Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)

The genus Protatlanta is thought to be monotypic and is part of the Atlantidae, a family of shelled heteropods. These microscopic planktonic gastropods are poorly known, although research on their ecology is now increasing in response to concerns about the effects of ocean acidification on calcareou...

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Main Authors: Wall-Palmer, D. (Deborah), Burridge, A.K., Peijnenburg, K.T.C.A. (Katja), Janssen, A.W. (Arie), Goetze, E., Kirby, R., Hart, M.B., Smart, C.W.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2016
Subjects:
Atlantic Ocean
biogeography
DNA barcoding
morphometrics
Protatlanta
shelled heteropod
Ocean acidification
Online Access:https://repository.naturalis.nl/pub/619150
id ftnaturalis:oai:repository.naturalis.nl:619150
record_format openpolar
spelling ftnaturalis:oai:repository.naturalis.nl:619150 2024-02-11T10:07:32+01:00 Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea) Wall-Palmer, D. (Deborah) Burridge, A.K. Peijnenburg, K.T.C.A. (Katja) Janssen, A.W. (Arie) Goetze, E. Kirby, R. Hart, M.B. Smart, C.W. 2016-01-01 application/pdf application/vnd.ms-excel https://repository.naturalis.nl/pub/619150 unknown https://repository.naturalis.nl/pub/619150 Contributions to Zoology vol. 85 no. 4, pp. 423-435 Atlantic Ocean biogeography DNA barcoding morphometrics Protatlanta shelled heteropod info:eu-repo/semantics/article 2016 ftnaturalis 2024-01-17T23:22:56Z The genus Protatlanta is thought to be monotypic and is part of the Atlantidae, a family of shelled heteropods. These microscopic planktonic gastropods are poorly known, although research on their ecology is now increasing in response to concerns about the effects of ocean acidification on calcareous plankton. A correctly implemented taxonomy of the Atlantidae is fundamental to this progressing field of research and it requires much attention, particularly using integrated molecular and morphological techniques. Here we use DNA barcoding, shell morphology and biogeography to show that the genus Protatlanta includes at least two valid species in the Atlantic Ocean. Protatlanta souleyeti and Protatlanta sculpta were found to be separate species, with different shell morphology and separated by a K2P genetic distance of 19% sequence divergence at the Cytochrome Oxidase 1 gene. This evidence supports the revival of the species name P. sculpta, which was described by Issel in 1911, but has not been recognised as a valid species since 1915. Article in Journal/Newspaper Ocean acidification Naturalis Institutional Repository
institution Open Polar
collection Naturalis Institutional Repository
op_collection_id ftnaturalis
language unknown
topic Atlantic Ocean
biogeography
DNA barcoding
morphometrics
Protatlanta
shelled heteropod
spellingShingle Atlantic Ocean
biogeography
DNA barcoding
morphometrics
Protatlanta
shelled heteropod
Wall-Palmer, D. (Deborah)
Burridge, A.K.
Peijnenburg, K.T.C.A. (Katja)
Janssen, A.W. (Arie)
Goetze, E.
Kirby, R.
Hart, M.B.
Smart, C.W.
Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
topic_facet Atlantic Ocean
biogeography
DNA barcoding
morphometrics
Protatlanta
shelled heteropod
description The genus Protatlanta is thought to be monotypic and is part of the Atlantidae, a family of shelled heteropods. These microscopic planktonic gastropods are poorly known, although research on their ecology is now increasing in response to concerns about the effects of ocean acidification on calcareous plankton. A correctly implemented taxonomy of the Atlantidae is fundamental to this progressing field of research and it requires much attention, particularly using integrated molecular and morphological techniques. Here we use DNA barcoding, shell morphology and biogeography to show that the genus Protatlanta includes at least two valid species in the Atlantic Ocean. Protatlanta souleyeti and Protatlanta sculpta were found to be separate species, with different shell morphology and separated by a K2P genetic distance of 19% sequence divergence at the Cytochrome Oxidase 1 gene. This evidence supports the revival of the species name P. sculpta, which was described by Issel in 1911, but has not been recognised as a valid species since 1915.
format Article in Journal/Newspaper
author Wall-Palmer, D. (Deborah)
Burridge, A.K.
Peijnenburg, K.T.C.A. (Katja)
Janssen, A.W. (Arie)
Goetze, E.
Kirby, R.
Hart, M.B.
Smart, C.W.
author_facet Wall-Palmer, D. (Deborah)
Burridge, A.K.
Peijnenburg, K.T.C.A. (Katja)
Janssen, A.W. (Arie)
Goetze, E.
Kirby, R.
Hart, M.B.
Smart, C.W.
author_sort Wall-Palmer, D. (Deborah)
title Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
title_short Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
title_full Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
title_fullStr Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
title_full_unstemmed Evidence for the validity of Protatlanta sculpta (Gastropoda: Pterotracheoidea)
title_sort evidence for the validity of protatlanta sculpta (gastropoda: pterotracheoidea)
publishDate 2016
url https://repository.naturalis.nl/pub/619150
genre Ocean acidification
genre_facet Ocean acidification
op_source Contributions to Zoology vol. 85 no. 4, pp. 423-435
op_relation https://repository.naturalis.nl/pub/619150
_version_ 1790606126340898816

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