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Major evolutionary events in the origin and diversification of the fern genus Polystichum (Dryopteridaceae)¹

²L. H. Bailey Hortorium, Cornell University, Ithaca, New York 14853-5908 USA; ³Pringle Herbarium, Department of Botany and Agricultural Biochemistry, The University of Vermont, Burlington, Vermont 05405-0086 USA

Recent advances in molecular systematics of the ferns make it possible to address long-standing questions about classification of the major fern genera, such as the worldwide genus Polystichum (Dryopteridaceae), comprising at least 200 species. In this study we examined rbcL sequences and morphological characters from 55 fern taxa: 34 were from Polystichum and 21 were from other genera in the Dryopteridaceae. We found that Phanerophlebia, possibly including Polystichopsis, is the sister group to Polystichum sensu lato (s.l.), including Cyrtomium. Polystichum as commonly recognized is paraphyletic. Our results lead us to suggest recognizing the clade of earliest diverging Polystichum species as a distinct genus (Cyrtomidictyum) and to continue to recognize Cyrtomium as a separate genus, leaving a monophyletic Polystichum sensu stricto (s.s.). We resolved a tropical American clade and an African clade within Polystichum s.s. However, the resemblance between the once-pinnate, bulb-bearing calciphilic species found in Asia and the West Indies appears to be the result of convergent evolution. Optimizing our morphological character transformations onto the combined phylogeny suggests that the common ancestor of Polystichum s.l. and Phanerophlebia had evolved the common features of the alliance, including ciliate petiole-base scales, once-pinnate fronds, ultimate segments with scarious tips, peltate indusia, and microscales.

Key Words: biogeography • Dryopteridaceae • phylogeny • Polystichum • rbcL

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				H. E. Driscoll and D. S. Barrington Origin of Hawaiian Polystichum (Dryopteridaceae) in the context of a world phylogeny Am. J. Botany, August 1, 2007; 94(8): 1413 - 1424. [Abstract] [Full Text] [PDF]