Inception of a global atlas of sea levels since the Last Glacial Maximum
Determining the rates, mechanisms, and geographic variability of relative sea-level (RSL) change following the Last Glacial Maximum (LGM) provides insight into the sensitivity of ice sheets to climate change, the response of the solid Earth and gravity field to ice-mass redistribution, and constrain...
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Science::Geology Sea Levels Last Glacial Maximum Khan, Nicole S. Horton, Benjamin Peter Engelhart, Simon Rovere, Alessio Vacchi, Matteo Ashe, Erica L. Törnqvist, Torbjörn E. Dutton, Andrea Hijma, Marc P. Shennan, Ian Inception of a global atlas of sea levels since the Last Glacial Maximum |
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Determining the rates, mechanisms, and geographic variability of relative sea-level (RSL) change following the Last Glacial Maximum (LGM) provides insight into the sensitivity of ice sheets to climate change, the response of the solid Earth and gravity field to ice-mass redistribution, and constrains statistical and physical models used to project future sea-level rise. To do so in a scientifically robust way requires standardized datasets that enable broad spatial comparisons that minimize bias. As part of a larger goal to develop a unified, spatially-comprehensive post-LGM global RSL database, in this special issue we provide a standardized global synthesis of regional RSL data that resulted from the first ‘Geographic variability of HOLocene relative SEA level (HOLSEA)’ meetings in Mt Hood, Oregon (2016) and St Lucia, South Africa (2017). The HOLSEA meetings brought together sea-level researchers to agree upon a consistent protocol to standardize, interpret, and incorporate realistic uncertainties of RSL data. This special issue provides RSL data from ten geographical regions including new databases from Atlantic Europe and the Russian Arctic and revised/expanded databases from Atlantic Canada, the British Isles, the Netherlands, the western Mediterranean, the Adriatic, Israel, Peninsular Malaysia, Southeast Asia, and the Indian Ocean. In total, the database derived from this special issue includes 5634 (5290 validated) index (n = 3202) and limiting points (n = 2088) that span from ∼20,000 years ago to present. Progress in improving the standardization of sea-level databases has also been accompanied by advancements in statistical and analytical methods used to infer spatial patterns and rates of RSL change from geological data that have a spatially and temporally sparse distribution and geochronological and elevational uncertainties. This special issue marks the inception of a unified, spatially-comprehensive post-LGM global RSL database. |
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Asian School of the Environment |
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Asian School of the Environment Khan, Nicole S. Horton, Benjamin Peter Engelhart, Simon Rovere, Alessio Vacchi, Matteo Ashe, Erica L. Törnqvist, Torbjörn E. Dutton, Andrea Hijma, Marc P. Shennan, Ian |
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Article |
| author |
Khan, Nicole S. Horton, Benjamin Peter Engelhart, Simon Rovere, Alessio Vacchi, Matteo Ashe, Erica L. Törnqvist, Torbjörn E. Dutton, Andrea Hijma, Marc P. Shennan, Ian |
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Khan, Nicole S. |
| title |
Inception of a global atlas of sea levels since the Last Glacial Maximum |
| title_short |
Inception of a global atlas of sea levels since the Last Glacial Maximum |
| title_full |
Inception of a global atlas of sea levels since the Last Glacial Maximum |
| title_fullStr |
Inception of a global atlas of sea levels since the Last Glacial Maximum |
| title_full_unstemmed |
Inception of a global atlas of sea levels since the Last Glacial Maximum |
| title_sort |
inception of a global atlas of sea levels since the last glacial maximum |
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2020 |
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https://hdl.handle.net/10356/137052 |
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1734310118449741824 |
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sg-ntu-dr.10356-1370522022-05-14T20:11:21Z Inception of a global atlas of sea levels since the Last Glacial Maximum Khan, Nicole S. Horton, Benjamin Peter Engelhart, Simon Rovere, Alessio Vacchi, Matteo Ashe, Erica L. Törnqvist, Torbjörn E. Dutton, Andrea Hijma, Marc P. Shennan, Ian Asian School of the Environment Earth Observatory of Singapore Science::Geology Sea Levels Last Glacial Maximum Determining the rates, mechanisms, and geographic variability of relative sea-level (RSL) change following the Last Glacial Maximum (LGM) provides insight into the sensitivity of ice sheets to climate change, the response of the solid Earth and gravity field to ice-mass redistribution, and constrains statistical and physical models used to project future sea-level rise. To do so in a scientifically robust way requires standardized datasets that enable broad spatial comparisons that minimize bias. As part of a larger goal to develop a unified, spatially-comprehensive post-LGM global RSL database, in this special issue we provide a standardized global synthesis of regional RSL data that resulted from the first ‘Geographic variability of HOLocene relative SEA level (HOLSEA)’ meetings in Mt Hood, Oregon (2016) and St Lucia, South Africa (2017). The HOLSEA meetings brought together sea-level researchers to agree upon a consistent protocol to standardize, interpret, and incorporate realistic uncertainties of RSL data. This special issue provides RSL data from ten geographical regions including new databases from Atlantic Europe and the Russian Arctic and revised/expanded databases from Atlantic Canada, the British Isles, the Netherlands, the western Mediterranean, the Adriatic, Israel, Peninsular Malaysia, Southeast Asia, and the Indian Ocean. In total, the database derived from this special issue includes 5634 (5290 validated) index (n = 3202) and limiting points (n = 2088) that span from ∼20,000 years ago to present. Progress in improving the standardization of sea-level databases has also been accompanied by advancements in statistical and analytical methods used to infer spatial patterns and rates of RSL change from geological data that have a spatially and temporally sparse distribution and geochronological and elevational uncertainties. This special issue marks the inception of a unified, spatially-comprehensive post-LGM global RSL database. Ministry of Education (MOE) National Research Foundation (NRF) Published version NSK and BPH were funded by the Singapore Ministry of Edu- cation Academic Research Fund MOE2018-T2-1-030, the National Research Foundation Singapore, and the Singapore Ministry of Education, under the Research Centres of Excellence initiative. This work is Earth Observatory of Singapore contribution 252. AR ac- knowledges the Institutional Strategy of the University of Bremen, funded by the German Excellence Initiative (ABPZuK-03/2014) and the SEASCHANGE (RO-5245/1-1) from the Deutsche For- schungsgemeinschaft (DFG) as part of the Special Priority Program (SPP)-1889 00Regional Sea Level Change and Society”. TET ac- knowledges support from the Paleo Perspectives on Climate Change program of the US National Science Foundation (OCE- 1502588). We thank Maren Bender for her help in preparing the comparison of data from Southeast Asia. This article is a contribu- tion to PALSEA (Palaeo-Constraints on Sea-Level Rise) and Inter- national Geoscience Program (IGCP) Project 639, “Sea Level Change from Minutes to Millennia”. 2020-02-17T05:46:18Z 2020-02-17T05:46:18Z 2019 Journal Article Khan, N. S., Horton, B. P., Engelhart, S., Rovere, A., Vacchi, M., Ashe, E. L., Törnqvist, T. E., Dutton, A., Hijma, M. P. & Shennan, I. (2019). Inception of a global atlas of sea levels since the Last Glacial Maximum. Quaternary Science Reviews, 220, 359-371. https://dx.doi.org/10.1016/j.quascirev.2019.07.016 0277-3791 https://hdl.handle.net/10356/137052 10.1016/j.quascirev.2019.07.016 2-s2.0-85070911460 220 359 371 en MOE2018-T2-1-030 Quaternary Science Reviews © 2019 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |