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Evolutionary convergence and trophic diversity in hot vent and cold seep shrimps showcase a continuum of symbiosis

Evolutionary convergence and trophic diversity in hot vent and cold seep shrimps showcase a continuum of symbiosis
Evolutionary convergence and trophic diversity in hot vent and cold seep shrimps showcase a continuum of symbiosis

Convergent evolution offers a powerful lens through which to examine the selective forces shaping life in extreme environments. In deep-sea hot vents and cold seeps, invertebrates have independently evolved symbioses with chemosynthetic bacteria, but repeated origins of such associations within a family remain rare. Here, we investigate the evolutionary emergence of chemosymbiosis in the shrimp family Alvinocarididae across 22 species collected globally. Electron microscopy identified a gradient of epibiotic bacterial colonization within the cephalothoracic cavity, ranging from absent to dense filamentous mats, suggesting distinct trophic strategies. Isotope and lipid trophic markers confirmed differences in reliance on chemosynthetic production among sympatric species with different bacterial colonization from a single vent. Phylogenetic analysis reveals at least two independent origins of chemosymbiosis, suggesting evolutionary convergence. Microhabitat association data further show that symbiotic phenotypes are most common in shrimps occupying the hottest, most geofluid-enriched microhabitats, though exceptions suggest contributions from additional ecological or physiological constraints. Our findings reveal many alvinocaridids as gradually evolving towards reliance on symbiosis, highlighting the importance of intermediate cases to understand the pathways to chemosymbiosis. This study contributes to a broader understanding of the predictability of evolutionary outcomes in dynamic habitats such as vents, with broader implications for resilience of deep-sea ecosystems.

Alvinocarididae, chemosynthesis, evolutionary convergence, hydrothermal vents, symbiosis, trophic ecology
0962-8452
Methou, Pierre
dbd1cacc-e548-41c1-a33f-77ac83eca374
Mathieu-Resuge, Margaux
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Michel, Loïc N.
80e7dd68-95bf-4ccd-93e9-924458349f0a
Cueff-Gauchard, Valérie
ef08017c-641e-4823-8d1f-213822ac892c
Watanabe, Hiromi Kayama
60f558d9-2bdf-4f8d-87b2-10792bba5d71
Cowell, Emily J.
fa2122a6-386d-43e2-ae0e-8c0f954e9c94
Copley, Jonathan T.
5f30e2a6-76c1-4150-9a42-dcfb8f5788ef
Beinart, Roxanne A.
26fb43cc-79fe-4cc3-a44c-0cb4057f7a17
Zbinden, Magali
68483a40-22ea-49d8-829e-73a9712d319e
Pradillon, Florence
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Cambon, Marie Anne
13ead15d-864c-4c43-aa18-b96399ce942a
Chen, Chong
3faad3e1-b898-4f4b-b418-9c1736e53f95
Methou, Pierre
dbd1cacc-e548-41c1-a33f-77ac83eca374
Mathieu-Resuge, Margaux
5e6a3c6e-66f6-43f9-9906-72eb222672e5
Michel, Loïc N.
80e7dd68-95bf-4ccd-93e9-924458349f0a
Cueff-Gauchard, Valérie
ef08017c-641e-4823-8d1f-213822ac892c
Watanabe, Hiromi Kayama
60f558d9-2bdf-4f8d-87b2-10792bba5d71
Cowell, Emily J.
fa2122a6-386d-43e2-ae0e-8c0f954e9c94
Copley, Jonathan T.
5f30e2a6-76c1-4150-9a42-dcfb8f5788ef
Beinart, Roxanne A.
26fb43cc-79fe-4cc3-a44c-0cb4057f7a17
Zbinden, Magali
68483a40-22ea-49d8-829e-73a9712d319e
Pradillon, Florence
f0623aca-40be-488b-bfd4-e21777d19816
Cambon, Marie Anne
13ead15d-864c-4c43-aa18-b96399ce942a
Chen, Chong
3faad3e1-b898-4f4b-b418-9c1736e53f95

Methou, Pierre, Mathieu-Resuge, Margaux, Michel, Loïc N., Cueff-Gauchard, Valérie, Watanabe, Hiromi Kayama, Cowell, Emily J., Copley, Jonathan T., Beinart, Roxanne A., Zbinden, Magali, Pradillon, Florence, Cambon, Marie Anne and Chen, Chong (2026) Evolutionary convergence and trophic diversity in hot vent and cold seep shrimps showcase a continuum of symbiosis. Proceedings of the Royal Society B: Biological Sciences, 293 (2064). (doi:10.1098/rspb.2025.2883).

Record type: Article

Abstract

Convergent evolution offers a powerful lens through which to examine the selective forces shaping life in extreme environments. In deep-sea hot vents and cold seeps, invertebrates have independently evolved symbioses with chemosynthetic bacteria, but repeated origins of such associations within a family remain rare. Here, we investigate the evolutionary emergence of chemosymbiosis in the shrimp family Alvinocarididae across 22 species collected globally. Electron microscopy identified a gradient of epibiotic bacterial colonization within the cephalothoracic cavity, ranging from absent to dense filamentous mats, suggesting distinct trophic strategies. Isotope and lipid trophic markers confirmed differences in reliance on chemosynthetic production among sympatric species with different bacterial colonization from a single vent. Phylogenetic analysis reveals at least two independent origins of chemosymbiosis, suggesting evolutionary convergence. Microhabitat association data further show that symbiotic phenotypes are most common in shrimps occupying the hottest, most geofluid-enriched microhabitats, though exceptions suggest contributions from additional ecological or physiological constraints. Our findings reveal many alvinocaridids as gradually evolving towards reliance on symbiosis, highlighting the importance of intermediate cases to understand the pathways to chemosymbiosis. This study contributes to a broader understanding of the predictability of evolutionary outcomes in dynamic habitats such as vents, with broader implications for resilience of deep-sea ecosystems.

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More information

Accepted/In Press date: 23 December 2025
Published date: 11 February 2026
Additional Information: Publisher Copyright: © 2026 The Authors.
Keywords: Alvinocarididae, chemosynthesis, evolutionary convergence, hydrothermal vents, symbiosis, trophic ecology

Identifiers

Local EPrints ID: 510295
URI: http://eprints.soton.ac.uk/id/eprint/510295
DOI: doi:10.1098/rspb.2025.2883
ISSN: 0962-8452
PURE UUID: 7b9db001-1b72-4b0e-8f12-dfe3985d6931
ORCID for Jonathan T. Copley: ORCID iD orcid.org/0000-0003-3333-4325

Catalogue record

Date deposited: 24 Mar 2026 17:55
Last modified: 25 Mar 2026 02:34

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Contributors

Author: Pierre Methou
Author: Margaux Mathieu-Resuge
Author: Loïc N. Michel
Author: Valérie Cueff-Gauchard
Author: Hiromi Kayama Watanabe
Author: Emily J. Cowell
Author: Jonathan T. Copley ORCID iD
Author: Roxanne A. Beinart
Author: Magali Zbinden
Author: Florence Pradillon
Author: Marie Anne Cambon
Author: Chong Chen

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