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A genome-skimming phylogeny of ctenostome bryozoans. / Waeschenbach, A.; Zhou, Zichen; Schwaha, Thomas; Okamura, Beth; Gordon, D. P.; Wood, Timothy; Ostrovsky, Andrew N.; Todd, J.A.; Decker, Sebastian; Johnson, Mildred; Al-Ghanem , M.M.; De Blauwe, H.; Florence, W.K.; Graham, Rachael; Hall, Andrea; Hartikainen, Hanna; Jenkins, H.; Kukliński, Piotr; Porter, J. S.; Smith, Abigail M.; Spencer-Jones, M.E.

в: Zoological Journal of the Linnean Society, Том 204, № 3, p.zlaf060, 01.07.2025.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Waeschenbach, A, Zhou, Z, Schwaha, T, Okamura, B, Gordon, DP, Wood, T, Ostrovsky, AN, Todd, JA, Decker, S, Johnson, M, Al-Ghanem , MM, De Blauwe, H, Florence, WK, Graham, R, Hall, A, Hartikainen, H, Jenkins, H, Kukliński, P, Porter, JS, Smith, AM & Spencer-Jones, ME 2025, 'A genome-skimming phylogeny of ctenostome bryozoans', Zoological Journal of the Linnean Society, Том. 204, № 3, p.zlaf060. https://doi.org/10.1093/zoolinnean/zlaf060

APA

Waeschenbach, A., Zhou, Z., Schwaha, T., Okamura, B., Gordon, D. P., Wood, T., Ostrovsky, A. N., Todd, J. A., Decker, S., Johnson, M., Al-Ghanem , M. M., De Blauwe, H., Florence, W. K., Graham, R., Hall, A., Hartikainen, H., Jenkins, H., Kukliński, P., Porter, J. S., ... Spencer-Jones, M. E. (2025). A genome-skimming phylogeny of ctenostome bryozoans. Zoological Journal of the Linnean Society, 204(3), [p.zlaf060]. https://doi.org/10.1093/zoolinnean/zlaf060

Vancouver

Waeschenbach A, Zhou Z, Schwaha T, Okamura B, Gordon DP, Wood T и пр. A genome-skimming phylogeny of ctenostome bryozoans. Zoological Journal of the Linnean Society. 2025 Июль 1;204(3). p.zlaf060. https://doi.org/10.1093/zoolinnean/zlaf060

Author

Waeschenbach, A. ; Zhou, Zichen ; Schwaha, Thomas ; Okamura, Beth ; Gordon, D. P. ; Wood, Timothy ; Ostrovsky, Andrew N. ; Todd, J.A. ; Decker, Sebastian ; Johnson, Mildred ; Al-Ghanem , M.M. ; De Blauwe, H. ; Florence, W.K. ; Graham, Rachael ; Hall, Andrea ; Hartikainen, Hanna ; Jenkins, H. ; Kukliński, Piotr ; Porter, J. S. ; Smith, Abigail M. ; Spencer-Jones, M.E. / A genome-skimming phylogeny of ctenostome bryozoans. в: Zoological Journal of the Linnean Society. 2025 ; Том 204, № 3.

BibTeX

@article{04188c5f005b4aeeb96940b97109699f,
title = "A genome-skimming phylogeny of ctenostome bryozoans",
abstract = "Ctenostome bryozoans pose ongoing challenges for taxonomists and systematists, owing to their lack of character-rich mineralized skeletons. We present the largest (super)family-level phylogeny of Ctenostomatida to date. We resolved the three major clades (A–C) that were recognized previously. Clade A included endolithic taxa Penetrantiidae, Immergentiidae, and Terebripora ramosa, the latter two being sister taxa. Other taxa in this clade were Nolella, Arachnidium, Pottsiella, and Paludicella. Clade B was composed of Alcyonidioidea and Multiporata. The genus Alcyonidium was revealed as non-monophyletic, with the two recovered clades likely to be characterized by contrasting reproductive modes (brooding and zygote spawning). Members of the presumptive brooding clade had insertions of possible exogenous origin in their 18S and 28S ribosomal RNA genes, which might be the result of horizontal gene transfer. Clade C was sister to the Cheilostomatida and was composed of Vesicularioidea, Hislopioidea, Walkerioidea, and three clades of Victorellidae. Anguinella and Hypophorella were consistently sister taxa, but their position was unstable. Results are discussed in light of morphology, reproduction, and previous phylogenetic hypotheses. A revised classification is proposed. Timwoodiellina natans is transferred to Hislopia, Vesicularia spinosa to Amathia, and Monobryozoon ambulans to Alcyonidium. Members of the putative zygote-spawning Alcyonidium clade are transferred to Alcyonidioides in the family Alcyonidioididae.",
keywords = "Bryozoa, Ctenostomatida, colonial invertebrates, horizontal gene transfer, mitochondrial genome, mitogenome",
author = "A. Waeschenbach and Zichen Zhou and Thomas Schwaha and Beth Okamura and Gordon, {D. P.} and Timothy Wood and Ostrovsky, {Andrew N.} and J.A. Todd and Sebastian Decker and Mildred Johnson and M.M. Al-Ghanem and {De Blauwe}, H. and W.K. Florence and Rachael Graham and Andrea Hall and Hanna Hartikainen and H. Jenkins and Piotr Kukli{\'n}ski and Porter, {J. S.} and Smith, {Abigail M.} and M.E. Spencer-Jones",
year = "2025",
month = jul,
day = "1",
doi = "10.1093/zoolinnean/zlaf060",
language = "English",
volume = "204",
journal = "Zoological Journal of the Linnean Society",
issn = "0024-4082",
publisher = "Wiley-Blackwell",
number = "3",

