Abstract
Shell structure is a crucial aspect of barnacle systematics. Within Tetraclitidae, the diametric and monometric growth patterns and number of rows of parietal tubes in the shells are key characteristics used to infer evolutionary trends. We used molecular analysis based on seven genes (mitochondrial COI, 16S and 12S rRNA, and nuclear EF1, RPII, H3, and 18S rRNA) to test two traditional phylogenetic hypothesis: (1) Tetraclitid barnacles are divided into two major lineages, which are distinguished according to monometric and diametric shell growth patterns, and (2) the evolutionary trend in shell parietal development began with a solid shell, which developed into a single tubiferous shell, which then developed into multitubiferous shells. The results indicated that Tetraclitinae and Newmanellinae are not monophyletic, but that Austrobalaninae and Tetraclitellinae are. The phylogram based on the genetic data suggested that Bathylasmatidae is nested within the Tetraclitidae, forming a sister relationship with the Austrobalaninae and Tetraclitinae/Newmanellinae clade. Within the Tetraclitinae/Newmanellinae clade, the genera Tetraclita (multitubiferous shell), Tesseropora (single tubiferous shell), and Yamaguchiella (multitubiferous shell) are polyphyletic. The results suggested that shell morphology and growth patterns do not reflect the evolutionary history of Tetraclitidae, whereas the arthropodal characteristics are informative.
Original language | English |
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Pages (from-to) | 324-329 |
Number of pages | 6 |
Journal | Molecular Phylogenetics and Evolution |
Volume | 82 |
Issue number | PA |
DOIs | |
State | Published - 1 Jan 2015 |
Bibliographical note
Publisher Copyright:© 2014 Elsevier Inc.
Funding
We thank Dr Lavery (University of Auckland) for providing specimens of Epopella , Dr Kuguro L. Baraka for providing the samples from Tanzania and Zanzibar, and Mrs Sharon Victor, Bar-Ilan University, Israel, and Wallace Academic Editing Ltd., Taiwan, for providing editorial comments on the English of the manuscript. This study was supported by Grants from the Research Grants Council, Hong Kong (Project No. CUHK463509 ), the Research Committee of the Chinese University of Hong Kong (provided to KHC), the Career Development Award from Academia Sinica ( AS-98-CDA-L15 ), and the National Science Council, Taiwan ( NSC103-2621-B-001-002 ; provided to BKKC). The research of LMT was supported by a Grant from the National Science Council, Taiwan ( NSC103-2621-B-019-004-MY2 ), and that of YA was supported by a Grant from the Israel Science Foundation ( 574/10 ).
Funders | Funder number |
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Research Grants Council | CUHK463509 |
National Science Council | NSC103-2621-B-001-002, NSC103-2621-B-019-004-MY2 |
Academia Sinica | AS-98-CDA-L15 |
Israel Science Foundation | 574/10 |
Chinese University of Hong Kong |
Keywords
- Barnacles
- Molecular analysis
- Molecular phylogeny
- Shells