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Detecting environmentally dependent developmental plasticity in fossilized individuals

Detecting environmentally dependent developmental plasticity in fossilized individuals
Detecting environmentally dependent developmental plasticity in fossilized individuals
The fossil record provides the most powerful evidence of large-scale biodiversity change on Earth, but it does so at coarse and often idiosyncratic temporal scales. One critical problem that arises concerns the evolutionary consequences of individual environmental experience. Individuals respond to their environment instantaneously, whereas the resolution of most fossil records aggregates multiple paleoenvironments over time scales beyond individual lifespans. Therefore, the presence of phenotypic plasticity in deep time and the extent of its influence on macroevolution remain poorly understood. Using coupled computed tomography and laser ablation inductively coupled plasma mass spectrometry protocols, we studied the environmental dependence of developmental trajectories across three sister species of macroperforate planktonic foraminifera. A foraminiferal shell preserves all stages of the individual’s ontogeny, as well as the environmental state experienced throughout its lifetime. Generalized additive mixed effect (GAMM) models show that somatic growth rates differ among the three Menardella species and that these are inversely correlated with calcification temperature, as reconstructed from Mg/Ca measurements through ontogeny. This environmental dependence varies among species: The thermal sensitivity of individual chamber-to-chamber growth rates of Menardella limbata and Menardella pertenuis is double that seen in Menardella exilis. In contrast, no such environmental signal was recovered for architectural shape traits. Our integrated approach is widely applicable and demonstrates that detecting developmental plasticity in the fossil record is feasible. Extrapolating these techniques in deep time promises to revolutionize our understanding of the ways in which environmentally associated trait variation drove the diversification of life on Earth.
Deep time, Developmental plasticity, Reaction norm, planktonic foraminifera, developmental plasticity, reaction norm, deep time
0027-8424
Brombacher, Anieke
2a4bbb84-4743-4a36-973b-4ad2bf743154
Searle-Barnes, Alex
27cd9e5f-9a76-4d3d-8c88-0d3d0b1fad63
Mulqueeney, James M.
20bf3f65-5f1a-4836-bccd-f8c97c6f61ab
Standish, Christopher D.
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Milton, J. Andy
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Katsamenis, Orestis l.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Watson, Richard A.
ce199dfc-d5d4-4edf-bd7b-f9e224c96c75
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Sinclair, Ian
6005f6c1-f478-434e-a52d-d310c18ade0d
Wilson, Paul
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Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
Ezard, Thomas H.G.
a143a893-07d0-4673-a2dd-cea2cd7e1374
Brombacher, Anieke
2a4bbb84-4743-4a36-973b-4ad2bf743154
Searle-Barnes, Alex
27cd9e5f-9a76-4d3d-8c88-0d3d0b1fad63
Mulqueeney, James M.
20bf3f65-5f1a-4836-bccd-f8c97c6f61ab
Standish, Christopher D.
0b996271-da5d-4c4f-9e05-a2ec90e8561d
Milton, J. Andy
9e183221-d0d4-4ddb-aeba-0fdde9d31230
Katsamenis, Orestis l.
8553e7c3-d860-4b7a-a883-abf6c0c4b438
Watson, Richard A.
ce199dfc-d5d4-4edf-bd7b-f9e224c96c75
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Sinclair, Ian
6005f6c1-f478-434e-a52d-d310c18ade0d
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
Ezard, Thomas H.G.
a143a893-07d0-4673-a2dd-cea2cd7e1374

Brombacher, Anieke, Searle-Barnes, Alex, Mulqueeney, James M., Standish, Christopher D., Milton, J. Andy, Katsamenis, Orestis l., Watson, Richard A., Trueman, Clive, Sinclair, Ian, Wilson, Paul, Foster, Gavin L. and Ezard, Thomas H.G. (2025) Detecting environmentally dependent developmental plasticity in fossilized individuals. Proceedings of the National Academy of Sciences, 122 (27), [e2421549122]. (doi:10.1073/pnas.2421549122).

