Research output: Contribution to journal › Article › peer-review
Green fluorescence patterns in closely related symbiotic species of zanclea (Hydrozoa, Capitata). / Maggioni, Davide; Saponari, Luca; Seveso, Davide; Galli, Paolo; Schiavo, Andrea; Ostrovsky, Andrew N.; Montano, Simone.
In: Diversity, Vol. 12, No. 2, 78, 01.02.2020.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Green fluorescence patterns in closely related symbiotic species of zanclea (Hydrozoa, Capitata)
AU - Maggioni, Davide
AU - Saponari, Luca
AU - Seveso, Davide
AU - Galli, Paolo
AU - Schiavo, Andrea
AU - Ostrovsky, Andrew N.
AU - Montano, Simone
N1 - Publisher Copyright: © 2020 by the authors.
PY - 2020/2/1
Y1 - 2020/2/1
N2 - Green fluorescence is a common phenomenon in marine invertebrates and is caused by green fluorescent proteins. Many hydrozoan species display fluorescence in their polyps and/or medusa stages, and in a few cases patterns of green fluorescence have been demonstrated to differ between closely related species. Hydrozoans are often characterized by the presence of cryptic species, due to the paucity of available morphological diagnostic characters. Zanclea species are not an exception, showing high genetic divergence compared to a uniform morphology. In this work, the presence of green fluorescence and the morpho-molecular diversity of six coral-and bryozoan-associated Zanclea species from the Maldivian coral reefs were investigated. Specifically, the presence of green fluorescence in polyps and newly released medusae was explored, the general morphology, as well as the cnidomc and the interaction with the hosts, were characterized, and the 16S rRNA region was sequenced and analyzed. Overall, Zanclea species showed a similar morphology, with little differences in the general morphological features and in the cnidome. Three of the analyzed species did not show any fluorescence in both life stages. Three other Zanclea species, including two coral-associated cryptic species, were distinguished by species-specific fluorescence patterns in the medusae. Altogether, the results confirmed the morphological similarity despite high genetic divergence in Zanclea species and indicated that fluorescence patterns may be a promising tool in further discriminating closely related and cryptic species. Therefore, the assessment of fluorescence at a large scale in the whole Zancleidae family may be useful to shed light on the diversity of this enigmatic taxon.
AB - Green fluorescence is a common phenomenon in marine invertebrates and is caused by green fluorescent proteins. Many hydrozoan species display fluorescence in their polyps and/or medusa stages, and in a few cases patterns of green fluorescence have been demonstrated to differ between closely related species. Hydrozoans are often characterized by the presence of cryptic species, due to the paucity of available morphological diagnostic characters. Zanclea species are not an exception, showing high genetic divergence compared to a uniform morphology. In this work, the presence of green fluorescence and the morpho-molecular diversity of six coral-and bryozoan-associated Zanclea species from the Maldivian coral reefs were investigated. Specifically, the presence of green fluorescence in polyps and newly released medusae was explored, the general morphology, as well as the cnidomc and the interaction with the hosts, were characterized, and the 16S rRNA region was sequenced and analyzed. Overall, Zanclea species showed a similar morphology, with little differences in the general morphological features and in the cnidome. Three of the analyzed species did not show any fluorescence in both life stages. Three other Zanclea species, including two coral-associated cryptic species, were distinguished by species-specific fluorescence patterns in the medusae. Altogether, the results confirmed the morphological similarity despite high genetic divergence in Zanclea species and indicated that fluorescence patterns may be a promising tool in further discriminating closely related and cryptic species. Therefore, the assessment of fluorescence at a large scale in the whole Zancleidae family may be useful to shed light on the diversity of this enigmatic taxon.
KW - Bryozoans
KW - Corals
KW - Integrative taxonomy
KW - Maldives
KW - Phylogeny
KW - Symbiosis
UR - http://www.scopus.com/inward/record.url?scp=85080950747&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/8c8c0356-cb21-3271-ae68-792404da8bb1/
U2 - 10.3390/d12020078
DO - 10.3390/d12020078
M3 - Article
AN - SCOPUS:85080950747
VL - 12
JO - Diversity
JF - Diversity
SN - 1424-2818
IS - 2
M1 - 78
ER -
ID: 51348048