A5047086982- Legume Nitrogen Fixing Symbiosis
- Plant-Microbe Interactions and Immunity
- Nematode management and characterization studies
- Plant Parasitism and Resistance
- Plant and animal studies
- Asian Culture and Media Studies
- Japanese History and Culture
- Species Distribution and Climate Change
- Ecology and Vegetation Dynamics Studies
Gwangju Institute of Science and Technology
2018-2022
Abstract The mutualistic relationship between alien plant species and microorganisms is proposed to facilitate or hinder invasive success, depending on whether plants can form novel associations with in the introduced habitats. However, this hypothesis has not considered seed endophytes that would move together propagules. Little information available endophytic bacteria of their effects performance. We isolated a xerophytic plant, Lactuca serriola , examined growth-promoting traits. In...
Abstract Recent studies have revealed that some bacteria can inhabit plant seeds, and they are likely founders of the bacterial community in rhizosphere or inside plants at early developmental stage. Given seedling establishment is a critical fitness component weedy species, effects seed endophytic (SEB) on performance particular interest weed ecology. Here, we characterized SEB natural populations Capsella bursa ‐ pastoris , model species The composition was evaluated using deep sequencing...
Abstract Capsella bursa‐pastoris is one of the most common plants on earth. Although phenotypic plasticity ecologically important traits possibly contributes to its wide geographic range, little known about C. and effects fitness. In a laboratory, we assessed in response two representative climatic conditions: temperature soil moisture. addition, quantitatively evaluated relationship between fruit production. Most measured morphological physiological exhibited plastic responses fitness based...
Recent studies have demonstrated that seed-borne bacteria can enhance the performance of invasive plants in novel introduced habitats with environmental stresses. The effect this plant-bacteria interaction may vary plant species or even genotype; however, genotype-dependent effects seed rarely been assessed. In study, we examined bacterial strains isolated from seeds on genotypes an xerophytic plant, Lactuca serriola. Plant were grown under drought conditions, and their plastic responses to...
Diverse bacteria inhabit plant seeds, and at least some of them can enhance performance the early developmental stage. However, it is still inconclusive whether seed influence post-germination traits their contribution to fitness. To explore evolutionary ecological consequences endophytic bacteria, we isolated four bacterial strains from seeds an annual weedy species,