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The Sphaeriidae represent one of the primary molluscan radiations into freshwater environments. We have reconstructed phylogenetic relationships of the Sphaeriinae, a cosmopolitan sphaeriid subfamily, using variation in nuclear ribosomal first internal transcribed spacer (ITS-1) and mitochondrial large ribosomal subunit (16S) gene fragments. A total of 38 New World, Eurasian and Antipodean taxa were characterized, including all primary taxonomic groupings except for Neopisidium , and members of the sister clade Euperinae were employed as outgroups. Phylogenetic analyses of individual and combined (16S + ITS1) datasets all recovered a paraphyletic Pisidium and a derived clade of asynchronous brooding Sphaerium / Musculium taxa. Maximum parsimony as well as maximum likelihood analyses of combined data yielded largely congruent and well-resolved topologies, and robustly supported clades were utilized to revise current sphaeriine taxonomy. Instead of the traditionally accepted three cosmopolitan genera, Pisidium s.l. , Musculium , and Sphaerium , five major monophyletic lineages, Afropisidium , Odhneripisidium , Pisidium , Cyclocalyx and Sphaerium , were recognized at the generic level. In addition, a number of subgeneric level groups were recovered in Sphaerium : Herringtonium , Sphaerium s . s ., Sphaerinova , Amesoda , and Musculium , together with one unassigned species, S. transversum . 相似文献
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Allozyme variation of a Mysella tumida population in PatriciaBay, B.C., Canada was investigated at the phosphoglucomutase(PGM) locus. Seven alleles were detected. The observed frequencyof allelic combinations did not differ significantly from randommating expectations (0.25 < P < 0.50), however, heterozygositylevels were slightly greater than expected (Selander's D = 0.022).These results, together with previous work on the M. tumidareproductive cycle, indicate that natural populations of thisbivalve rarely, if ever, self-fertilize.
*Present Address: Friday Harbor Laboratories, University ofWashington, Friday Harbor, WA 98250, U.S.A.
**Present Address: Museum of Zoology, University of Michigan,Ann Arbor, M1 48109, U.S.A. (Received 30 December 1986; 相似文献
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DIARMAID Ó FOIGHIL CATHERINE. THIRIOT-QUIÉVREUX 《Zoological Journal of the Linnean Society》1999,127(4):477-494
The cosmopolitan marine bivalve genus Lasaea is predominantly composed of highly polyploid asexual lineages with one exception: the diploid, sexual Australian species L. australis. Two undescribed, direct-developing congeners co-occur with the indirect-developing L. australis on the rocky intertidal of southeastern Australia. One of these, L. colmani sp. nov., is also diploid and sexual. The other direct-developing congener is an asexual polyploid composed of a variety of clonal lineages. All three sympatric Australian Lasaea congeners are morphologically distinguishable, although prodissoconch distinctions are required to separate large polyploid clams from equivalently-sized L. australis. Similarities in mitochondrial gene sequence and in shell morphology suggest that L. australis and the Australian sympatric polyploid clones share an exclusive common ancestor despite differing in developmental mode, ploidy and reproductive mode. However, detailed karyological analyses failed to identify a chromosome set morphologically similar to that of L. australis among the sympatric Australian polypoid complement. We propose that generation of the polyploid Australian clones (presumably by hybridization) was followed by radical karyological rearrangement. 相似文献
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