Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation

Salt-marsh foraminifera are sea-level proxies used to quantitatively reconstruct Holocene paleo-marsh elevations (PME) and subsequently relative sea level (RSL). The reliability of these reconstructions is partly dependent upon counting enough foraminifera to accurately characterize assemblages, whi...

Full description

Bibliographic Details
Main Authors: Kemp, Andrew C., Wright, Alexander J., Cahill, Niamh
Format: Article in Journal/Newspaper
Language:English
Published: Geo Science World 2020
Subjects:
Canada
Newfoundland
Online Access:https://mural.maynoothuniversity.ie/16456/
https://mural.maynoothuniversity.ie/16456/1/NiamhCahillEno2022.pdf
id ftunivmaynooth:oai:mural.maynoothuniversity.ie:16456
record_format openpolar
spelling ftunivmaynooth:oai:mural.maynoothuniversity.ie:16456 2023-05-15T17:22:45+02:00 Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation Kemp, Andrew C. Wright, Alexander J. Cahill, Niamh 2020 text https://mural.maynoothuniversity.ie/16456/ https://mural.maynoothuniversity.ie/16456/1/NiamhCahillEno2022.pdf en eng Geo Science World https://mural.maynoothuniversity.ie/16456/1/NiamhCahillEno2022.pdf Kemp, Andrew C. and Wright, Alexander J. and Cahill, Niamh (2020) Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation. Journal of Foraminiferal Research, 50 (3). pp. 266-278. ISSN 0096-1191 Article PeerReviewed 2020 ftunivmaynooth 2022-09-01T22:34:10Z Salt-marsh foraminifera are sea-level proxies used to quantitatively reconstruct Holocene paleo-marsh elevations (PME) and subsequently relative sea level (RSL). The reliability of these reconstructions is partly dependent upon counting enough foraminifera to accurately characterize assemblages, while counting fewer tests allows more samples to be processed. We test the influence of count size on PME reconstructions by repeatedly subsampling foraminiferal assemblages preserved in a core of salt-marsh peat (from Newfoundland, Canada) with unusually large counts (up to 1595). Application of a single, weighted-averaging transfer function developed from a regional-scale modern training set to these ecologically-plausible simulated assemblages generated PME reconstructions at count sizes of 10–700. Reconstructed PMEs stabilize at counts sizes greater than ∼50 and counts exceeding ∼250 tests show little return for the additional time invested. The absence of some rare taxa in low counts is unlikely to markedly influence results from weighted-averaging transfer functions. Subsampling of modern foraminifera indicates that cross-validated transfer function performance shows only modest improvement when more than ∼40 foraminifera are counted. Studies seeking to understand multi-meter and millennial scale RSL trends should count more than ∼50 tests. The precision sought by studies aiming to resolve decimeter- and decadal-scale RSL variability is best achieved with counts greater than ∼75. In most studies seeking to reconstruct PME, effort is more productively allocated by counting relatively fewer foraminifera in more core samples than in counting large numbers of individuals. Target count sizes of 100–300 in existing studies are likely conservative and robust. Given the low diversity of salt-marsh foraminiferal assemblages, our results are likely applicable throughout and beyond north eastern North America. Article in Journal/Newspaper Newfoundland Maynooth University ePrints and eTheses Archive (National University of Ireland) Canada
institution Open Polar
collection Maynooth University ePrints and eTheses Archive (National University of Ireland)
op_collection_id ftunivmaynooth
language English
description Salt-marsh foraminifera are sea-level proxies used to quantitatively reconstruct Holocene paleo-marsh elevations (PME) and subsequently relative sea level (RSL). The reliability of these reconstructions is partly dependent upon counting enough foraminifera to accurately characterize assemblages, while counting fewer tests allows more samples to be processed. We test the influence of count size on PME reconstructions by repeatedly subsampling foraminiferal assemblages preserved in a core of salt-marsh peat (from Newfoundland, Canada) with unusually large counts (up to 1595). Application of a single, weighted-averaging transfer function developed from a regional-scale modern training set to these ecologically-plausible simulated assemblages generated PME reconstructions at count sizes of 10–700. Reconstructed PMEs stabilize at counts sizes greater than ∼50 and counts exceeding ∼250 tests show little return for the additional time invested. The absence of some rare taxa in low counts is unlikely to markedly influence results from weighted-averaging transfer functions. Subsampling of modern foraminifera indicates that cross-validated transfer function performance shows only modest improvement when more than ∼40 foraminifera are counted. Studies seeking to understand multi-meter and millennial scale RSL trends should count more than ∼50 tests. The precision sought by studies aiming to resolve decimeter- and decadal-scale RSL variability is best achieved with counts greater than ∼75. In most studies seeking to reconstruct PME, effort is more productively allocated by counting relatively fewer foraminifera in more core samples than in counting large numbers of individuals. Target count sizes of 100–300 in existing studies are likely conservative and robust. Given the low diversity of salt-marsh foraminiferal assemblages, our results are likely applicable throughout and beyond north eastern North America.
format Article in Journal/Newspaper
author Kemp, Andrew C.
Wright, Alexander J.
Cahill, Niamh
spellingShingle Kemp, Andrew C.
Wright, Alexander J.
Cahill, Niamh
Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
author_facet Kemp, Andrew C.
Wright, Alexander J.
Cahill, Niamh
author_sort Kemp, Andrew C.
title Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
title_short Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
title_full Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
title_fullStr Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
title_full_unstemmed Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation
title_sort enough is enough, or more is more? testing the influence of foraminiferal count size on reconstructions of paleo-marsh elevation
publisher Geo Science World
publishDate 2020
url https://mural.maynoothuniversity.ie/16456/
https://mural.maynoothuniversity.ie/16456/1/NiamhCahillEno2022.pdf
geographic Canada
geographic_facet Canada
genre Newfoundland
genre_facet Newfoundland
op_relation https://mural.maynoothuniversity.ie/16456/1/NiamhCahillEno2022.pdf
Kemp, Andrew C. and Wright, Alexander J. and Cahill, Niamh (2020) Enough is Enough, or More is More? Testing the Influence of Foraminiferal Count Size on Reconstructions of Paleo-Marsh Elevation. Journal of Foraminiferal Research, 50 (3). pp. 266-278. ISSN 0096-1191
_version_ 1766109593838026752

Similar Items