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Rapid enumeration of rare microscopic particles in sedimentary archives using imaging flow cytometry

Rapid enumeration of rare microscopic particles in sedimentary archives using imaging flow cytometry
Rapid enumeration of rare microscopic particles in sedimentary archives using imaging flow cytometry
The accurate enumeration of microscopic particles is essential for deriving a wide range of climate proxies from sedimentary archives. Traditionally, particle counts require visual examination by microscopy, a time-consuming process that often analyses a small aliquot of the total sample material. As a result, rare particle populations and fine-scale variability are often poorly constrained, as a fast method to count an entire sample remains elusive. Here, we present a flow cytometric approach that enables the near-complete quantification of rare particle populations using high-throughput, multispectral imaging. We demonstrate this method using fossil pollen obtained from 0.5 cm3 peat core samples collected from the Falkland Islands. Analysis takes less than 2 hours per sample and images nearly all the particulate matter. These improvements in speed and precision facilitate the detection of smaller-scale fluctuations as well as the robust quantification of rare particle types. Using an isopycnic approach, we further show that this method can accurately track non-native, wind-blown pollen species that constitute <1% of the assemblage. Imaging flow cytometry can thus reveal changes that are impractical to find manually, expanding the range and resolution of climate proxies obtainable from sedimentary records.
Forman, Edward
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Thomas, Zoë
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Power, Ann
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Hughes, Paul
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Peaple, Mark
a877c91b-a0a7-4d00-b9fd-4dca3443c06c
Love, John
ca592e85-0169-4e68-9112-53ff530c2bf9
Scaife, Rob
b258b25f-818e-4f20-aad8-bc17e170e6b5
Reeves, Emma J
6a834ffb-6e81-4f04-bdd2-175b64979125
Forman, Edward
f4e08653-603c-425c-b718-2b3bb761ce9f
Thomas, Zoë
4b512d3a-3478-4270-9fdd-61256aa640d3
Power, Ann
94a9050b-e130-496a-bbcf-b94892980b6e
Hughes, Paul
14f83168-b203-4a91-a850-8c48535dc31b
Peaple, Mark
a877c91b-a0a7-4d00-b9fd-4dca3443c06c
Love, John
ca592e85-0169-4e68-9112-53ff530c2bf9
Scaife, Rob
b258b25f-818e-4f20-aad8-bc17e170e6b5
Reeves, Emma J
6a834ffb-6e81-4f04-bdd2-175b64979125

Forman, Edward, Thomas, Zoë, Power, Ann, Hughes, Paul, Peaple, Mark, Love, John, Scaife, Rob and Reeves, Emma J (2026) Rapid enumeration of rare microscopic particles in sedimentary archives using imaging flow cytometry. In EGU General Assembly 2026. (doi:10.5194/egusphere-egu26-9806).

Record type: Conference or Workshop Item (Paper)

Abstract

The accurate enumeration of microscopic particles is essential for deriving a wide range of climate proxies from sedimentary archives. Traditionally, particle counts require visual examination by microscopy, a time-consuming process that often analyses a small aliquot of the total sample material. As a result, rare particle populations and fine-scale variability are often poorly constrained, as a fast method to count an entire sample remains elusive. Here, we present a flow cytometric approach that enables the near-complete quantification of rare particle populations using high-throughput, multispectral imaging. We demonstrate this method using fossil pollen obtained from 0.5 cm3 peat core samples collected from the Falkland Islands. Analysis takes less than 2 hours per sample and images nearly all the particulate matter. These improvements in speed and precision facilitate the detection of smaller-scale fluctuations as well as the robust quantification of rare particle types. Using an isopycnic approach, we further show that this method can accurately track non-native, wind-blown pollen species that constitute <1% of the assemblage. Imaging flow cytometry can thus reveal changes that are impractical to find manually, expanding the range and resolution of climate proxies obtainable from sedimentary records.

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More information

Published date: 14 March 2026
Venue - Dates: EGU 2026, , Vienna, Austria, 2026-05-03 - 2026-05-08
Learn more about the Southampton Marine and Maritime Institute Learn more about the School of Geography and Environmental Sciences

Identifiers

Local EPrints ID: 510743
URI: http://eprints.soton.ac.uk/id/eprint/510743
DOI: doi:10.5194/egusphere-egu26-9806
PURE UUID: 511cf511-72c9-4fcd-844b-aadb66f923fc
ORCID for Edward Forman: ORCID iD orcid.org/0009-0000-7350-1920
ORCID for Zoë Thomas: ORCID iD orcid.org/0000-0002-2323-4366
ORCID for Paul Hughes: ORCID iD orcid.org/0000-0002-8447-382X
ORCID for Mark Peaple: ORCID iD orcid.org/0000-0002-4208-0104

Catalogue record

Date deposited: 21 Apr 2026 16:32
Last modified: 25 Apr 2026 04:06

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Contributors

Author: Edward Forman ORCID iD
Author: Zoë Thomas ORCID iD
Author: Ann Power
Author: Paul Hughes ORCID iD
Author: Mark Peaple ORCID iD
Author: John Love
Author: Rob Scaife
Author: Emma J Reeves

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