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Selected Abstracts

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

CLADISTICS, Issue 4 2007
Simone Fior
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. © The Willi Hennig Society 2007. [source]

Phenotypic plasticity, polymorphism and phylogeny within placoderms

ACTA ZOOLOGICA, Issue 2009
K. Trinajstic
Abstract Intraspecies variation, polymorphism and asymmetric traits are observed within two families of Arthrodira, the Incisoscutidae and Camuropiscidae, from the Gogo Formation in northern Western Australia. Individual plates of the head and trunk shield show considerable variation between individuals. Plates that show the greatest degree polymorphic traits are the rostral (R), marginal (M), submarginal (SM), preorbital (PrO), anterior dorsolateral, anterior median ventral (AMV) and posterior ventrolateral (PVL) plates. The paths of the sensory line canals are the most variable feature and the dermal plates of the cheek show the greatest asymmetry. It is apparent that if anatomical data in arthrodires are to be interpreted with greater precision, detailed knowledge of intraspecies variation, polymorphic and asymmetric traits is essential. How these variables are treated in cladistic analysis is also critical. Here multistate characters were coded differently in five discrete analyses, each analysis yielding a different number of trees and relationships. It was concluded that including and coding for multistate characters gave the most robust tree. In addition, further morphological characters from a new specimen of Gogosteus sarahae Long (1994) indicates many of the characters used to separate this genus from Incisoscutum are inconsistent and so it is here considered that the genus Gogosteus is a junior synonym of Incisoscutum. [source]

Genetic divergence and ecological specialisation of seed weevils (Exapion spp.) on gorses (Ulex spp.)

ECOLOGICAL ENTOMOLOGY, Issue 3 2008
MYRIAM BARAT
Abstract 1.,Reproductive isolation of sympatric populations may result from divergent selection of populations in different environments, and lead to ecological specialisation. In Brittany (France), the gorse Ulex europaeus (Fabaceae, Genisteae), may be encountered in sympatry with one of the two other gorse species present: U. gallii and U. minor. A recent study based on morphological identification of seed predators of gorse has shown that two weevil species (Curculionoidea, Apionidae) infest gorse pods at different seasons and have different host ranges: Exapion ulicis infests U. europaeus in spring, whereas E. lemovicinum infests U. gallii and U. minor in autumn. Weevil populations may thus have diverged in sympatry. 2.,As morphological identification of weevils is often difficult and some of the characters used may exhibit individual or environmental variation, mitochondrial and nuclear sequences of weevils collected within pods of the three gorse species in 10 populations of Brittany were used to reconstruct their phylogeny. 3.,The results reveal that species differentiation based on morphological characters is confirmed by the two molecular data sets, showing that E. ulicis and E. lemovicinum are distinct species, and suggesting the absence of host races. Finally, E. ulicis was able to use U. gallii and U. minor pods in spring in some years in some populations, which appeared to depend on the availability of pods present during its reproductive period. 4.,Divergence between E. ulicis and E. lemovicinum may have resulted from temporal isolation of reproductive periods of weevil populations followed by specialisation of insects to host phenology. [source]

Paeonia (Paeoniaceae) in the Caucasus

BOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 2 2003
DE-YUAN HONG
The taxonomy of the genus Paeonia in the Caucasus has been controversial, with recognized species varying in number from one to 13. The taxonomic history of Paeonia in this area is reviewed (including an analysis of the characters used by previous authors) based on extensive field observations, population sampling and critical examination of a large number of herbarium specimens. The results show that Paeonia may be divided into three groups. The P. intermedia group is known from only a single population. In the P. tenuifolia group, all the characters used for distinguishing the three previously recognized species were found to be polymorphic. In the P. daurica group, petal colour, shape and size of leaflets, and indumentum of leaflets and carpels were used to distinguish nine species, but these characters were found to be polymorphic or continuous in variation, and thus can only be used for infraspecific classification. Thus, three species are recognized: P. intermedia, P. tenuifolia and P. daurica. The last species is further divided into five subspecies: sspp. coriifolia, wittmanniana, mlokosewitschii, macrophylla and tomentosa stat. nov. © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society, 2003, 143, 135,150. [source]

A phylogenetic analysis of the monogenomic Triticeae (Poaceae) based on morphology

BOTANICAL JOURNAL OF THE LINNEAN SOCIETY, Issue 1 2001
OLE SEBERG FLS
A cladistic analysis, primarily based on morphology, is presented from 40 diploid taxa representing the 24 monogenomic genera of the Triticeae. General problems related to the treatment of hybrids and supposedly allopolyploid heterogenomic taxa are highlighted. Special emphasis is given to taxa not traditionally included in Aegilops s.J. Most of the 33 characters used in the analysis are coded as binary. The only four multistate characters in the matrix are treated as unordered. Three diploid species of Bromus are used as outgroup. The number of equally parsimonious trees found is very large (approx. 170000; length = 107, ci = 0.36, ri = 0.75) and the strict consensus tree has an expectedly low level of resolution. However, most of the equally parsimonious trees owe their existence to an unresolved Aegilops clade. If this clade is replaced by its hypothetical ancestor, the number of equally parsimonious trees drops dramatically (48; length = 78, ci = 0.45, ri = 0.76). When trees for which more highly resolved compatible trees exist are excluded, only two trees remain. Bremer support is used as a measure of branch support. The trees based on morphology and on molecular data are largely incongruent. [source]