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Ideas and perspectives: How sediment archives can improve model projections of marine ecosystem change

Ideas and perspectives: How sediment archives can improve model projections of marine ecosystem change
Ideas and perspectives: How sediment archives can improve model projections of marine ecosystem change
Global warming is a major threat to marine biodiversity and ecosystem functioning, with consequences that are yet largely unknown. To frame these consequences, we need to understand how marine ecosystems respond to warming and related environmental changes. Ecosystem models have proven to be a valuable tool in this respect, but their projections vary considerably. A major limitation in current ecosystem models may be that they largely ignore evolutionary processes, which nonetheless can be relevant on the simulated timescales. In addition, ecosystem models are usually fit to contemporary data and used predictively afterwards, without further validation that they are equally applicable to past (and, by inference, future) scenarios. A promising approach to validate evolutionary ecosystem models is the use of biological archives such as natural sediments, which record long-term ecosystem changes. Since the ecosystem changes present in sediment records are affected by evolution, evolution needs to be represented in ecosystem models not only to realistically simulate the future, but also the sediment record itself. The sediment record, in turn, can provide the required constraints on long-term evolutionary changes, along with information on past environmental conditions, biodiversity, and relative abundances of taxa. Here, we present a framework to make use of such information to validate evolutionary ecosystem models and improve model projections of future ecosystem changes. Using the example of phytoplankton, key players in marine systems, we review the existing literature and discuss (I) which data can be derived from ancient sedimentary archives, (II) how we can integrate these data into evolutionary ecosystem models to improve their projections of climate-driven ecosystem changes, and (III) future perspectives and aspects that remain challenging.
1726-4170
2363-2380
Hochfeld, Isabell
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Ward, Ben A.
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Kremp, Anke
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Romahn, Juliane
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Schmidt, Alexandra
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Bálint, Miklós
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Becks, Lutz
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Kaiser, Jérôme
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Arz, Helge W.
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Bolius, Sarah
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Epp, Laura Saskia
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Pfenninger, Markus
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Klausmeier, Christopher A.
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Litchman, Elena
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Hinners, Jana
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Hochfeld, Isabell
9a24be6b-439a-4cbb-9ec2-eebd510d540b
Ward, Ben A.
9063af30-e344-4626-9470-8db7c1543d05
Kremp, Anke
422db5f9-0c71-4ba2-a24a-3a17b0dc6752
Romahn, Juliane
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Schmidt, Alexandra
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Bálint, Miklós
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Becks, Lutz
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Kaiser, Jérôme
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Arz, Helge W.
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Bolius, Sarah
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Epp, Laura Saskia
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Pfenninger, Markus
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Klausmeier, Christopher A.
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Litchman, Elena
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Hinners, Jana
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Hochfeld, Isabell, Ward, Ben A., Kremp, Anke, Romahn, Juliane, Schmidt, Alexandra, Bálint, Miklós, Becks, Lutz, Kaiser, Jérôme, Arz, Helge W., Bolius, Sarah, Epp, Laura Saskia, Pfenninger, Markus, Klausmeier, Christopher A., Litchman, Elena and Hinners, Jana (2025) Ideas and perspectives: How sediment archives can improve model projections of marine ecosystem change. Biogeosciences, 22 (10), 2363-2380. (doi:10.5194/bg-22-2363-2025).

Record type: Article

Abstract

Global warming is a major threat to marine biodiversity and ecosystem functioning, with consequences that are yet largely unknown. To frame these consequences, we need to understand how marine ecosystems respond to warming and related environmental changes. Ecosystem models have proven to be a valuable tool in this respect, but their projections vary considerably. A major limitation in current ecosystem models may be that they largely ignore evolutionary processes, which nonetheless can be relevant on the simulated timescales. In addition, ecosystem models are usually fit to contemporary data and used predictively afterwards, without further validation that they are equally applicable to past (and, by inference, future) scenarios. A promising approach to validate evolutionary ecosystem models is the use of biological archives such as natural sediments, which record long-term ecosystem changes. Since the ecosystem changes present in sediment records are affected by evolution, evolution needs to be represented in ecosystem models not only to realistically simulate the future, but also the sediment record itself. The sediment record, in turn, can provide the required constraints on long-term evolutionary changes, along with information on past environmental conditions, biodiversity, and relative abundances of taxa. Here, we present a framework to make use of such information to validate evolutionary ecosystem models and improve model projections of future ecosystem changes. Using the example of phytoplankton, key players in marine systems, we review the existing literature and discuss (I) which data can be derived from ancient sedimentary archives, (II) how we can integrate these data into evolutionary ecosystem models to improve their projections of climate-driven ecosystem changes, and (III) future perspectives and aspects that remain challenging.

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bg-22-2363-2025 - Version of Record
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Accepted/In Press date: 17 February 2025
Published date: 19 May 2025

Identifiers

Local EPrints ID: 501486
URI: http://eprints.soton.ac.uk/id/eprint/501486
DOI: doi:10.5194/bg-22-2363-2025
ISSN: 1726-4170
PURE UUID: 1e91f25e-6f44-42c5-b8e0-dbf29e182939
ORCID for Ben A. Ward: ORCID iD orcid.org/0000-0003-1290-8270

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Date deposited: 02 Jun 2025 16:57
Last modified: 22 Aug 2025 02:24

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Contributors

Author: Isabell Hochfeld
Author: Ben A. Ward ORCID iD
Author: Anke Kremp
Author: Juliane Romahn
Author: Alexandra Schmidt
Author: Miklós Bálint
Author: Lutz Becks
Author: Jérôme Kaiser
Author: Helge W. Arz
Author: Sarah Bolius
Author: Laura Saskia Epp
Author: Markus Pfenninger
Author: Christopher A. Klausmeier
Author: Elena Litchman
Author: Jana Hinners

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