The importance of non-tidal water-level variability for reconstructing Holocene relative sea level
Salt-marsh sediment is an important geological archive for reconstructing Holocene relative sea level. The vertical uncertainty of these reconstructions is usually quantified as proportional to tidal range, resulting in a presumed primacy of microtidal regions for generating precise records. We anal...
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sg-ntu-dr.10356-1746252024-04-18T01:50:36Z The importance of non-tidal water-level variability for reconstructing Holocene relative sea level Kemp, Andrew C. Shaw, Timothy Adam Piecuch, Christopher G. Asian School of the Environment Earth Observatory of Singapore Earth and Environmental Sciences Salt marsh Microtidal Chesapeake bay Highest occurrence of foraminifera Salt-marsh sediment is an important geological archive for reconstructing Holocene relative sea level. The vertical uncertainty of these reconstructions is usually quantified as proportional to tidal range, resulting in a presumed primacy of microtidal regions for generating precise records. We analyzed hourly water-level predictions and measurements over 1983e2001 from 43 tide gauges on the U.S. Atlantic coast to quantify the (1) relationship between elevation (relative to tidal datums) and duration of inundation; and (2) relative importance of astronomical tides and non-tidal (meteorological, hydrologic, and oceanographic) processes. Non-tidal processes are more likely to exert a proportionally large inf luence on water levels in regions with small astronomical tides, and less likely to do so where tides are large. In some microtidal regions (e.g., Chesapeake Bay), the precision of RSL reconstructions is likely overestimated, while in regions with large tidal range (e.g., Gulf of Maine) it may be underestimated. Adopting an inundation frequency rather than predicted astronomical datum for the upper limit of saltmarsh distribution may reduce this bias. Relative sea-level reconstructions often assume constant tidal range through time, but in some microtidal regions this assumption should be expanded to explicitly describe additional stationarity of non-tidal contributions. Ministry of Education (MOE) National Research Foundation (NRF) Kemp is supported by a U.S. National Science Foundation CAREER award (OCE-1942563). Shaw is supported by the Singapore Ministry of Education award MOE2019-T3-1-004, and 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 no. XXX. Piecuch is supported by a U.S.National Science Foundation P2C2 award (OCE-2002485). 2024-04-18T01:50:36Z 2024-04-18T01:50:36Z 2022 Journal Article Kemp, A. C., Shaw, T. A. & Piecuch, C. G. (2022). The importance of non-tidal water-level variability for reconstructing Holocene relative sea level. Quaternary Science Reviews, 290, 107637-. https://dx.doi.org/10.1016/j.quascirev.2022.107637 0277-3791 https://hdl.handle.net/10356/174625 10.1016/j.quascirev.2022.107637 290 107637 en OCE-1942563 MOE 2019-T3-1-004 OCE-2002485 Quaternary Science Reviews © 2022 Elsevier Ltd. All rights reserved. |
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Earth and Environmental Sciences Salt marsh Microtidal Chesapeake bay Highest occurrence of foraminifera |
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Earth and Environmental Sciences Salt marsh Microtidal Chesapeake bay Highest occurrence of foraminifera Kemp, Andrew C. Shaw, Timothy Adam Piecuch, Christopher G. The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| description |
Salt-marsh sediment is an important geological archive for reconstructing Holocene relative sea level. The vertical uncertainty of these reconstructions is usually quantified as proportional to tidal range, resulting in a presumed primacy of microtidal regions for generating precise records. We analyzed hourly water-level predictions and measurements over 1983e2001 from 43 tide gauges on the U.S. Atlantic coast to quantify the (1) relationship between elevation (relative to tidal datums) and duration of inundation; and (2) relative importance of astronomical tides and non-tidal (meteorological, hydrologic, and oceanographic) processes. Non-tidal processes are more likely to exert a proportionally large inf luence on water levels in regions with small astronomical tides, and less likely to do so where tides are large. In some microtidal regions (e.g., Chesapeake Bay), the precision of RSL reconstructions is likely overestimated, while in regions with large tidal range (e.g., Gulf of Maine) it may be underestimated. Adopting an inundation frequency rather than predicted astronomical datum for the upper limit of saltmarsh distribution may reduce this bias. Relative sea-level reconstructions often assume constant tidal range through time, but in some microtidal regions this assumption should be expanded to explicitly describe additional stationarity of non-tidal contributions. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Kemp, Andrew C. Shaw, Timothy Adam Piecuch, Christopher G. |
| format |
Article |
| author |
Kemp, Andrew C. Shaw, Timothy Adam Piecuch, Christopher G. |
| author_sort |
Kemp, Andrew C. |
| title |
The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| title_short |
The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| title_full |
The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| title_fullStr |
The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| title_full_unstemmed |
The importance of non-tidal water-level variability for reconstructing Holocene relative sea level |
| title_sort |
importance of non-tidal water-level variability for reconstructing holocene relative sea level |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174625 |
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1800916316037578752 |