0000000000390609

AUTHOR

Katri Seppälä

showing 2 related works from this author

Environmental Characteristics and Anthropogenic Impact Jointly Modify Aquatic Macrophyte Species Diversity

2018

Species richness and spatial variation in community composition (i.e. beta diversity) are key measures of biodiversity. They are largely determined by natural factors, but also increasingly affected by anthropogenic factors. Thus, there is a need for a clear understanding of the human impact on species richness and beta diversity, the underlying mechanisms, and whether human-induced changes can override natural patterns. Here, we dissect the patterns of species richness, community composition and beta diversity in relation to different environmental factors as well as human impact in one framework: aquatic macrophytes in 66 boreal lakes in Eastern Finland. The lakes had been classified as h…

0106 biological scienceshuman impactbiodiversity; beta diversity; community composition; eutrophication; human impact; null models species richness; water plantsBeta diversityBiodiversityPlant Sciencelcsh:Plant culture010603 evolutionary biology01 natural scienceslcsh:SB1-1110community compositionOriginal ResearchbiodiversityCommunityEcologyrehevöityminen010604 marine biology & hydrobiologySpecies diversityluonnon monimuotoisuusbiodiversiteettiMacrophytenull models species richnesseutrophicationta1181Environmental sciencebeta diversitySpatial variabilitySpecies richnessWater qualitywater plantsvesikasvitFrontiers in Plant Science
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Potential for adaptation to climate change: family-level variation in fitness-related traits and their responses to heat waves in a snail population.

2017

Background On-going global climate change poses a serious threat for natural populations unless they are able to evolutionarily adapt to changing environmental conditions (e.g. increasing average temperatures, occurrence of extreme weather events). A prerequisite for evolutionary change is within-population heritable genetic variation in traits subject to selection. In relation to climate change, mainly phenological traits as well as heat and desiccation resistance have been examined for such variation. Therefore, it is important to investigate adaptive potential under climate change conditions across a broader range of traits. This is especially true for life-history traits and defences ag…

sopeutuminenEvolutionG × E interaction; Global warming; Great pond snail; Immunocompetence; Life history trait; MolluscAcclimatizationClimate ChangeReproductionGlobal warmingSnailsGreat pond snailnilviäisetG × E interactionGenetic VariationFresh WateradaptationilmastonmuutoksetEnvironmentBiological EvolutionpiippolimakotiloimmuunijärjestelmäQH359-425Life history traitAnimalsMolluscImmunocompetenceResearch ArticleBMC evolutionary biology
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