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Phylogeny reconstruction and the tempo of speciation in cheilostome Bryozoa
We compared phylogenies derived from morphological data for two cheilostome bryozoan genera, Stylopoma and Metrarabdotos, with genetic differences between species (Stylopoma) and the stratigraphic occurrence of fossils (both genera). Correspondence between species of Stylopoma defined by protein ele...
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Published in: | Paleobiology 1994, Vol.20 (4), p.407-423 |
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Main Authors: | , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | We compared phylogenies derived from morphological data for two cheilostome bryozoan genera, Stylopoma and Metrarabdotos, with genetic differences between species (Stylopoma) and the stratigraphic occurrence of fossils (both genera). Correspondence between species of Stylopoma defined by protein electrophoresis and on preservable skeletal morphology is excellent, despite great morphological variability within colonies and the predominance of quantitative over discrete characters. Moreover, agreement between genetic and morphological classifications increased greatly when morphological discrimination was pushed to the limit, despite inability to consistently assign all specimens to species with high confidence. This “splitting” strategy also maximized the correlation between genetic distances and the distances between species in cladistically derived phylogenies. Fossil and living species of both genera are sufficiently abundant and widespread to provide credible limits for inferred ancestral relationships. Inclusion of fossils in cladistic analyses of Stylopoma increased the consistency of cladistic hypotheses by up to 30% and provided a more effective means of rooting trees than comparison with living species of the most closely related genus (“outgroup”). Moreover, in the case of Metrarabdotos, failure to incorporate stratigraphic information turned the cladogram virtually upside down, so that postulated ancestors first appear in the fossil record 6–16 m.y. after their putative descendants became extinct. Stratigraphically rooted trees suggest that most well-sampled Metrarabdotos and Stylopoma species originated fully differentiated morphologically and persisted unchanged for > 1 to > 16 m.y., typically alongside their putative ancestors. Moreover, the tight correlation between phenetic, cladistic, and genetic distances among living Stylopoma species suggests that changes in all three variables occurred together during speciation. All of these observations support the punctuated equilibrium model of speciation. |
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ISSN: | 0094-8373 1938-5331 |
DOI: | 10.1017/S0094837300012902 |