}

RIS

TY - JOUR

T1 - A genome-skimming phylogeny of ctenostome bryozoans

AU - Waeschenbach, A.

AU - Zhou, Zichen

AU - Schwaha, Thomas

AU - Okamura, Beth

AU - Gordon, D. P.

AU - Wood, Timothy

AU - Ostrovsky, Andrew N.

AU - Todd, J.A.

AU - Decker, Sebastian

AU - Johnson, Mildred

AU - Al-Ghanem , M.M.

AU - De Blauwe, H.

AU - Florence, W.K.

AU - Graham, Rachael

AU - Hall, Andrea

AU - Hartikainen, Hanna

AU - Jenkins, H.

AU - Kukliński, Piotr

AU - Porter, J. S.

AU - Smith, Abigail M.

AU - Spencer-Jones, M.E.

PY - 2025/7/1

Y1 - 2025/7/1

N2 - Ctenostome bryozoans pose ongoing challenges for taxonomists and systematists, owing to their lack of character-rich mineralized skeletons. We present the largest (super)family-level phylogeny of Ctenostomatida to date. We resolved the three major clades (A–C) that were recognized previously. Clade A included endolithic taxa Penetrantiidae, Immergentiidae, and Terebripora ramosa, the latter two being sister taxa. Other taxa in this clade were Nolella, Arachnidium, Pottsiella, and Paludicella. Clade B was composed of Alcyonidioidea and Multiporata. The genus Alcyonidium was revealed as non-monophyletic, with the two recovered clades likely to be characterized by contrasting reproductive modes (brooding and zygote spawning). Members of the presumptive brooding clade had insertions of possible exogenous origin in their 18S and 28S ribosomal RNA genes, which might be the result of horizontal gene transfer. Clade C was sister to the Cheilostomatida and was composed of Vesicularioidea, Hislopioidea, Walkerioidea, and three clades of Victorellidae. Anguinella and Hypophorella were consistently sister taxa, but their position was unstable. Results are discussed in light of morphology, reproduction, and previous phylogenetic hypotheses. A revised classification is proposed. Timwoodiellina natans is transferred to Hislopia, Vesicularia spinosa to Amathia, and Monobryozoon ambulans to Alcyonidium. Members of the putative zygote-spawning Alcyonidium clade are transferred to Alcyonidioides in the family Alcyonidioididae.

AB - Ctenostome bryozoans pose ongoing challenges for taxonomists and systematists, owing to their lack of character-rich mineralized skeletons. We present the largest (super)family-level phylogeny of Ctenostomatida to date. We resolved the three major clades (A–C) that were recognized previously. Clade A included endolithic taxa Penetrantiidae, Immergentiidae, and Terebripora ramosa, the latter two being sister taxa. Other taxa in this clade were Nolella, Arachnidium, Pottsiella, and Paludicella. Clade B was composed of Alcyonidioidea and Multiporata. The genus Alcyonidium was revealed as non-monophyletic, with the two recovered clades likely to be characterized by contrasting reproductive modes (brooding and zygote spawning). Members of the presumptive brooding clade had insertions of possible exogenous origin in their 18S and 28S ribosomal RNA genes, which might be the result of horizontal gene transfer. Clade C was sister to the Cheilostomatida and was composed of Vesicularioidea, Hislopioidea, Walkerioidea, and three clades of Victorellidae. Anguinella and Hypophorella were consistently sister taxa, but their position was unstable. Results are discussed in light of morphology, reproduction, and previous phylogenetic hypotheses. A revised classification is proposed. Timwoodiellina natans is transferred to Hislopia, Vesicularia spinosa to Amathia, and Monobryozoon ambulans to Alcyonidium. Members of the putative zygote-spawning Alcyonidium clade are transferred to Alcyonidioides in the family Alcyonidioididae.

KW - Bryozoa

KW - Ctenostomatida

KW - colonial invertebrates

KW - horizontal gene transfer

KW - mitochondrial genome

KW - mitogenome

UR - https://www.mendeley.com/catalogue/89060ff2-f690-3c2a-be7c-7b1da4374c07/

U2 - 10.1093/zoolinnean/zlaf060

DO - 10.1093/zoolinnean/zlaf060

M3 - Article

VL - 204

JO - Zoological Journal of the Linnean Society

JF - Zoological Journal of the Linnean Society

SN - 0024-4082

IS - 3

M1 - p.zlaf060

ER -

ID: 142089980