that are precisely-dated and continuous throughout most of the late Pleistocene. Comparison of such records to other regional and global paleorecords as well as relevant simulations from numerical climate models provide valuable insights into the mechanisms responsible for western tropical Pacific hydroclimate variability on centennial to multi-millennial scales. Here we present a large compilation of overlapping U/Th-dated Gunung Mulu stalagmite delta18O records spanning the last 160ky. The composite records demonstrate the complex response of northern Borneo convection to both high-latitude and low-latitude forcings and external insolation. The ice-volume-corrected Borneo delta18O records show little correspondence between regional convective activity and either global sea level shifts (e.g. 1) or Sunda Shelf areal exposure. This result stands in marked contrast to a recently published Last Glacial Maximum (LGM) data-model synthesis that implicates sea level as a dominant driver of tropical Indo-Pacific hydroclimate variability (2). Alternatively, when precessional signals are not muted, the composite Borneo delta18O record varies in phase with equatorial fall insolation, suggesting that precessional forcing is the dominant cause of tropical western Pacific hydroclimate variability on orbital timescales. This is best illustrated across Termination II, when the oscillation of equatorial fall insolation is large and out of phase with ice sheet decay (e.g. 3). During this transition, Borneo stalagmite delta18O begins a shift to more negative delta18O values at 128.8 × 0.9 kybp, almost directly overlapping the equatorial fall insolation cycle. The muted response of tropical western Pacific hydrology to global temperature change and sea level rise relative to precessional insolation represents an important observational constraint on the sequence of climate feedbacks responsible for glacial terminations. 1. M. Medina-Elizalde. Earth Planet. Sci. Lett. 362, 310 (Jan, 2013). 2. P. N. DiNezio, J. E. Tierney. Nature Geoscience 6, 485 (Jun, 2013). 3. A. L. Thomas et al. Science 324, 1186 (May, 2009).
format Article in Journal/Newspaper
author SA, Carolin
K, Cobb
JF, Adkins
B, Clark
S, Lejau,
J, Lynch-Stieglitz
J, Malang
AA, Tuen
author_facet SA, Carolin
K, Cobb
JF, Adkins
B, Clark
S, Lejau,
J, Lynch-Stieglitz
J, Malang
AA, Tuen
author_sort SA, Carolin
title Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
title_short Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
title_full Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
title_fullStr Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
title_full_unstemmed Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record
title_sort insights into the western tropical pacific's role in late pleistocene hydroclimate variability: 160ky borneo stalagmite? 18o record
publisher American Geophysical Union
publishDate 2013
url http://ir.unimas.my/7127/
http://adsabs.harvard.edu/abs/2013AGUFMPP31E.05C
long_lat ENVELOPE(-66.233,-66.233,-68.453,-68.453)
ENVELOPE(-6.982,-6.982,62.205,62.205)
geographic Pacific
Medina
Sunda
geographic_facet Pacific
Medina
Sunda
genre Ice Sheet
genre_facet Ice Sheet
op_relation SA, Carolin and K, Cobb and JF, Adkins and B, Clark and S, Lejau, and S, Lejau, and J, Lynch-Stieglitz and J, Malang and AA, Tuen (2013) Insights into the western tropical Pacific's role in late Pleistocene hydroclimate variability: 160ky Borneo stalagmite? 18O record. AGU Fall Meeting Abstracts, 1. p. 5.
_version_ 1766032102717915136

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