Coastal response to Holocene sea-level change: a case study from Singapore
The deceleration of early to mid-Holocene (10–7 cal. ka BP) relative sea-level rise (RSLR) played a key role in transforming coastal systems from estuaries to deltas. Palaeoenvironmental reconstruction of coastal evolution provide case studies that can help project the response of modern coastal sys...
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Science::Geology Coastal Evolution Sediments Chua, Stephen Switzer, Adam D. Gouramanis, Chris Dixit, Yama Bird, Michael I. Horton, Benjamin Peter Coastal response to Holocene sea-level change: a case study from Singapore |
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The deceleration of early to mid-Holocene (10–7 cal. ka BP) relative sea-level rise (RSLR) played a key role in transforming coastal systems from estuaries to deltas. Palaeoenvironmental reconstruction of coastal evolution provide case studies that can help project the response of modern coastal systems to future RSLR. The response of deltas to future RSLR is particularly important to South, Southeast and East Asia which collectively contain 71% of the global coastal population living below 10 m in elevation and 75% of the global coastal floodplain population. However, few Holocene studies of equatorial delta systems exist. Here, we investigate the early to mid-Holocene coastal response to decelerating rates of RSLR through paleoenvironmental reconstruction of the Kallang River Basin, Singapore. We produce a multi-proxy (sedimentology, stable carbon isotope, XRF elemental ratios) record from sediment core MSBH01B to compare with the Holocene relative sea-level record for Singapore. We identify different phases of coastal response through the interplay between accommodation space (A) driven predominantly by RSLR and sedimentation rate (S). In the early Holocene rapid RSLR coupled with low sedimentation rates (A/S = 5.1 ± 0.3) led to mangrove disappearance in the Kallang River Basin coastal area within ∼300 years (9.5–9.2 cal. ka BP). Estuarine sediments were deposited from 9.2 to 8.8 cal. ka BP during continued high rates of RSLR coupled with highest sedimentation rates (A/S = 3.1 ± 0.8) as the coastline retreated. Prodelta sediments were deposited from 8.8 to 8.2 cal. ka BP during decreasing rate of RSLR and high sedimentation rates (A/S = 4.6 ± 5.2). Delta front sediments were deposited during this delta initiation phase from 8.2 to 7.6 cal. ka BP as during a period of low and consistent RSLR and sedimentation rates (A/S = 1.7 ± 0.2). Finally, a prograding delta started forming from 7.6 to 7.2 cal. ka BP during lowest rates of RSLR and sedimentation rates (A/S = 1.7 ± 0.2). Our record provides a case study of possible responses of modern delta systems under a spectrum of predicted sea-level rise scenarios and accompanying sedimentation rates. This study provides an estimated threshold A/S value of 1.7 for coastal retreat to inform policy and mitigation/adaptation measures for Singapore and a simple methodology to obtain local threshold values of other equatorial cities built on floodplain and/or delta systems. |
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Asian School of the Environment |
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Asian School of the Environment Chua, Stephen Switzer, Adam D. Gouramanis, Chris Dixit, Yama Bird, Michael I. Horton, Benjamin Peter |
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Article |
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Chua, Stephen Switzer, Adam D. Gouramanis, Chris Dixit, Yama Bird, Michael I. Horton, Benjamin Peter |
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Chua, Stephen |
| title |
Coastal response to Holocene sea-level change: a case study from Singapore |
| title_short |
Coastal response to Holocene sea-level change: a case study from Singapore |
| title_full |
Coastal response to Holocene sea-level change: a case study from Singapore |
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Coastal response to Holocene sea-level change: a case study from Singapore |
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Coastal response to Holocene sea-level change: a case study from Singapore |
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coastal response to holocene sea-level change: a case study from singapore |
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2024 |
