Deglacial perspectives of future sea level for Singapore

Timothy A. Shaw; Tanghua Li; Trina Ng; Niamh Cahill; Stephen Chua; Jedrzej M. Majewski; Yudhishthra Nathan; Gregory G. Garner; Robert E. Kopp; Till J.J. Hanebuth; Adam D. Switzer; Benjamin P. Horton

doi:10.1038/s43247-023-00868-5

Deglacial perspectives of future sea level for Singapore

Timothy A. Shaw^*, Tanghua Li, Trina Ng, Niamh Cahill, Stephen Chua, Jedrzej M. Majewski, Yudhishthra Nathan, Gregory G. Garner, Robert E. Kopp, Till J.J. Hanebuth, Adam D. Switzer, Benjamin P. Horton

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Low elevation equatorial and tropical coastal regions are highly vulnerable to sea level rise. Here we provide probability perspectives of future sea level for Singapore using regional geological reconstructions and instrumental records since the last glacial maximum ~21.5 thousand years ago. We quantify magnitudes and rates of sea-level change showing deglacial sea level rose from ~121 m below present level and increased at averaged rates up to ~15 mm/yr, which reduced the paleogeographic landscape by ~2.3 million km². Projections under a moderate emissions scenario show sea level rising 0.95 m at a rate of 7.3 mm/yr by 2150 which has only been exceeded (at least 99% probability) during rapid ice mass loss events ~14.5 and ~9 thousand years ago. Projections under a high emissions scenario incorporating low confidence ice-sheet processes, however, have no precedent during the last deglaciation.

Original language	English
Article number	204
Journal	Communications Earth and Environment
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s43247-023-00868-5
Publication status	Published - Dec 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023, The Author(s).

ASJC Scopus Subject Areas

General Environmental Science
General Earth and Planetary Sciences

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10.1038/s43247-023-00868-5

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title = "Deglacial perspectives of future sea level for Singapore",

abstract = "Low elevation equatorial and tropical coastal regions are highly vulnerable to sea level rise. Here we provide probability perspectives of future sea level for Singapore using regional geological reconstructions and instrumental records since the last glacial maximum ~21.5 thousand years ago. We quantify magnitudes and rates of sea-level change showing deglacial sea level rose from ~121 m below present level and increased at averaged rates up to ~15 mm/yr, which reduced the paleogeographic landscape by ~2.3 million km2. Projections under a moderate emissions scenario show sea level rising 0.95 m at a rate of 7.3 mm/yr by 2150 which has only been exceeded (at least 99% probability) during rapid ice mass loss events ~14.5 and ~9 thousand years ago. Projections under a high emissions scenario incorporating low confidence ice-sheet processes, however, have no precedent during the last deglaciation.",

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AU - Li, Tanghua

AU - Ng, Trina

AU - Cahill, Niamh

AU - Chua, Stephen

AU - Majewski, Jedrzej M.

AU - Nathan, Yudhishthra

AU - Garner, Gregory G.

AU - Kopp, Robert E.

AU - Hanebuth, Till J.J.

AU - Switzer, Adam D.

AU - Horton, Benjamin P.

PY - 2023/12

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AB - Low elevation equatorial and tropical coastal regions are highly vulnerable to sea level rise. Here we provide probability perspectives of future sea level for Singapore using regional geological reconstructions and instrumental records since the last glacial maximum ~21.5 thousand years ago. We quantify magnitudes and rates of sea-level change showing deglacial sea level rose from ~121 m below present level and increased at averaged rates up to ~15 mm/yr, which reduced the paleogeographic landscape by ~2.3 million km2. Projections under a moderate emissions scenario show sea level rising 0.95 m at a rate of 7.3 mm/yr by 2150 which has only been exceeded (at least 99% probability) during rapid ice mass loss events ~14.5 and ~9 thousand years ago. Projections under a high emissions scenario incorporating low confidence ice-sheet processes, however, have no precedent during the last deglaciation.

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Deglacial perspectives of future sea level for Singapore

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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