Description: Das Projekt "Effects of climate change on past, recent, and future biodiversity of alpine/arctic plants: Integrative evidence from phylogenies, population genetics, ecological niche modelling and new insights for conservation" wird vom Umweltbundesamt gefördert und von Universität Heidelberg,Heidelberger Institut für Pflanzenwissenschaften (HIP) Einrichtung: Botanischer Garten durchgeführt. Responding to the twin crises of global warming and biodiversity loss requires a deep understanding of how climate affects the processes that generate and destroy biodiversity, primarily through its effects on the ecology and distribution of species. Recent improvements in our ability to reconstruct the history of biodiversity through timed phylogenies, estimate changes in genetic diversity, and predict the potential distribution of selected species with ecological niche models (ENMs) now allow us to infer the evolution of ecological preferences and distributional ranges at different temporal scales. Our two case studies focus on alpine/arctic regions, because they are among those most endangered by global warming. The first study will use, for the first time, a combination of ENM and phylogeny to test the model of hybrid, polyploid speciation by secondary contact in arctic/alpine plants. We selected Primula sect. Aleuritia (simply Aleuritia, from here on), because our previous phylogenetic work provided clear hypotheses for the parental origins of polyploids, yet the distributions of the inferred progenitors do not currently overlap. Did the ranges of the proposed parents overlap at the time of allopolyploid origins, as predicted by the secondary contact model? To answer this question, we will produce a high-resolution, dated phylogeny of Aleuritia, optimize the ecological preferences of the hypothesized progenitors onto the dated phylogeny, and project their past distributional ranges onto the fine-resolution climatic scenarios recently developed for the Pleistocene. In the second case study, we will try to explain how small populations persisted on summits in the past and how they are affected by current and future climate change. Here we selected Saxifraga florulenta, a rare, endemic species of the Maritime Alps, because hypotheses of its phylogenetic relationships are available from our previous work, it occurs exclusively above 2000 m, and has very narrow ecological requirements. Consequently, if current trends of global warming continue, the strict ecological adaptation of S. florulenta to siliceous substrates at the highest altitudes of the Maritime Alps may represent a serious extinction risk. We will investigate whether the phylogeographic history, genetic diversity, climatic niche and dispersal mode of S. florulenta can explain its long persistence in the Maritime Alps, a hot spot of biodiversity, and predict its future survival or extinction on mountain tops. We will use a combination of genetic analysis and niche modeling to reconstruct changes in the niche, geographic distribution, and genetic diversity of this cold-adapted species.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Heidelberg ? Genökologie ? Substrat ? Silikat ? Artenverlust ? Genetik ? Ökologie ? Ökologische Nische ? Endemische Arten ? Island ? Biodiversitätsverlust ? Datierung ? Szenario ? Topographie ? Wirkung ? Konservierung ? Globale Erwärmung ? Klimafolgen ? Alpen ? Berg ? Evolution ? Fallstudie ? Botanischer Garten ? Geographie ? Modellversuch ? Studie ? Hochgebirge ? Biologische Anpassung ? Phylogenese ? Modellierung ? Kulturfolger ? Schaden ? Wirkung ? Genetische Vielfalt ? Neuanlage ? Biodiversität ? Klima ? Klimawandel ? Persistenz ? Risiko ? Gebiet ? Gebirge ? Arbeit ? Bevölkerung ? Muskelarbeit ? EINSATZ ? phylogeny and phylogeography ? polyploid speciation ? KAELTE ? MISCHUNG ? MOEGLICHKEIT ? VERTEILUNG ? NEU ? PLEISTOZAEN ? plant distribution ? rare ? Art [Spezies] ? Eltern ? BEDROHT ? arctic alpine ecosystems ? FRAGE ? Bepflanzung ? breeding systems ? POTENZIAL ? ERFORDERNIS ? PROJEKT ? ecological niche modeling ? high-elevation refugia ? UEBERLEBEN ? VERARBEITEN ? AUSGEWAEHLT ? VERFUEGBAR ?
Region: Baden-Württemberg
Bounding box: 9° .. 9° x 48.5° .. 48.5°
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2011-02-01 - 2014-01-31
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