Sangam: A Confluence of Knowledge Streams

Salt-marsh testate amoebae as precise and widespread indicators of sea-level change

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dc.creator Barnett, RL
dc.creator Newton, TL
dc.creator Charman, DJ
dc.creator Roland Gehrels, W
dc.date 2017-11-09T16:00:40Z
dc.date 2016-11-24
dc.identifier Vol. 164, pp. 193 - 207
dc.identifier 10.1016/j.earscirev.2016.11.002
dc.identifier http://hdl.handle.net/10871/30239
dc.identifier 0012-8252
dc.identifier Earth-Science Reviews
dc.description This is the author accepted manuscript. The final version is available from Elsevier via the DOI in this record.
dc.description Salt-marsh sediments are routinely used to reconstruct sea-level changes over past millennia. These reconstructions bridge an important gap between geological and instrumental sea-level records, and provide insights into the role of atmospheric, oceanic, climatic and anthropogenic sea-level drivers, thereby improving understanding of contemporary and future sea-level changes. Salt-marsh foraminifera, diatoms and testate amoebae are three of the proxies capable of accurately reconstructing former sea level over decadal to millennial timescales. Datasets of surface assemblages are collated along elevational gradients to provide modern analogues that can be used to infer former marsh-surface elevations from fossil assemblages. Testate amoebae are the most recently developed proxy and existing studies suggest that they are at least as precise as the two other proxies. This study provides a synthesis of sea-level research using testate amoebae and collates and analyses existing surface datasets of intertidal salt-marsh testate amoebae from sites throughout the North Atlantic. We test the hypothesis that intertidal testate amoebae demonstrate cosmopolitan intertidal zonation across wide geographical areas in a way that is unique to this proxy. Testate amoebae assemblages are harmonised under a unified taxonomy and standardised into a single basin-wide training set suitable for reconstructing sea-level changes from salt-marsh sediments across the North Atlantic. Transfer functions are developed using regression modelling and show comparable performance values to published local training sets of foraminifera, diatoms and testate amoebae. When used to develop recent (last 100 years) sea-level reconstructions for sites in Norway and Quebec, Canada, the testate amoebae-based transfer function demonstrated prediction uncertainties of ± 0.26 m and ± 0.10 m respectively. These uncertainties equate to 10% and 11% of the tidal ranges at each site, which is of comparable precision to other published sea-level reconstructions based on foraminifera or diatoms. There is great scope for further developing intertidal testate amoebae as precise sea-level indicators and their application should be tested at sites beyond the North Atlantic.
dc.description Our work on salt-marsh testate amoebae was funded by the Natural Environment Research Council (grant GR9/03426 to WRG and DJC) and by Plymouth University studentships (to RLB and TLN). Datasets from the Magdalen Islands were originally collected using funding from the Coastal Geoscience Research Chair at the Université du Québec à Rimouski.
dc.language en
dc.publisher Elsevier
dc.rights © 2016 Elsevier B.V.
dc.rights 2017-11-24
dc.rights Publisher policy
dc.subject Sea level
dc.subject Testate amoebae
dc.subject Salt marsh
dc.subject North Atlantic
dc.subject Transfer function
dc.title Salt-marsh testate amoebae as precise and widespread indicators of sea-level change
dc.type Article


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