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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Published in:Quaternary Science Reviews
Main Authors: Khan, Nicole S., Horton, Benjamin P., Engelhart, Simon, Rovere, Alessio, Vacchi, Matteo, Ashe, Erica L., Törnqvist, Torbjörn E., Dutton, Andrea, Hijma, Marc P., Shennan, Ian, HOLSEA working group
Language:English
Published: 2019
Subjects:
global
Sea level
Arctic
Canada
Indian
Climate change
Online Access:https://repository.publisso.de/resource/frl:6417420
https://doi.org/10.1016/j.quascirev.2019.07.016
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spelling ftleibnizopen:oai:oai.leibnizopen.de:rUCQhIgBdbrxVwz6C37- 2023-06-18T03:39:38+02:00 Inception of a global atlas of sea levels since the Last Glacial Maximum Khan, Nicole S. Horton, Benjamin P. Engelhart, Simon Rovere, Alessio Vacchi, Matteo Ashe, Erica L. Törnqvist, Torbjörn E. Dutton, Andrea Hijma, Marc P. Shennan, Ian HOLSEA working group 2019 https://repository.publisso.de/resource/frl:6417420 https://doi.org/10.1016/j.quascirev.2019.07.016 eng eng https://creativecommons.org/licenses/by-nc-nd/4.0/ Quaternary science reviews, 220:359-371 global Sea level 2019 ftleibnizopen https://doi.org/10.1016/j.quascirev.2019.07.016 2023-06-04T23:13:02Z 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. Other/Unknown Material Arctic Climate change LeibnizOpen (The Leibniz Association) Arctic Canada Indian Quaternary Science Reviews 220 359 371
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic global
Sea level
spellingShingle global
Sea level
Khan, Nicole S.
Horton, Benjamin P.
Engelhart, Simon
Rovere, Alessio
Vacchi, Matteo
Ashe, Erica L.
Törnqvist, Torbjörn E.
Dutton, Andrea
Hijma, Marc P.
Shennan, Ian
HOLSEA working group
Inception of a global atlas of sea levels since the Last Glacial Maximum
topic_facet global
Sea level
description 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.
author Khan, Nicole S.
Horton, Benjamin P.
Engelhart, Simon
Rovere, Alessio
Vacchi, Matteo
Ashe, Erica L.
Törnqvist, Torbjörn E.
Dutton, Andrea
Hijma, Marc P.
Shennan, Ian
HOLSEA working group
author_facet Khan, Nicole S.
Horton, Benjamin P.
Engelhart, Simon
Rovere, Alessio
Vacchi, Matteo
Ashe, Erica L.
Törnqvist, Torbjörn E.
Dutton, Andrea
Hijma, Marc P.
Shennan, Ian
HOLSEA working group
author_sort 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
publishDate 2019
url https://repository.publisso.de/resource/frl:6417420
https://doi.org/10.1016/j.quascirev.2019.07.016
geographic Arctic
Canada
Indian
geographic_facet Arctic
Canada
Indian
genre Arctic
Climate change
genre_facet Arctic
Climate change
op_source Quaternary science reviews, 220:359-371
op_rights https://creativecommons.org/licenses/by-nc-nd/4.0/
op_doi https://doi.org/10.1016/j.quascirev.2019.07.016
container_title Quaternary Science Reviews
container_volume 220
container_start_page 359
op_container_end_page 371
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