Record type: Article

Abstract

The fossil record provides the most powerful evidence of large-scale biodiversity change on Earth, but it does so at coarse and often idiosyncratic temporal scales. One critical problem that arises concerns the evolutionary consequences of individual environmental experience. Individuals respond to their environment instantaneously, whereas the resolution of most fossil records aggregates multiple paleoenvironments over time scales beyond individual lifespans. Therefore, the presence of phenotypic plasticity in deep time and the extent of its influence on macroevolution remain poorly understood. Using coupled computed tomography and laser ablation inductively coupled plasma mass spectrometry protocols, we studied the environmental dependence of developmental trajectories across three sister species of macroperforate planktonic foraminifera. A foraminiferal shell preserves all stages of the individual’s ontogeny, as well as the environmental state experienced throughout its lifetime. Generalized additive mixed effect (GAMM) models show that somatic growth rates differ among the three Menardella species and that these are inversely correlated with calcification temperature, as reconstructed from Mg/Ca measurements through ontogeny. This environmental dependence varies among species: The thermal sensitivity of individual chamber-to-chamber growth rates of Menardella limbata and Menardella pertenuis is double that seen in Menardella exilis. In contrast, no such environmental signal was recovered for architectural shape traits. Our integrated approach is widely applicable and demonstrates that detecting developmental plasticity in the fossil record is feasible. Extrapolating these techniques in deep time promises to revolutionize our understanding of the ways in which environmentally associated trait variation drove the diversification of life on Earth.

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Accepted/In Press date: 10 June 2025
Published date: 3 July 2025
Keywords: Deep time, Developmental plasticity, Reaction norm, planktonic foraminifera, developmental plasticity, reaction norm, deep time
Learn more about Agents, Interactions and Complexity research Learn more about Institute for Life Sciences research Learn more about Institute for Life Sciences research Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 504159
URI: http://eprints.soton.ac.uk/id/eprint/504159
DOI: doi:10.1073/pnas.2421549122
ISSN: 0027-8424
PURE UUID: 81c284f7-5115-4b52-98d6-d177f0a97252
ORCID for Anieke Brombacher: ORCID iD orcid.org/0000-0003-2310-047X
ORCID for Alex Searle-Barnes: ORCID iD orcid.org/0000-0003-0389-7717
ORCID for James M. Mulqueeney: ORCID iD orcid.org/0000-0003-3502-745X
ORCID for Christopher D. Standish: ORCID iD orcid.org/0000-0002-9726-295X
ORCID for J. Andy Milton: ORCID iD orcid.org/0000-0003-4245-5532
ORCID for Orestis l. Katsamenis: ORCID iD orcid.org/0000-0003-4367-4147
ORCID for Richard A. Watson: ORCID iD orcid.org/0000-0002-2521-8255
ORCID for Clive Trueman: ORCID iD orcid.org/0000-0002-4995-736X
ORCID for Paul Wilson: ORCID iD orcid.org/0000-0001-6425-8906
ORCID for Gavin L. Foster: ORCID iD orcid.org/0000-0003-3688-9668
ORCID for Thomas H.G. Ezard: ORCID iD orcid.org/0000-0001-8305-6605

Catalogue record

Date deposited: 28 Aug 2025 16:36
Last modified: 11 Sep 2025 02:59

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Contributors

Author: Anieke Brombacher ORCID iD
Author: Alex Searle-Barnes ORCID iD
Author: James M. Mulqueeney ORCID iD
Author: Christopher D. Standish ORCID iD
Author: J. Andy Milton ORCID iD
Author: Orestis l. Katsamenis ORCID iD
Author: Richard A. Watson ORCID iD
Author: Clive Trueman ORCID iD
Author: Ian Sinclair
Author: Paul Wilson ORCID iD
Author: Gavin L. Foster ORCID iD
Author: Thomas H.G. Ezard ORCID iD

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