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    Reproducibility and variability of earthquake subsidence estimates from saltmarshes of a Cascadia estuary


    Padgett, Jason S., Engelhart, Simon E., Kelsey, Harvey M., Witter, Robert C. and Cahill, Niamh (2022) Reproducibility and variability of earthquake subsidence estimates from saltmarshes of a Cascadia estuary. Journal of Quaternary Science, 37 (7). pp. 1294-1312. ISSN 0267-8179

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    Abstract

    We examine fossil foraminiferal assemblages from 20 sediment cores to assess sudden relative sea‐level (RSL) changes across three mud‐over‐peat contacts at three salt marshes in northern Humboldt Bay, California(~44.8°N,−124.2°W). We use a validated foraminiferal‐based Bayesian transfer function to evaluate the variability of subsidence stratigraphy at a range of 30‐6000 m across an estuary. We use the consistency in RSL reconstructions to support estimates of coseismic subsidence from mega thrust earthquakes. To assess the variability of subsidence estimates, we analyzed: nine examples of the 1700 CE earthquake (average of 0.64±0.14 m subsidence; range of0.24±0.27 to 1.00±0.44 m), five examples of the ca. 875 cal a BP earthquake (average of 0.43±0.16 m; range of0.41±0.36 to 0.48±0.39 m), and six examples of the ca. 1120 cal a BP earthquake (average of 0.70±0.18 m; range of 0.47±0.36 to 0.80±0.49 m). Our subsidence estimates suggest ~±0.3 m of within‐site (intrasite) variability,which is consistent with previous research. We also identify inconsistencies between sites (intersite) at northern Humboldt Bay greater than one‐sigma uncertainties, driven by variable foraminiferal assemblages in the mud overlying the 1700 CE subsidence contact. Therefore, we recommend at least two quantitative microfossil reconstructions across the same stratigraphic sequence from different marsh sites within an estuary to account forest imate variability and provide increased confidence in vertical coseismic deformation estimates. Our results have broad implications for quantitative, microfossil‐based reconstructions of coseismic subsidence at temperate coastlines globally.
    Item Type: Article
    Keywords: paleogeodesy; relative sea level; Cascadia; tidal wetland stratigraphy; megathrust paleoseismology;
    Academic Unit: Faculty of Science and Engineering > Mathematics and Statistics
    Item ID: 16950
    Identification Number: 10.1002/jqs.3446
    Depositing User: Niamh Cahill
    Date Deposited: 20 Feb 2023 14:52
    Journal or Publication Title: Journal of Quaternary Science
    Publisher: John Wiley and Sons
    Refereed: Yes
    URI: https://mu.eprints-hosting.org/id/eprint/16950
    Use Licence: This item is available under a Creative Commons Attribution Non Commercial Share Alike Licence (CC BY-NC-SA). Details of this licence are available here

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