Data from: Node-based measures of connectivity in genetic networks

At-site environmental conditions can have strong influences on genetic connectivity, and in particular on the immigration and settlement phases of dispersal. However, at-site processes are rarely explored in landscape genetic analyses. Networks can facilitate the study of at-site processes, where ne...

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Bibliographic Details
Main Authors: Koen, Erin L., Bowman, Jeff, Wilson, Paul J.
Format: Dataset
Language:English
Published: Dryad 2015
Subjects:
nodes
American marten
microsatellite
edge weight
Landscape Genetics
Martes americana
Genetic Network
simulation
Ontario
Canada
Life sciences
medicine and health care
envir
geo
Online Access:https://doi.org/10.5061/dryad.4tg23
Description
Summary:At-site environmental conditions can have strong influences on genetic connectivity, and in particular on the immigration and settlement phases of dispersal. However, at-site processes are rarely explored in landscape genetic analyses. Networks can facilitate the study of at-site processes, where network nodes are used to model site-level effects. We used simulated genetic networks to compare and contrast the performance of 7 node-based (as opposed to edge-based) genetic connectivity metrics. We simulated increasing node connectivity by varying migration in two ways: we increased the number of migrants moving between a focal node and a set number of recipient nodes, and we increased the number of recipient nodes receiving a set number of migrants. We found that two metrics in particular, the average edge weight and the average inverse edge weight, varied linearly with simulated connectivity. Conversely, node degree was not a good measure of connectivity. We demonstrated the use of average inverse edge weight to describe the influence of at-site habitat characteristics on genetic connectivity of 653 American martens (Martes americana) in Ontario, Canada. We found that highly connected nodes had high habitat quality for marten (deep snow and high proportions of coniferous and mature forest) and were farther from the range edge. We recommend the use of node-based genetic connectivity metrics, in particular, average edge weight or average inverse edge weight, to model the influences of at-site habitat conditions on the immigration and settlement phases of dispersal. Mean landcover in buffers around marten sample locationsThis file includes the mean and standard deviation of the climate and landcover variables within each 9-km radius buffer around American marten (Martes americana) sampling sites (n=29) in Ontario, Canada.koen_landcover_in_buffers.csvMicrosatellite genotypes of American marten in Ontario, CanadaThis file contains genotypes (12 microsatellite loci) for 653 martens sampled at 29 sites in Ontario, ...

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