Search results for "Calcicole"

showing 3 items of 3 documents

The evolution of substrate differentiation inMinuartiaseriesLaricifoliae(Caryophyllaceae) in the European Alps: In situ origin or repeated colonizati…

2013

Premise of the study Substrate specialization is often considered an important factor in evolutionary diversification. A classic example of divergence related to different substrate types is the dichotomy between calcicole and calcifuge plants on calcareous and siliceous substrates as found in the European Alps. When closely related species with contrasting substrate preferences are found in the same area, it is generally hypothesized that they diverged where they now occur. However, it is possible that Alpine edaphic diversity instead allows the coexistence of related species whose edaphic differentiation took place deeper in the phylogeny, in some other part of the range of their clades. …

Genetic SpeciationRange (biology)CalcicoleCaryophyllaceaePlant ScienceBiologyCalcifugeSoilSpecies SpecificityGeneticsEndemismEcosystemPhylogenyEcology Evolution Behavior and SystematicsBase SequenceGeographyEcologyEdaphicBiodiversitySequence Analysis DNAbiology.organism_classificationAdaptation PhysiologicalBiological EvolutionSubstrate (marine biology)EuropeTaxonMinuartiaDNA IntergenicAmerican Journal of Botany
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The phylogeny of the European high mountain genus Adenostyles (Asteraceae-Senecioneae) reveals that edaphic shifts coincide with dispersal events.

2013

UNLABELLED PREMISE OF THE STUDY Heterogeneity of edaphic conditions plays a large role in driving the diversification of many plant groups. In the Alps and other European high mountains, many closely related calcicole and calcifuge plant taxa exist. To better understand patterns and processes of edaphic differentiation, the phylogeny of the edaphically variable genus Adenostyles was studied. The genus contains three species, of which A. alpina has five subspecies. Each species and subspecies is largely confined to either calcareous or noncalcareous substrates. • METHODS We analyzed the phylogeny of Adenostyles using DNA sequences of nrITS, nrETS, nuclear chalcone synthase, and three plastid…

biologyEcologyAltitudeCalcicoleEdaphicPlant ScienceSenecioneaeSubspeciesAsteraceaebiology.organism_classificationCalcifugeAdenostyles alpinaBiological EvolutionEuropePhylogeographySoilBotanyGeneticsBiological dispersalAdenostylesEcology Evolution Behavior and SystematicsEcosystemPhylogenyDemographyAmerican journal of botany
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The phylogeny and biogeography of Gentiana L. sect. Ciminalis (Adans.) Dumort.: A historical interpretation of distribution ranges in the European hi…

1998

Abstract Gentiana sect. Ciminalis consists of seven mostly ecologically or geographically vicariant and closely related species which are distributed throughout the South and Central European high mountains. The analysis of a RAPD data set and trn L-intron and ITS sequences resulted in slightly different phylogenetic hypotheses. In the preferred hypothesis the group consists of two completely resolved main lineages: 1) G. clusii and G. alpina. 2) G. dinarica, G. acaulis, G. ligustica, G. angustifolia and G. occidentalis. The most important conclusions we have drawn from this phylogenetic hypothesis and from the observed patterns of molecular variation are: 1) The calcifuge ecology of G. aca…

education.field_of_studyPhylogenetic treeRange (biology)Lineage (evolution)CalcicolePopulationPlant ScienceBiologyCladogramEvolutionary biologyBotanyVicarianceeducationMolecular clockEcology Evolution Behavior and SystematicsPerspectives in Plant Ecology, Evolution and Systematics
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