Erosion regime controls sediment environmental DNA based community reconstruction
Erosion regime controls sediment environmental DNA based community reconstruction
Analysis of environmental DNA detected in lake sediments shows promise to become a great paleoecological technique that can provide detailed information about organism communities living in past environments. However, when interpreting sedimentary environmental DNA records, it is of crucial importance to separate ecosystem responses to large-scale environmental change from “noise” caused by changes in sediment provenance or potential post-depositional DNA mobility. In this study, we show that plant and mammalian communities reconstructed from sediments are strongly affected by sediment provenance, but unaffected by vertical mobility of DNA after sediment deposition. We observe that DNA from aquatic plants was abundant in background sediment, while embedded detrital event layers (sediment deposited under erosion events) primarily contained terrestrial plants; hence, vertical mobility of aquatic plant DNA across sediment layers was negligible within our studied lakes. About 33% of the identified terrestrial plant genera were only found in detrital sediment, suggesting that sediment origin had a strong impact on the reconstructed plant community. Similarly, DNA of some mammalian taxa (Capra hircus, Ursus arctos, Lepus, and Felis) were only or preferentially found in detrital event layers. Temporal changes across the Holocene were the main drivers of change for reconstructed plant communities, but sediment type was the second most important factor of variance. Our results highlight that erosion and sediment provenance need to be considered when reconstructing past mammalian and plant communities using environmental DNA from lake sediments.
1393-1404
Morlock, Marina A.
d466bbf2-a924-4bfa-adfd-cdc23ba382f3
Rodriguez-Martinez, Saúl
11b2345c-60fd-49d4-b630-4ac2e6242e4b
Huang, Doreen Yu-Tuan
1262e2e9-3f09-4572-a1ff-1700467bac7e
Klaminder, Jonatan
baa3bb9c-e105-4fc6-876b-b7c8bdc8deed
25 January 2024
Morlock, Marina A.
d466bbf2-a924-4bfa-adfd-cdc23ba382f3
Rodriguez-Martinez, Saúl
11b2345c-60fd-49d4-b630-4ac2e6242e4b
Huang, Doreen Yu-Tuan
1262e2e9-3f09-4572-a1ff-1700467bac7e
Klaminder, Jonatan
baa3bb9c-e105-4fc6-876b-b7c8bdc8deed
Morlock, Marina A., Rodriguez-Martinez, Saúl, Huang, Doreen Yu-Tuan and Klaminder, Jonatan
(2024)
Erosion regime controls sediment environmental DNA based community reconstruction.
Environmental DNA, 5 (6), .
(doi:10.1002/edn3.458).
Abstract
Analysis of environmental DNA detected in lake sediments shows promise to become a great paleoecological technique that can provide detailed information about organism communities living in past environments. However, when interpreting sedimentary environmental DNA records, it is of crucial importance to separate ecosystem responses to large-scale environmental change from “noise” caused by changes in sediment provenance or potential post-depositional DNA mobility. In this study, we show that plant and mammalian communities reconstructed from sediments are strongly affected by sediment provenance, but unaffected by vertical mobility of DNA after sediment deposition. We observe that DNA from aquatic plants was abundant in background sediment, while embedded detrital event layers (sediment deposited under erosion events) primarily contained terrestrial plants; hence, vertical mobility of aquatic plant DNA across sediment layers was negligible within our studied lakes. About 33% of the identified terrestrial plant genera were only found in detrital sediment, suggesting that sediment origin had a strong impact on the reconstructed plant community. Similarly, DNA of some mammalian taxa (Capra hircus, Ursus arctos, Lepus, and Felis) were only or preferentially found in detrital event layers. Temporal changes across the Holocene were the main drivers of change for reconstructed plant communities, but sediment type was the second most important factor of variance. Our results highlight that erosion and sediment provenance need to be considered when reconstructing past mammalian and plant communities using environmental DNA from lake sediments.
Text
Environmental DNA - 2023 - Morlock - Erosion regime controls sediment environmental DNA‐based community reconstruction
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Accepted/In Press date: 10 July 2023
e-pub ahead of print date: 6 August 2023
Published date: 25 January 2024
Identifiers
Local EPrints ID: 505708
URI: http://eprints.soton.ac.uk/id/eprint/505708
ISSN: 2637-4943
PURE UUID: 18afd0e6-689f-40bb-8221-9250f9bd9125
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Date deposited: 16 Oct 2025 16:58
Last modified: 18 Oct 2025 02:12
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Author:
Marina A. Morlock
Author:
Saúl Rodriguez-Martinez
Author:
Doreen Yu-Tuan Huang
Author:
Jonatan Klaminder
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