Veneridae, a cosmopolitan and ubiquitous family in world-wide littoral environments, lists more than 500 species, many of which are often subject to intensive commercial exploitation due to their numerical dominance in benthic communities. Historically, the family has been divided into 12 subfamilies by M. Keen and, even though this taxonomical arrangement was adopted for convenience and does not necessarily reflect genetic relationships, as suggested by Keen herself, this classification is still accepted. To contribute to clarify the systematics and phylogeny of Veneridae, the portion of the nucleotide sequence corresponding to domains IV and V of the gene encoding the large subunit of mitochondrial ribosomal RNA was analysed in 14 species representative of 10 genera belonging to 6 different subfamilies. The results obtained using the maximum-parsimony and neighbour- joining methods indicate that the current placement of the genera into subfamilies does not always reflect a natural subdivision. In addition, the six species of Tapetinae studied, though confirmed to be a monophyletic clade, do not exhibit a correct attribution at the genus level.
Molecular data from 16S rRNA gene for the phylogeny of Veneridae (Mollusca: Bivalvia)
MAROTA, Isolina;
2003-01-01
Abstract
Veneridae, a cosmopolitan and ubiquitous family in world-wide littoral environments, lists more than 500 species, many of which are often subject to intensive commercial exploitation due to their numerical dominance in benthic communities. Historically, the family has been divided into 12 subfamilies by M. Keen and, even though this taxonomical arrangement was adopted for convenience and does not necessarily reflect genetic relationships, as suggested by Keen herself, this classification is still accepted. To contribute to clarify the systematics and phylogeny of Veneridae, the portion of the nucleotide sequence corresponding to domains IV and V of the gene encoding the large subunit of mitochondrial ribosomal RNA was analysed in 14 species representative of 10 genera belonging to 6 different subfamilies. The results obtained using the maximum-parsimony and neighbour- joining methods indicate that the current placement of the genera into subfamilies does not always reflect a natural subdivision. In addition, the six species of Tapetinae studied, though confirmed to be a monophyletic clade, do not exhibit a correct attribution at the genus level.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.