In this regard, one especially promising area of research is the adaptative effect of polyploidy, i.e. In the case of plants, it is important to assess the role of plasticity and evolutionary adaptations in shaping responses such as buffering, adapting, or moving opportunities in response to climate change 3.
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Our findings present polyploidy as a visible driver of geographical, ecological and adaptive variation within the species.Īnthropogenic climate change is predicted to result in dramatic effects on ecosystems across the planet 1, and there is a great need to predict their influence on species and communities which respond to ongoing stressful conditions 2. Montane pine forests were found to be a focal environment suitable for both cytotypes, which has a central place in the environmental space of the whole species. Moreover, tetraploids have a more extensive potential range, being six-fold larger than diploids. The tetraploids have a geographically broader distribution than diploids they also tend to occur at lower altitudes and grow in more diverse climates, geological units and habitats. Potential contact zones have been identified. The populations were found to be ploidy homogeneous and demonstrate a parapatric pattern of cytotype distribution. In addition, climatic, edaphic and habitat data was used to analyse environmental patterns and potential ranges of cytotypes in the first wide-range study of Festuca amethystina-a mixed-ploidy mountain grass. The study uses a range of techniques including flow cytometry, gradient and niche analysis, as well as distribution modelling.
This work examines whether there is a coupling between the distribution of cytotypes and their biogeographical niche, and how different niches will affect their potential range. One promising area in understanding the responses of plants to ongoing global climate change is the adaptative effect of polyploidy.
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