586346b0-0518-48ec-b2a6-fdfdab71ccdc
Population admixture, biological invasions and the balance between local adaptation and inbreeding depressionHerbivory and dominance shifts among exotic and congeneric native plant species during plant community establishmentIntergenerational environmental effects: Functional signals in offspring transcriptomes and metabolomes after parental jasmonic acid treatment in apomictic dandelionEffects of admixture in native and invasive populations of Lythrum salicariaCosts and benefits of admixture between foreign genotypes and local populations in the fieldChemotype of Senecio jacobaea affects damage by pathogens and insect herbivores in the fieldMetabolomic profiling reveals shifts in defenses of an invasive plantNovel chemistry of invasive plants: exotic species have more unique metabolomic profiles than native congenersNovel weapons of invasive plantsRoot damage and aboveground herbivory change concentration and composition of pyrrolizidine alkaloids of Senecio jacobaeaPotential contribution of natural enemies to patterns of local adaptation in plantsChanges in plant defense chemistry (pyrrolizidine alkaloids) revealed through high-resolution spectroscopyChemical variation in Jacobaea vulgaris is influenced by the interaction of season and vegetation successional stageEvolutionary responses to climate change in a range expanding plantClimate change and invasion by intracontinental range-expanding exotic plants: the role of biotic interactionsAttract and deter: a dual role for pyrrolizidine alkaloids in plant - insect interactionsClimate vs. soil factors in local adaptation of two common plant speciesChemical Defenses (Glucosinolates) of Native and Invasive Populations of the Range Expanding Invasive Plant Rorippa austriacaEcological fits, mis-fits and lotteries involving insect herbivores on the invasive plant, Bunias orientalisMetabolomics: the chemistry between ecology and geneticsSoil biotic impact on plant species shoot chemistry and hyperspectral reflectance patternsPredicting species distribution and abundance responses to climate change: why it is essential to include biotic interactions across trophic levels