Three families, Anarthriaceae, Restionaceae and Centrolepidaceae, are generally recognised in the restiid clade of Poales. A new phylogeny is presented, with fuller sampling of Australian taxa, based on analyses of trnL‐F, trnK and rbcL data from the chloroplast genome. The findings agree with the major groups shown in previous molecular studies but provide a more substantial basis for reviewing the classification at family and generic levels. Anarthriaceae is sister to Restionaceae, with Anarthria sister to Lyginia+Hopkinsia. Centrolepidaceae, on an extremely long branch, appears embedded in Restionaceae in Bayesian trees; although it appears as sister to Restionaceae in analyses that are more subject to long‐branch attraction (in parsimony analyses and those of data from the less‐conserved trnL‐F cpDNA region). Accepting the embedded position, which would make this a subfamily of Restionaceae, the basal division in the Restionaceae separates the African subfamily Restionoideae from the Australasian clade (Sporadanthoideae, Centrolepidoideae, Leptocarpoideae). In subfamily Leptocarpoideae, Eurychorda forms the basal branch. At the next dichotomy the Leptocarpus clade, together with the Winifredia clade, is separated from a diverse assemblage including Loxocarya, Chordifex, Baloskion, Desmocladus, Lepidobolus and allied genera. The phylogeny indicates that several currently recognised genera are not monophyletic and that changes to the generic classification are required. A matrix of morphological characters was prepared and these were mapped onto the Bayesian consensus DNA tree to identify synapomorphies of the clades and genera. Observations on leaf laminae indicate that fully or partially unifacial leaf laminae are a synapomorphy of the restiid clade. The morphological characterisation of the following are considered: the restiid clade, Anarthriaceae, Restionaceae enlarged to include subfamily Centrolepidoideae, Leptocarpus s.l. (including as potential synonyms Meeboldina and Stenotalis) and Desmocladus s.l. (including potentially Harperia, Onychosepalum and Kulinia).
The first collection of a macrofungal agaric species, with morphological features similar to already described Anamika species, has been found in association with animal bones in north Queensland, Australia. This species also shares features with several, commonly occurring and previously described Australian Hebeloma species. An integrated morphological and molecular study has resulted in the conclusion that all Anamika species belong in Hebeloma. As a result, already described species of Anamika are recombined as H. indicum (K.A. Thomas, Peintner, M.M. Moser and Manim.) B.J. Rees & Orlovich, H. angustilamellatum (Zhu L. Yang and Z.W. Ge) B.J. Rees & Orlovich and H. lactariolens (Clémençon and Hongo) B.J. Rees & Orlovich. A. phylogenetic tree based on ribosomal ITS sequences examines the relationship of these species with other Hebeloma species from both hemispheres. Four new species, Hebeloma youngii B.J. Rees, H. nothofagetorum B.J. Rees, H. subvictoriense B.J. Rees, H. lacteocoffeatum B.J. Rees, and one form, H. aminophilum f. hygrosarx B.J. Rees, are described as new from Australia.
A new classification of Myrtaceae tribe Chamelaucieae DC., derived from a molecular phylogenetic analysis based on nr ETS and cp trnK and atpB–rbcL spacer sequences, is presented. Eleven subtribes are recognised, eight of which are new. The currently accepted circumscriptions of subtribes Calytricinae Benth. and ‘Euchamelaucieae Benth.’ (nom. inval.) are retained, with the latter being formally published here as Chamelauciinae Rye & Peter G.Wilson. Subtribe Thryptomeninae Benth. is reduced in size by the creation of the new subtribes Alutinae Rye & Peter G.Wilson and Micromyrtinae Rye & Peter G.Wilson. Subtribe Baeckeinae Schauer is reduced to a single genus, with the excluded genera distributed in the new subtribes Astarteinae Rye & Peter G.Wilson, Hysterobaeckeinae Rye & Peter G.Wilson, Ochrospermatinae Rye & Peter G.Wilson, Rinziinae Rye & Peter G.Wilson and Stenostegiinae Rye & Peter G.Wilson. The history of recognition of the genera and subtribes of Chamelaucieae is outlined and supporting morphological evidence for the new classification discussed.
A recently discovered fire ephemeral Hydrocotyle phoenix A.J.Perkins sp. nov. from south-west Western Australia is described and compared to other Australian species of Hydrocotyle. Photographic images of the new species are provided, along with a list of diagnostic features to aid in identification. The annual fire ephemeral life history of this species is novel for the genus.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.