Coral indicators of past sea-level change: a global repository of U-series dated benchmarks
Coral indicators of past sea-level change: a global repository of U-series dated benchmarks
Fossil corals provide valuable data for reconstructing past sea levels, as they are often well preserved in the fossil record and can be dated with U-series methods. Here we present a global and internally consistent database of Usingle bondTh dated fossil coral sea-level indicators, including full consideration of all (known) associated uncertainties (both vertical and chronological). We include carefully determined taxon-specific depth distributions, rather than blanket depth uncertainty terms as used in most previous work. This is based on a synthesis of extensive modern ecological information on depth ranges. These ranges are found to be spatially variable (between ocean basins, between regions, and on sub-regional scales) because depth itself is not limiting – instead, depth distributions arise from complex physical, chemical, and biological interactions with coral-reef growth, distribution, and composition. One of the main causes for recognition of the greater depth-variability of coral taxa has been the routine inclusion of deep-diving and ROV surveys in coral ecological studies over the past few decades, which has broken through the “shallow-water” bias of early surveys by adding frequent observations on deeper occurrences (although more are needed). It is also clear from our assessment that coral habitat-depth distributions must be determined on the species level to reduce uncertainties in reconstructions of past sea levels, and that application to sea-level studies then requires these studies also to identify fossil corals to the species level. Samples identified only to the genus level give rise to wide uncertainties in habitat depth and, hence, sea level. Our database contains extensive metadata to assist evaluations of dating quality, as well as geomorphic and stratigraphic metadata. We demonstrate with examples how such metadata can help to evaluate sea-level reconstructions, for example by identifying outlier points. One example discusses the Last Interglacial (LIG), where we use the available data with their uncertainties to assess probabilistically the time at which local sea levels exceed that of the present, which yields a mean age of 124.6 ka with 95% probability bounds at 118.5 and 129.5 ka. We conclude with identification of key outstanding issues relating to: (i) current incomplete understanding of tectonic setting (including the current lack of independent verification of uplift/subsidence rates and reliance of somewhat unsatisfactory, and circular, use of the elevation of Last Interglacial deposits); (ii) the depth-distributions of coral taxa and; (iii) the complete documentation of stratigraphic, geomorphological and other contextual information, with suggestions for strategies to address these issues.
Coral, Sea-level, U-series dating
1-56
Hibbert, Fiona D.
ec7114df-e18f-4db9-85f3-79f94be59712
Rohling, Eelco J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Dutton, Andrea
d925b712-624a-4b85-b41c-85e49e695253
Williams, Felicity H.
24d5d94b-a0e5-458c-893f-3c2d15412528
Chutcharavan, Peter M.
3494f4cc-da77-4dc6-96b8-5c2e151f821c
Zhao, Cheng
ba147a60-22db-40a5-b6ba-66c673748465
Tamisiea, Mark E.
30ed16ff-8f70-4f82-b1a6-bc8919a71f9e
August 2016
Hibbert, Fiona D.
ec7114df-e18f-4db9-85f3-79f94be59712
Rohling, Eelco J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Dutton, Andrea
d925b712-624a-4b85-b41c-85e49e695253
Williams, Felicity H.
24d5d94b-a0e5-458c-893f-3c2d15412528
Chutcharavan, Peter M.
3494f4cc-da77-4dc6-96b8-5c2e151f821c
Zhao, Cheng
ba147a60-22db-40a5-b6ba-66c673748465
Tamisiea, Mark E.
30ed16ff-8f70-4f82-b1a6-bc8919a71f9e
Hibbert, Fiona D., Rohling, Eelco J., Dutton, Andrea, Williams, Felicity H., Chutcharavan, Peter M., Zhao, Cheng and Tamisiea, Mark E.
(2016)
Coral indicators of past sea-level change: a global repository of U-series dated benchmarks.
Quaternary Science Reviews, 145, .
(doi:10.1016/j.quascirev.2016.04.019).
Abstract
Fossil corals provide valuable data for reconstructing past sea levels, as they are often well preserved in the fossil record and can be dated with U-series methods. Here we present a global and internally consistent database of Usingle bondTh dated fossil coral sea-level indicators, including full consideration of all (known) associated uncertainties (both vertical and chronological). We include carefully determined taxon-specific depth distributions, rather than blanket depth uncertainty terms as used in most previous work. This is based on a synthesis of extensive modern ecological information on depth ranges. These ranges are found to be spatially variable (between ocean basins, between regions, and on sub-regional scales) because depth itself is not limiting – instead, depth distributions arise from complex physical, chemical, and biological interactions with coral-reef growth, distribution, and composition. One of the main causes for recognition of the greater depth-variability of coral taxa has been the routine inclusion of deep-diving and ROV surveys in coral ecological studies over the past few decades, which has broken through the “shallow-water” bias of early surveys by adding frequent observations on deeper occurrences (although more are needed). It is also clear from our assessment that coral habitat-depth distributions must be determined on the species level to reduce uncertainties in reconstructions of past sea levels, and that application to sea-level studies then requires these studies also to identify fossil corals to the species level. Samples identified only to the genus level give rise to wide uncertainties in habitat depth and, hence, sea level. Our database contains extensive metadata to assist evaluations of dating quality, as well as geomorphic and stratigraphic metadata. We demonstrate with examples how such metadata can help to evaluate sea-level reconstructions, for example by identifying outlier points. One example discusses the Last Interglacial (LIG), where we use the available data with their uncertainties to assess probabilistically the time at which local sea levels exceed that of the present, which yields a mean age of 124.6 ka with 95% probability bounds at 118.5 and 129.5 ka. We conclude with identification of key outstanding issues relating to: (i) current incomplete understanding of tectonic setting (including the current lack of independent verification of uplift/subsidence rates and reliance of somewhat unsatisfactory, and circular, use of the elevation of Last Interglacial deposits); (ii) the depth-distributions of coral taxa and; (iii) the complete documentation of stratigraphic, geomorphological and other contextual information, with suggestions for strategies to address these issues.
Text
Hibbert et al_Coral_REVISIONS_FINAL_QSR.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 21 April 2016
e-pub ahead of print date: 3 June 2016
Published date: August 2016
Keywords:
Coral, Sea-level, U-series dating
Organisations:
Marine Physics and Ocean Climate, Paleooceanography & Palaeoclimate
Identifiers
Local EPrints ID: 400514
URI: http://eprints.soton.ac.uk/id/eprint/400514
ISSN: 0277-3791
PURE UUID: 9511cdc2-f52d-40e5-aa88-73f8a11d71c7
Catalogue record
Date deposited: 15 Sep 2016 14:24
Last modified: 15 Mar 2024 05:53
Export record
Altmetrics
Contributors
Author:
Fiona D. Hibbert
Author:
Andrea Dutton
Author:
Felicity H. Williams
Author:
Peter M. Chutcharavan
Author:
Cheng Zhao
Author:
Mark E. Tamisiea
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