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https://hdl.handle.net/10356/173201 |
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sg-ntu-dr.10356-1732012024-01-22T15:30:39Z Coastal response to Holocene sea-level change: a case study from Singapore Chua, Stephen Switzer, Adam D. Gouramanis, Chris Dixit, Yama Bird, Michael I. Horton, Benjamin Peter Asian School of the Environment Earth Observatory of Singapore Science::Geology Coastal Evolution Sediments The deceleration of early to mid-Holocene (10–7 cal. ka BP) relative sea-level rise (RSLR) played a key role in transforming coastal systems from estuaries to deltas. Palaeoenvironmental reconstruction of coastal evolution provide case studies that can help project the response of modern coastal systems to future RSLR. The response of deltas to future RSLR is particularly important to South, Southeast and East Asia which collectively contain 71% of the global coastal population living below 10 m in elevation and 75% of the global coastal floodplain population. However, few Holocene studies of equatorial delta systems exist. Here, we investigate the early to mid-Holocene coastal response to decelerating rates of RSLR through paleoenvironmental reconstruction of the Kallang River Basin, Singapore. We produce a multi-proxy (sedimentology, stable carbon isotope, XRF elemental ratios) record from sediment core MSBH01B to compare with the Holocene relative sea-level record for Singapore. We identify different phases of coastal response through the interplay between accommodation space (A) driven predominantly by RSLR and sedimentation rate (S). In the early Holocene rapid RSLR coupled with low sedimentation rates (A/S = 5.1 ± 0.3) led to mangrove disappearance in the Kallang River Basin coastal area within ∼300 years (9.5–9.2 cal. ka BP). Estuarine sediments were deposited from 9.2 to 8.8 cal. ka BP during continued high rates of RSLR coupled with highest sedimentation rates (A/S = 3.1 ± 0.8) as the coastline retreated. Prodelta sediments were deposited from 8.8 to 8.2 cal. ka BP during decreasing rate of RSLR and high sedimentation rates (A/S = 4.6 ± 5.2). Delta front sediments were deposited during this delta initiation phase from 8.2 to 7.6 cal. ka BP as during a period of low and consistent RSLR and sedimentation rates (A/S = 1.7 ± 0.2). Finally, a prograding delta started forming from 7.6 to 7.2 cal. ka BP during lowest rates of RSLR and sedimentation rates (A/S = 1.7 ± 0.2). Our record provides a case study of possible responses of modern delta systems under a spectrum of predicted sea-level rise scenarios and accompanying sedimentation rates. This study provides an estimated threshold A/S value of 1.7 for coastal retreat to inform policy and mitigation/adaptation measures for Singapore and a simple methodology to obtain local threshold values of other equatorial cities built on floodplain and/or delta systems. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) Published version This research is conducted in part using the research facilities at the Advanced Analytical Centre in James Cook University, Cairns, Australia supported by an Endeavour Research Fellowship from the Australian Government awarded to SC in 2017. This research was supported by the Earth Observatory of Singapore (EOS) grants M4430132.B50-2014 (Singapore Quaternary Geology), M4430139.B50-2015 (Singapore Holocene Sea Level), M4430188.B50- 2016 (Singapore Drilling Project), M4430245.B50-2017 and M4430245.B50-2018 (Kallang Basin Project). SC, ADS, and BPH are supported by the Singapore Ministry of Education Academic Research Fund MOE2019-T3-1-004 and MOE2018-T2-1-030, the National Research Foundation Singapore, the Singapore Ministry of Education under the Research Centers of Excellence initiative, and by the Nanyang Technological University. 2024-01-17T02:51:00Z 2024-01-17T02:51:00Z 2023 Journal Article Chua, S., Switzer, A. D., Gouramanis, C., Dixit, Y., Bird, M. I. & Horton, B. P. (2023). Coastal response to Holocene sea-level change: a case study from Singapore. Marine Geology, 465, 107146-. https://dx.doi.org/10.1016/j.margeo.2023.107146 0025-3227 https://hdl.handle.net/10356/173201 10.1016/j.margeo.2023.107146 2-s2.0-85173179494 465 107146 en M4430132.B50-2014 M4430139.B50-2015 M4430188.B50-2016 M4430245. B50-2017 M4430245.B50-2018 MOE2019-T3-1-004 MOE2018-T2-1-030 Marine Geology © 2023 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |