What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?

Hydrozoans are widely known for their complex life cycles. The life cycle usually includes an asexual benthic polyp, which produces a sexual zooid (gonophore). Here, we performed an extensive analysis of 183 specimens of the hydrozoan genus Sarsia from the White Sea and identified four types of gono...

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Published in:Diversity
Main Authors: Andrey Prudkovsky, Alexandra Vetrova, Stanislav Kremnyov
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2023
Subjects:
hydroid
reduction of medusa
Sarsia lovenii
crossing
genetic polymorphism
gonophore
Medusa
White Sea
Online Access:https://doi.org/10.3390/d15050675
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spelling ftmdpi:oai:mdpi.com:/1424-2818/15/5/675/ 2023-08-20T04:10:19+02:00 What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea? Andrey Prudkovsky Alexandra Vetrova Stanislav Kremnyov agris 2023-05-17 application/pdf https://doi.org/10.3390/d15050675 EN eng Multidisciplinary Digital Publishing Institute Marine Diversity https://dx.doi.org/10.3390/d15050675 https://creativecommons.org/licenses/by/4.0/ Diversity; Volume 15; Issue 5; Pages: 675 hydroid reduction of medusa Sarsia lovenii crossing genetic polymorphism gonophore Text 2023 ftmdpi https://doi.org/10.3390/d15050675 2023-08-01T10:06:16Z Hydrozoans are widely known for their complex life cycles. The life cycle usually includes an asexual benthic polyp, which produces a sexual zooid (gonophore). Here, we performed an extensive analysis of 183 specimens of the hydrozoan genus Sarsia from the White Sea and identified four types of gonophores. We also compared the type of gonophore with haplotypes of the molecular markers COI and ITS. Analysis of COI sequences recovered that the studied specimens related to the species S. tubulosa, S. princeps and S. lovenii, and that the S. lovenii specimens divided into two COI haplogroups. More intraspecific genetic diversity was revealed in the analysis of the ITS sequences. The Sarsia tubulosa specimens divided into two ITS haplotypes, and presumably, hybrid forms between these lineages were found. For S. lovenii, we identified 14 ITS haplotypes as a result of allele separation. Intra-individual genetic polymorphism of the ITS region was most likely associated with intraspecific crossing between the different haplotypes. The diversity of the morphotypes was associated with the genetic diversity of the specimens. Thus, we demonstrated that the morphologically variable species S. lovenii is represented in the White Sea by a network of intensively hybridizing haplotypes. Hybridization affects the morphology and maturation period of gonophores and presumably affects the processes of speciation. Text White Sea MDPI Open Access Publishing Medusa ENVELOPE(157.417,157.417,-79.633,-79.633) White Sea Diversity 15 5 675
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic hydroid
reduction of medusa
Sarsia lovenii
crossing
genetic polymorphism
gonophore
spellingShingle hydroid
reduction of medusa
Sarsia lovenii
crossing
genetic polymorphism
gonophore
Andrey Prudkovsky
Alexandra Vetrova
Stanislav Kremnyov
What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
topic_facet hydroid
reduction of medusa
Sarsia lovenii
crossing
genetic polymorphism
gonophore
description Hydrozoans are widely known for their complex life cycles. The life cycle usually includes an asexual benthic polyp, which produces a sexual zooid (gonophore). Here, we performed an extensive analysis of 183 specimens of the hydrozoan genus Sarsia from the White Sea and identified four types of gonophores. We also compared the type of gonophore with haplotypes of the molecular markers COI and ITS. Analysis of COI sequences recovered that the studied specimens related to the species S. tubulosa, S. princeps and S. lovenii, and that the S. lovenii specimens divided into two COI haplogroups. More intraspecific genetic diversity was revealed in the analysis of the ITS sequences. The Sarsia tubulosa specimens divided into two ITS haplotypes, and presumably, hybrid forms between these lineages were found. For S. lovenii, we identified 14 ITS haplotypes as a result of allele separation. Intra-individual genetic polymorphism of the ITS region was most likely associated with intraspecific crossing between the different haplotypes. The diversity of the morphotypes was associated with the genetic diversity of the specimens. Thus, we demonstrated that the morphologically variable species S. lovenii is represented in the White Sea by a network of intensively hybridizing haplotypes. Hybridization affects the morphology and maturation period of gonophores and presumably affects the processes of speciation.
format Text
author Andrey Prudkovsky
Alexandra Vetrova
Stanislav Kremnyov
author_facet Andrey Prudkovsky
Alexandra Vetrova
Stanislav Kremnyov
author_sort Andrey Prudkovsky
title What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
title_short What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
title_full What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
title_fullStr What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
title_full_unstemmed What Does “ITS” Say about Hybridization in Lineages of Sarsia (Corynidae, Hydrozoa) from the White Sea?
title_sort what does “its” say about hybridization in lineages of sarsia (corynidae, hydrozoa) from the white sea?
publisher Multidisciplinary Digital Publishing Institute
publishDate 2023
url https://doi.org/10.3390/d15050675
op_coverage agris
long_lat ENVELOPE(157.417,157.417,-79.633,-79.633)
geographic Medusa
White Sea
geographic_facet Medusa
White Sea
genre White Sea
genre_facet White Sea
op_source Diversity; Volume 15; Issue 5; Pages: 675
op_relation Marine Diversity
https://dx.doi.org/10.3390/d15050675
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/d15050675
container_title Diversity
container_volume 15
container_issue 5
container_start_page 675
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