0000000000643066

AUTHOR

Abigail J. Moore

showing 7 related works from this author

Phylogeny, biogeography, and chromosome evolution of the amphitropical genus Grindelia (Asteraceae) inferred from nuclear ribosomal and chloroplast s…

2012

0106 biological sciences0301 basic medicinebiologyBiogeographyChromosomePlant ScienceRibosomal RNAAsteraceaebiology.organism_classification010603 evolutionary biology01 natural sciences03 medical and health sciences030104 developmental biologyGrindeliaGenusPhylogeneticsEvolutionary biologyMolecular phylogeneticsEcology Evolution Behavior and SystematicsTAXON
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A conspectus of the genus Cherleria (Minuartia s.l., Caryophyllaceae)

2017

Abstract: Minuartia s.l. (Caryophyllaceae) is polyphyletic, with its species belonging to eleven major clades, all of which have been recognized at the generic rank. Cherleria is one of these segregate genera, based on the Linnaean species Cherleria sedoides. Its centre of diversity is on the Balkan Peninsula, but species also occur in the European and North American high mountains and in the Arctic. The species of Cherleria show ecological, especially substrate, differentiation and multiple colonisations of alpine habitats. We make new combinations for the 17 (of 20) taxa in Cherleria that do not yet have Cherleria names and provide a key to all species of the genus. Citation: Moore A. J. …

0106 biological sciencesbiologyEcologyWilldenowiaCaryophyllaceaePlant Sciencebiology.organism_classification010603 evolutionary biology01 natural sciencesTaxonGenusMinuartiaPolyphylyBotanyTaxonomy (biology)NomenclatureEcology Evolution Behavior and Systematics010606 plant biology & botanyWilldenowia
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Genetic and Ecotypic Differentiation in a Californian Plant Polyploid Complex (Grindelia, Asteraceae)

2014

Studies of ecotypic differentiation in the California Floristic Province have contributed greatly to plant evolutionary biology since the pioneering work of Clausen, Keck, and Hiesey. The extent of gene flow and genetic differentiation across interfertile ecotypes that span major habitats in the California Floristic Province is understudied, however, and is important for understanding the prospects for local adaptation to evolve or persist in the face of potential gene flow across populations in different ecological settings. We used microsatellite data to examine local differentiation in one of these lineages, the Pacific Coast polyploid complex of the plant genus Grindelia (Asteraceae). W…

Evolutionary GeneticsMarshPlant EvolutionSpeciationlcsh:MedicinePlant ScienceCaliforniaGene flowPloidyMolecular SystematicsNatural Selectionlcsh:ScienceFlowering Plantseducation.field_of_studyMultidisciplinarygeography.geographical_feature_categoryGeographyEcotypeEcologyfood and beveragesPolyploid complexPlantsBiological EvolutionHabitatResearch ArticleGene FlowEvolutionary ProcessesGrindeliaGenotypeGeneral Science & TechnologyPopulationParallel EvolutionBiologyPolyploidyGrindeliaEvolutionary Adaptationparasitic diseasesGeneticsEvolutionary SystematicseducationHybridizationTaxonomyLocal adaptationEcotypeEvolutionary BiologygeographyPopulation Biologylcsh:ROrganismsBiology and Life SciencesGeobotanyPlant Taxonomybiology.organism_classificationOrganismal EvolutionGenetic Locilcsh:QPopulation GeneticsMicrosatellite RepeatsPLoS ONE
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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 origin of the serpentine endemic Minuartia laricifolia subsp. ophiolitica by vicariance and competitive exclusion.

2013

Serpentine soils harbour a unique flora that is rich in endemics. We examined the evolution of serpentine endemism in Minuartia laricifolia, which has two ecologically distinct subspecies with disjunct distributions: subsp. laricifolia on siliceous rocks in the western Alps and eastern Pyrenees and subsp. ophiolitica on serpentine in the northern Apennines. We analysed AFLPs and chloroplast sequences from 30 populations to examine their relationships and how their current distributions and ecologies were influenced by Quaternary climatic changes. Minuartia laricifolia was divided into four groups with a BAPS cluster analysis of the AFLP data, one group consisted only of subsp. ophiolitica, …

Genetic diversityChloroplastsBase SequenceEcologyMolecular Sequence DataPopulationDNA ChloroplastGenetic VariationCaryophyllaceaeDisjunctBiologySubspeciesSecologanin Tryptamine AlkaloidsEvolution MolecularPhylogeographyHaplotypesSerpentine soilGeneticsVicarianceBiological dispersalAmplified Fragment Length Polymorphism AnalysisEndemismEcology Evolution Behavior and SystematicsEcosystemPhylogenyMolecular ecology
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Data from: Genetic and ecotypic differentiation in a Californian plant polyploid complex (Grindelia, Asteraceae)

2015

Studies of ecotypic differentiation in the California Floristic Province have contributed greatly to plant evolutionary biology since the pioneering work of Clausen, Keck, and Hiesey. The extent of gene flow and genetic differentiation across interfertile ecotypes that span major habitats in the California Floristic Province is understudied, however, and is important for understanding the prospects for local adaptation to evolve or persist in the face of potential gene flow across populations in different ecological settings. We used microsatellite data to examine local differentiation in one of these lineages, the Pacific Coast polyploid complex of the plant genus Grindelia (Asteraceae). W…

EcotypesCompositaeGrindeliaHoloceneGrindelia hirsutulaGrindelia camporumfood and beveragesLife SciencesCalifornia Floristic ProvincePacific Coasttetraploidymedicine and health careparasitic diseasesGrindelia strictaGrindelia paludosaMedicine
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Data from: The origin of the serpentine endemic Minuartia laricifolia subsp. ophiolitica by vicariance and competitive exclusion

2013

Serpentine soils harbour a unique flora that is rich in endemics. We examined the evolution of serpentine endemism in Minuartia laricifolia, which has two ecologically distinct subspecies with disjunct distributions: subsp. laricifolia on siliceous rocks in the western Alps and eastern Pyrenees and subsp. ophiolitica on serpentine in the northern Apennines. We analysed AFLPs and chloroplast sequences from 30 populations to examine their relationships and how their current distributions and ecologies were influenced by Quaternary climatic changes. Minuartia laricifolia was divided into four groups with a BAPS cluster analysis of the AFLP data, one group consisted only of subsp. ophiolitica, …

medicine and health careQuaternarySoil PreferencerefugiaAlpsMinuartia laricifolia subsp. ophioliticaMedicineMinuartia laricifolia subsp. laricifoliaCaryophyllaceaeEdaphic Niche EvolutionSerpentine SoilLife sciences
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