@article {WAGSTAFF:1995p916, title = {Parsimony Analysis of cpDNA Restriction Site Variation in Subfamily Nepetoideae (Labiatae)}, journal = {Am J Bot}, volume = {82}, number = {7}, year = {1995}, month = {Jan}, pages = {886{\textendash}892}, abstract = {Parsimony analysis of cpDNA restriction site variation supports monophyly of subfamily Nepetoideae, However, a close relationship among Nepetoideae and other gynobasic-styled Labiatae is not supported, indicating that a gynobasic style has evolved independently in at least two clades of Labiatae. The inferred relationships are congruent with the classification of Cantino, Harley, and Wagstaff (1992, Advances in labiate sciences, 27-37, Royal Botanic Gardens, Kew) but conflict to varying degrees with traditional classifications. Monophyly of four tribes of Nepetoideae also is supported.}, keywords = {Classification, Dna, Evolution, Lamiaceae, Phylogeny}, author = {SJ WAGSTAFF and RG OLMSTEAD and PD CANTINO} } @article {Steane:2004p8020, title = {Phylogenetic relationships between Clerodendrum (Lamiaceae) and other Ajugoid genera inferred from nuclear and chloroplast DNA sequence data}, journal = {Molecular Phylogenetics and Evolution}, volume = {32}, number = {1}, year = {2004}, month = {Jul}, pages = {39{\textendash}45}, abstract = {Over the last two centuries the circumscription of the large, pan-tropical genus Clerodendrum (Lamiaceae) has changed frequently, as different authorities have added or removed taxa on the basis of various morphological characters. With the development of molecular methods for systematic research the process of circumscribing taxa has become increasingly analytical. When morphology signals the possibility that taxa are closely related, molecular methods can be used to test the hypothesis objectively. Aegiphila, Amasonia, Huxleya, and Kalaharia are similar morphologically to Clerodendrum. In this paper we use nuclear ribosomal ITS and chloroplast ndhF sequence data to clarify the positions of these four genera relative to Clerodendrum. We show that the Australian monotypic genus Huxleya evolved from within Clerodendrum. Accordingly, we sink Huxleya into Clerodendrum and make a new combination, Clerodendrum linifolium.}, keywords = {Cell Nucleus, Chloroplasts, Clerodendrum, Dna, Genes: Plant, Likelihood Functions, Phylogeny, RNA: Ribosomal, Species Specificity}, doi = {10.1016/j.ympev.2003.11.011}, author = {Dorothy A Steane and Rogier P J de Kok and Richard G Olmstead} } @article {Moon:2010p2761, title = {Phylogeny of tribe Mentheae (Lamiaceae): The story of molecules and micromorphological characters}, journal = {Taxon}, volume = {59}, number = {4}, year = {2010}, month = {Jan}, pages = {1065{\textendash}1076}, abstract = {Mentheae are the largest tribe in the family Lamiaceae and economically important, including herbs like mint, sage and thyme. The evolutionary history of this tribe was reconstructed based on ITS and trnL-trnF spacer sequence data of 71 species, representing. 47 out of 65 genera. The resulting phylogeny was used to analyse the distribution of selected morphological characteristics such as sexine ornamentation of pollen, nutlet shape with existence of abscission scar and its form, and trichome types. Two monophyletic groups are recognized, which largely correspond to the current subtribal circumscription. Subtribe Salviinae is monophyletic, including the genus Melissa which was a genus of uncertain affinity in Mentheae. Subtribe Menthinae is not monophyletic since Cleonia, Horminum, Hyssopus, Lycopus and Prunella are more closely related with subtribe Nepetinae. Although we could not detect any morphological synapomorphies for each clade, morphological variation seems to be correlated with the molecular phylogeny. A circular abscission scar without distinct lateral areole occurred mainly in Salviinae, while the majority of the species of Mentheae and Nepetinae had a clear areole at the abscission scar. In addition, a reticulate sexine ornamentation is rather common in the Menthinae clade.}, keywords = {Anatomy, Dna, Evolution, Inference, Labiatae, Lamiaceae, Mentheae, Micromorphology, Morphology, Nepetoideae Lamiaceae, Phylogeny, Salvia Lamiaceae, Sequence Data, Verbenaceae}, author = {Hye-Kyoung Moon and Erik Smets and Suzy Huysmans} } @article {Bendiksby:2011p3196, title = {An updated phylogeny and classification of Lamiaceae subfamily Lamioideae}, journal = {Taxon}, volume = {60}, number = {2}, year = {2011}, month = {Jan}, pages = {471{\textendash}484}, abstract = {Lamioideae comprise the second-largest subfamily in Lamiaceae. Although considerable progress has recently been made in Lamioideae phylogenetics, the subfamily remains one of the most poorly investigated subfamilies in Lamiaceae. Here we present a taxonomic update of the subfamily based on earlier published data as well as 71 new DNA extracts from relevant in- and outgroup taxa, and DNA sequence data from four chloroplast regions (matK, rps16, trnL intron and trnL-F spacer). The phylogenetic positions of 10 out of 13 previously unplaced small or monotypic Asian lamioid genera and 37 additional lamioid species have been identified, and the classification is updated accordingly. Results from parsimony and Bayesian phylogenetic methods corroborate earlier results, but phylogenetic resolution as well as overall branch support are improved. All newly added genera are assigned to earlier established tribes or the new tribe Paraphlomideae Bendiksby, which includes Ajugoides, Matsumurella and Paraphlomis. Acanthoprasium is resurrected as a genus. Transfer of species is proposed to accommodate the monophyly of two genera (Lamium, Otostegia), whereas ten genera remain non-monophyletic (Ballota s.str., Lagopsis, Leonotis, Leonurus, Leucas, Microtoena, Phlomoides, Sideritis, Stachys, Thuspeinanta). Eriophyton and Stachyopsis have been included in Lamieae, Hypogomphia in Stachydeae, and Loxocalyx in Leonureae. Betonica, Colquhounia, Galeopsis, and Roylea remain unclassified at the tribal level. Lamium chinense and three East Asian Galeobdolon species are transferred to Matsumurella. Sulaimania and four Otostegia species are transferred to Moluccella. Alajja and three Lamium species are transferred to Eriophyton. In total, 14 new combinations are made, one at the rank of subgenus and 13 at the rank of species.}, keywords = {Acanthoprasium, Chloroplast Sequence Datasets, Classification, Dna, Eriophyton, Evolution, Hawaiian Endemic Mints, Labiatae, Lamiaceae, Lamioideae, Matsumurella, Molecular Phylogenetics, Moluccella, Nuclear, Origin, Paraphlomideae, Pericarp Structure, Sideritis Lamiaceae}, url = {http://apps.webofknowledge.com/InboundService.do?SID=2B\%2540kNem2NICHnHfl3PI\&product=WOS\&UT=000289587100015\&SrcApp=Papers\&DestFail=http\%253A\%252F\%252Faccess.isiproducts.com\%252Fcustom_images\%252Fwok5_failed_auth.html\&Init=Yes\&action=retrieve\&SrcAuth=meken}, author = {Mika Bendiksby and Lisbeth Thorbek and Anne-Cathrine Scheen and Charlotte Lindqvist and Olof Ryding} }