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Global barcoding of the deep-sea snail genus Phymorhynchus reveals surprising distribution ranges and genetic diversity

Global barcoding of the deep-sea snail genus Phymorhynchus reveals surprising distribution ranges and genetic diversity
Global barcoding of the deep-sea snail genus Phymorhynchus reveals surprising distribution ranges and genetic diversity

For rare fauna inhabiting insular habitats, specimens from geographically distant locations are often assumed to be distinct species without a detailed assessment of their genetic diversity. The raphitomid snail genus Phymorhynchus includes a species complex considered endemic to deep-sea hot vents and cold seeps. Despite small morphological differences, existing species hypotheses largely relied on geographic distance to support separation. Here, we present a molecular barcoding study for this complex with a total of 180 specimens sampled across the Atlantic, Pacific and Indian oceans. Our delimitation analyses identified six distinct species supported by morphology, notably egg-capsule characters. They have broader distributions than previously realized, with P. starmeri ranging across the Indo-West Pacific and P. moskalevi apparently cosmopolitan, both showing complex genetic subgroupings. These species are probably also distributed outside vents and seeps, supported by several ambient records. Our results challenge the assumption of fine-scale geographic separation in species inhabiting deep-water insular habitats.

biogeography, Conoidea, DNA barcoding, Gastropoda, Raphitomidae, species delimitation
1744-9561
Zhang, Mouyingke
b04c427d-35f0-4799-9f7b-eb79fc2b1d04
Chen, Chong
3faad3e1-b898-4f4b-b418-9c1736e53f95
Wu, Min
c3b38f95-9bb1-46a6-946b-5245707abb9a
Copley, Jonathan T.
5f30e2a6-76c1-4150-9a42-dcfb8f5788ef
Poitrimol, Camille
42e6412b-94a7-490b-8b62-5655dbf46e75
Alfaro-Lucas, Joan Manel
9c4f9a68-4bf1-4738-9fd6-a3826dffed86
Watanabe, Hiromi Kayama
60f558d9-2bdf-4f8d-87b2-10792bba5d71
Zhang, Ruiyan
f574c6e7-bd20-4d36-bc63-4d4183627e0e
Zhou, Yadong
8795147f-cd8a-45c8-bab8-4f5b8eea9998
Zhang, Mouyingke
b04c427d-35f0-4799-9f7b-eb79fc2b1d04
Chen, Chong
3faad3e1-b898-4f4b-b418-9c1736e53f95
Wu, Min
c3b38f95-9bb1-46a6-946b-5245707abb9a
Copley, Jonathan T.
5f30e2a6-76c1-4150-9a42-dcfb8f5788ef
Poitrimol, Camille
42e6412b-94a7-490b-8b62-5655dbf46e75
Alfaro-Lucas, Joan Manel
9c4f9a68-4bf1-4738-9fd6-a3826dffed86
Watanabe, Hiromi Kayama
60f558d9-2bdf-4f8d-87b2-10792bba5d71
Zhang, Ruiyan
f574c6e7-bd20-4d36-bc63-4d4183627e0e
Zhou, Yadong
8795147f-cd8a-45c8-bab8-4f5b8eea9998

Zhang, Mouyingke, Chen, Chong, Wu, Min, Copley, Jonathan T., Poitrimol, Camille, Alfaro-Lucas, Joan Manel, Watanabe, Hiromi Kayama, Zhang, Ruiyan and Zhou, Yadong (2026) Global barcoding of the deep-sea snail genus Phymorhynchus reveals surprising distribution ranges and genetic diversity. Biology Letters, 22 (4), [20250685]. (doi:10.1098/rsbl.2025.0685).

Record type: Article

Abstract

For rare fauna inhabiting insular habitats, specimens from geographically distant locations are often assumed to be distinct species without a detailed assessment of their genetic diversity. The raphitomid snail genus Phymorhynchus includes a species complex considered endemic to deep-sea hot vents and cold seeps. Despite small morphological differences, existing species hypotheses largely relied on geographic distance to support separation. Here, we present a molecular barcoding study for this complex with a total of 180 specimens sampled across the Atlantic, Pacific and Indian oceans. Our delimitation analyses identified six distinct species supported by morphology, notably egg-capsule characters. They have broader distributions than previously realized, with P. starmeri ranging across the Indo-West Pacific and P. moskalevi apparently cosmopolitan, both showing complex genetic subgroupings. These species are probably also distributed outside vents and seeps, supported by several ambient records. Our results challenge the assumption of fine-scale geographic separation in species inhabiting deep-water insular habitats.

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More information

Accepted/In Press date: 10 February 2026
Published date: 1 April 2026
Additional Information: © 2026 The Authors.
Keywords: biogeography, Conoidea, DNA barcoding, Gastropoda, Raphitomidae, species delimitation
Learn more about the School of Ocean and Earth Science

Identifiers

Local EPrints ID: 511180
URI: http://eprints.soton.ac.uk/id/eprint/511180
DOI: doi:10.1098/rsbl.2025.0685
ISSN: 1744-9561
PURE UUID: e3ac049d-cce3-4700-8243-439ddec8559e
ORCID for Jonathan T. Copley: ORCID iD orcid.org/0000-0003-3333-4325

Catalogue record

Date deposited: 05 May 2026 17:27
Last modified: 06 May 2026 01:34

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Contributors

Author: Mouyingke Zhang
Author: Chong Chen
Author: Min Wu
Author: Jonathan T. Copley ORCID iD
Author: Camille Poitrimol
Author: Joan Manel Alfaro-Lucas
Author: Hiromi Kayama Watanabe
Author: Ruiyan Zhang
Author: Yadong Zhou

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