Gnidia L. (Thymelaeaceae) is not monophyletic: taxonomic implications for Gnidia and its relatives in Thymelaeoideae

Rautenbach, Marline

08 July 2008

Gnidia L., also known as the saffron bush, is the largest genus in the family Thymelaeaceae, consisting of about 140 species. It is mainly an African group with approximately 97 species in southern Africa and one third of the species occurring in the Cape Floristic Region. Hilliard and Burtt last revised Gnidia in 1987. Species delimitations within the genus are extremely complex and have led to varying treatments often characterised by substantial confusion in the ranking of some taxa. This study has utilised DNA sequence data to help resolve species delimitations within Gnidia. Parsimony analyses were conducted on nuclear transcribed spacer (ITS) and non-coding plastid trnL-F and rbcL data from a broad sampling of Gnidia and related genera. The most important conclusion drawn from the molecular data is that Gnidia is not monophyletic and comprises at least four distinct lineages, each related to other genera within Thymelaeoideae. / Dr. Michelle van der Bank

Thymelaeaceae anatomy

Lachnaea anatomy

A monograph of the genus Passerina L. (Thymelaeaccae)

Bredenkamp, Christina Lindith

10 October 2005

Please read the abstract in the section 00front of this document / Thesis (PhD (Botany))--University of Pretoria, 2005. / Plant Science / unrestricted

Thymelaeaceae africa southern

Thymelaeacceae

UCTD

Origin and diversification of the Australasian genera Pimelea and Thecanthes (Thymelaeaceae)

Motsi, Moleboheng Cynthia

06 September 2012

Ph.D. / Pimelea Banks & Sol. Ex Gaertn. nom. cons. is a large genus consisting of 110 species, of which 90 species are endemic to Australia, 19 to New Zealand and one to Lord Howe Island. The genus has a great diversity of life forms, breeding systems and habitat. Its closest related genus is Thecanthes Wikstr. Thecanthes comprises five species of annual herbs occurring in the Philippines, New Ireland and northern Australia. Australasian Thecanthes and Pimelea are the only genera within sub-tribe Pimeleinae (angiosperm family Thymelaeaceae) and are characterised by the reduction to two stamens. Here I present the most comprehensive molecular phylogenetic study for Pimelea and Thecanthes. Sequences data from nuclear ITS rDNA and plastid rbcL, rps16, matK and trnL-F intergeneric spacer were used to reconstruct a phylogeny for these genera. I have produced 457 new DNA sequences (five genes and 150 taxa) for the present analyses. The resulting phylogeny was used to assess the taxonomic status of Thecanthes and to evaluate the relationships with Pimeleinae since previous studies indicated a close relationship between Pimelea, Thecanthes and species of Gnidia L. from tropical Africa. The morphological delimitation of sections within Pimelea, the biogeography and the radiation of the genus have been revaluated. Pimelea was found to be monophyletic. It was concluded that Pimelea and Thecanthes are congeneric; consequently a paper has been submitted transferring all species of Thecanthes into Pimelea and making the new combination Pimelea filifolia (Rye) Motsi & Rye. Data analysis revealed very low sequence variation within the subtribe Pimeleinae. This suggested a rapid radiation of the genera, which was confirmed by my molecular dating analyses. Based on molecular clock techniques, I calculated the following ages for the origin of Pimelea: 4.1 mya for New Zealand Pimelea spp. and 13.38 mya for other Pimelea spp. The molecular data also indicated that Pimelea and South Africa Gnidia have a direct common ancestor. I also show that the New Zealand Pimelea are derived and dispersed from Australian

Thymelaeaceae - Anatomy

Lachnaea - Phylogeny

Philogeny - Molecular aspects

Systematic studies in Gnidia L. (Thymelaeaceae)

Beaumont, Angela Jane.

January 2010

Gnidia L., variously estimated to contain 100–160 species, is the largest genus in the sub-cosmopolitan family Thymelaeaceae. Most species are shrubby, and occur in tropical and southern Africa, with one species reaching southern India and Sri Lanka, and 14 species endemic to Madagascar. Assorted segregate genera have been established using characters considered by some as too few, too trivial or unreliable. Generic limits have been contentious with authors following either a narrower concept of Gnidia or a broader circumscription within which segregate genera are placed in synonymy under Gnidia. Regional treatments for African and Madagascan floras have been published over the last century until very recently, but the genus was last revised in its entirety 153 years ago. Today, a broad-based concept of Gnidia is generally recognised, but there is no modern infrageneric classification, and species relationships are poorly understood. Homogenous groups of species are identified by their similarities of leaf length and width or bract length and width ratios. Species comprising the homogenous groups for leaf ratios differ to those comprising the homogenous groups based on bract ratios, and there is no correlation between leaf and bract length and width ratios. This suggests that the factors influencing leaf diversity differ from those influencing bract diversity. Bracts differ most from leaves in species with capitate inflorescences, and involucres of several layers of bracts likely protect reproductive organs (flowers) in heads. Previously overlooked morphological and micromorphological details, and morphometric analyses of leaf, bract and floral dimension data help define individual species, and clades of species derived from phylogenetic analyses of molecular data. Evidence from a phylogenetic analysis of nuclear ribosomal and plastid DNA sequence data confirms the polyphyly of Gnidia. Three lineages contain Gnidia species and species of genera from southern Africa, southern South America or Australia, while another lineage corresponds largely to the previously recognized genus Lasiosiphon. The genus Lasiosiphon is reinstated characterised by flowers mostly in heads, bracts different from the leaves, and the presence of smooth hairs; it now includes species with tetramerous flowers as well as ones with pentamerous flowers. Gynodioecy is recorded for the first time in a single species and represents the first documented example of sexual polymorphism involving unisexual flowers in Gnidia and sub- Saharan Thymelaeaceae. The findings of this thesis are discussed in terms of their phylogenetic value and contribution to our better understanding of the generic limits of Gnidia and its relationships with other southern hemisphere Thymelaeoideae. The circumscription and generic affinities of Gnidia as suggested by results presented in this thesis are compared to previous classification systems for congruence and dissimilarity. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2010.

Gnidia--Classification.

Thymelaeaceae.

Gnidia--Morphology.

Gnidia--Phylogeny.

Lasiosiphon.

Theses--Botany.