Data from: Ecology and life history affect different aspects of the population structure of 27 high-alpine plants ...

A plant species' genetic population structure is the result of a complex combination of its life history, ecological preferences, position in the ecosystem, and historical factors. As a result, many different statistical methods exist that measure different aspects of species’ genetic structure...

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Bibliographic Details
Main Authors: Meirmans, Patrick G., Goudet, Jerome, Consortium, IntraBioDiv, Gaggiotti, Oscar E.
Format: Dataset
Language:English
Published: Dryad 2011
Subjects:
glacial refugia
Gentiana nivalis
redundancy analysis
Phyteuma hemisphaericum
Cerastium uniflorum
Hornungia alpina
Geum montanum
Dryas octopetala
Androsace obtusifolia
Arabis alpina
Peucedanum ostruthium
Loiseleuria procumbens
Luzula alpinopilosa
Alps
Ranunculus alpestris
Juncus trifidus
Cirsium spinosissimum
Geum reptans
Ligusticum mutellinoides
Campanula barbata
Gypsophila repens
Phyteuma betonicifolium
Saxifraga stellaris
Sesleria caerulea
Rhododendron ferrugineum
Trifolium alpinum
Hedysarum hedysaroides
Hypochaeris uniflora
AFLP
Holocene
Carex sempervirens
Carex firma
Online Access:https://dx.doi.org/10.5061/dryad.f3rk4
https://datadryad.org/stash/dataset/doi:10.5061/dryad.f3rk4
Description
Summary:A plant species' genetic population structure is the result of a complex combination of its life history, ecological preferences, position in the ecosystem, and historical factors. As a result, many different statistical methods exist that measure different aspects of species’ genetic structure. However, little is known about how these methods are interrelated and how they are related to a species’ ecology and life history. In this study, we used the IntraBioDiv AFLP-dataset from 27 high-alpine species to calculate eight genetic summary statistics that we jointly correlate to a set of six ecological and life-history traits. We found that there is a large amount of redundancy among the calculated summary statistics and that there is a significant association with the matrix of species traits. In a multivariate analysis, two main aspects of population structure were visible among the 27 species. The first aspect is related to the species’ dispersal capacities and the second is most likely related to the ... : Data Meirmans et al IntrabioDivThis data package contains the genetic marker data (Amplified Fragment Length Polymorphisms) for 27 high-alpine species from the European Alps, as well as the geographic coordinates of every sampling location. The data have been collected as a part of the European research project IntraBioDiv, lead by Pierre Taberlet. For a complete list of members of the consortium see the included file "Consortium.pdf". The IntraBioDiv project was supported by the Commission of the European Union Sustainable Development, Global Change and Ecosystems Programme - GOCE-CT-2003-505376. We are grateful that the members of the IntraBioDiv consortium allowed us to use their data and make it available to the scientific community. ...

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