Sidalcea

Abstract: Phylogenetic analysis of nuclear ribosomal DNA external and internal transcribed spacer region (ETS and ITS) sequences for Sidalcea (Malvaceae) resolved five major, well-supported lineages, three of which represent species groups that have each been noted for complex patterns of morphological variation: the oregana, malviflora, and glaucescens clades. Very low variation within each of the three groups in the sequenced regions is consistent with recent radiation of each clade. We reject the previously suggested hypothesis of monophyly for the annual species of Sidalcea. Based on our findings, the annual habit in Sidalcea arose at least four times, probably as an adaptation to seasonally dry habitats. The hypothesis that the perennial species S. hickmanii and S. malachroides represent basally divergent groups within Sidalcea is supported, but the more recently discovered S. stipularis represents an additional basally divergent lineage. The previous suggestion that the genus spread northward from Mexico along two major routes (through the Rocky Mountains and the Sierra Nevada foothills), with the Rocky Mountain species S. candida and S. neomexicana representing basally divergent lineages, is not supported. Sidalcea neomexicana is nested within the malviflora clade and is likely a lineage of relatively recent descent that originated in California and subsequently spread to the Rocky Mountains.

Abstract: Systematic research provides essential evidence for setting conservation priorities for rare and endangered taxa. Phylogenetic analyses can identify cryptic, genetically distinct lineages as well as actively interbreeding, and hence, non-distinctive lineages earlier perceived as separate taxa. A major aim of this study was to identify genetically distinct, rare lineages within two Malvaceae sister-genera, Sidalcea and Eremalche. The focus was two taxon-pairs each consisting of one rare and one more common taxon. The results demonstrate that even within two closely related genera, with a large number of rare taxa, molecular phylogenetic analyses can reveal contrasting degrees of evolutionary divergence and thus contrasting conservation implications for threatened taxa. Contrary to expectations, the substitution rate in the nuclear ribosomal transcribed spacers for annual Eremalche did not correspond to the faster evolutionary rate of annuals – compared to perennials – detected earlier within Sidalcea. Branch lengths in the (annual) Eremalche clade were shorter than those of annual members of Sidalcea. The phylogenetic analyses showed that the rare and endangered S. keckii and E. kernensis each are most closely related to a common species that has been regarded as insufficiently distinct to warrant separate taxonomic status. An additional aim of the study was to test the utility of the Phylogenetic Diversity (PD) measure to formalize the procedure of prioritizing conservation efforts. The measure demonstrated S. keckii (but not E. kernensis) to be genetically distinct from its closest relative and a good candidate for conservation. The PD measure was earlier used for assessing conservation priorities for areas, but proved useful to more objectively suggest conservation priorities among threatened taxa. Because this measure is calculated directly from the data, it retains more character information and gives a better representation of genetic diversity than other measures relying on tree topologies.

Abstract: A molecular phylogenetic analysis of the tribe Malveae (subfamily Malvoideae, Malvaceae) was undertaken using the internal transcribed spacer region of the 18S-26S nuclear ribosomal repeat (ITS). This work represents the first exhaustive study to evaluate the infratribal circumscription and generic affinities using molecular sequence data. The ITS phylogeny indicates that the informal tribal alliances and several genera are not monophyletic. Two main clades were reconstructed in the phylogeny: one clade pertaining to the Abutilon, Bakeridesia, Batesimalva, Fryxellia, Gaya, Plagianthus, Robinsonella, and Sida alliances, and a second large clade containing genera from the Anisodontea, Callirhoe, Kearnemalvastrum, Malva, Malvastrum, Modiola, Napaea, Phymosia, Sphaeralcea, and Sidalcea alliances.