Phylogeny, evolution and systematics of Moehringia (Caryophyllaceae) as inferred from molecular and morphological data: a case of homology reassessment.

The phylogeny of the genus Moehringia (Caryophyllaceae) is investigated by means of analyzing nuclear (ITS) and chloroplast (matK) sequence data in combination with morphological characters. Parsimony and Bayesian methods yield consistent results, and a common phylogenetic signal is shared by the nuclear and chloroplast data. Morphological characters are affected by a high level of homoplasy, but they provide valuable information when analyzed in combination with the molecular data. Moehringia is paraphyletic to Arenaria with the Iberian taxa belonging to Moehringia sect. Pseudomoehringia McNeill more closely related to Arenaria. This cladistic evidence led us to reinterpret the homology of the key character used in most, if not all, floras, to separate Moehringia from Arenaria, i.e., the seed strophiole. Thorough anatomical studies were carried out to elucidate the ontogeny of the strophiole, which proved different in Moehringia s. str. and the Iberian taxa. Within Moehringia s. str., two sister clades are recognized (i.e., Moehringia sect. Moehringia and M. sect. Latifoliae much as recognized by McNeill, whereas representatives of M. sect. Diversifoliae are assigned to either groups), and biogeographical events related to the Würm glaciation are considered to play a fundamental role in the evolution and present distribution of the genus. The variation of the strophiole is regarded as adaptability to ecological conditions and dispersal agents. We also propose two new combinations and two replacement names: Arenaria glochidisperma (J.M. Mont.) Fior et P.O. Karis, comb. nov., Arenaria tejedensis (Willk.) Fior et P.O. Karis, comb. nov., Arenaria suffruticosa Fior et P.O. Karis, nom. nov. for Moehringia intricata Willk., and Arenaria funiculata Fior et P.O. Karis, nom. nov. for Moehringia fontqueri Pau.

Phylogenetic relationships and generic delimitation in subtribe Arctotidinae (Asteraceae: Arctotideae) inferred by DNA sequence data from ITS and five chloroplast regions.

Asteraceae are the largest family in southern Africa. Elucidating its origins and radiation in the region requires well-supported species-level phylogenies of the lineages. This paper presents a phylogenetic framework for subtribe Arctotidinae, which have a southern and eastern African-Australian distribution centered in the winter-rainfall region of South Africa. DNA sequence data from five chloroplast fragments (ndhF, psbA-trnH, rps16, trnS-trnfM, and trnT-trnF) and the nuclear ITS region were analyzed separately and in combination using parsimony and Bayesian methods. The data sets comprised exemplars from 18 ingroup species, representing the five currently accepted genera, and four outgroup species from Gorteriinae. All analyses indicated Arctotis and Haplocarpha are polyphyletic as presently circumscribed. The Australian-endemic Cymbonotus lawsonianus was placed within a strongly supported clade also containing A. arctotoides from South Africa and H. schimperi from eastern Africa. Retention of Dymondia and resurrection of Landtia at generic level are strongly supported. The phylogenetic hypotheses indicate the subtribe might have originated in temperate southern or eastern Africa, or it was ancestrally widespread in southern Africa and has diversified vicariously. The derived placement of C. lawsonianus indicates long-distance dispersal from southern Africa to Australia occurred.

Molecular phylogeny of the Caryophyllaceae (Caryophyllales) inferred from chloroplast matK and nuclear rDNA ITS sequences.

Caryophyllaceae is a principally holarctic family including around 2200 species often classified into the three subfamilies Alsinoideae, Caryophylloideae, and Paronychioideae. Complex and possibly homoplasious morphological characters within the family make taxa difficult to delimit and diagnose. To explore part of the morphological evolution within the family, we investigated the phylogeny of the Caryophyllaceae by means of analyzing plastid and nuclear sequence data with parsimony and Bayesian methods. We describe a mode of tracing a stable phylogenetic signal in ITS sequences, and a significant common signal is shared with the plastid data. Parsimony and Bayesian analyses yield some differences in tree resolution. None of the subfamilies appear monophyletic, but the monophyly of the Caryophylloideae is not contradicted. Alsinoideae are paraphyletic, with Arenaria subg. Eremogone and Minuartia subg. Spergella more closely related to the Caryophylloideae. There is strong support for the inclusion of Spergula-Spergularia in an Alsinoideae-Caryophylloideae clade. Putative synapomorphies for these groupings are twice as many stamens as number of sepals and a caryophyllad-type of embryogeny. Paronychioideae form a basal grade, where tribe Corrigioleae are sister to the rest of the family. Free styles and capsules with simple teeth are possibly plesiomorphic for the family.