Is population genetic structure of vascular plants shaped more by ecological or geographic factors? A study case on the Mediterranean endemic Centaurea filiformis (Asteraceae)

Is population genetic structure of vascular plants shaped more by ecological or geographic factors? A study case on the Mediterranean endemic Centaurea filiformis (Asteraceae)

All known populations of the Sardinian endemic Centaurea filiformis Viv. (Asteraceae) were studied in order to understand the impact of both geographic and ecological factors on the genetic structuring of this species. Fourteen populations and 234 individuals were sampled. The demographic structure...

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Bibliographic Details
Published in:Plant biology (Stuttgart, Germany) Vol. 20; no. 5; pp. 936 - 947
Main Authors: Farris, E, Filigheddu, R, Mameli, G, Falanga, V, Vanetti, I, Rosati, L, Binelli, G
Format: Journal Article
Language:English
Published: England Wiley Subscription Services, Inc 01-09-2018
Subjects:
Adults
Asteraceae
Bayesian analysis
Centaurea
Colonization
Demographics
Differentiation
Ecological monitoring
Ecology
Gene flow
Genetic analysis
Genetic distance
Genetic structure
Geography
Heterozygosity
Most probable number
Myrmecochory
Plants
Pollinators
Population
Population distribution
Population genetics
Population structure
Population studies
Regression analysis
Reproduction
Species
isolation by distance
isolation by environment
TESS
STRUCTURE
myrmecochory
microsatellite markers
Bayesian analysis
reproductive ecology
genetic variability
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Summary:All known populations of the Sardinian endemic Centaurea filiformis Viv. (Asteraceae) were studied in order to understand the impact of both geographic and ecological factors on the genetic structuring of this species. Fourteen populations and 234 individuals were sampled. The demographic structure of the populations and the reproductive ecology were estimated in 28 plots. Population genetic analyses were based on SSR markers. Genetic structure was investigated by spatial Bayesian methods. Average densities of 0.51 individuals m were detected, with a prevalence of adults. Ten species of pollinators were identified; C. filiformis ability to self-pollinate and myrmecochory were demonstrated experimentally. The populations displayed an average heterozygosity value of H  = 0.576 and high genetic differentiation (overall F  = 0.218). Bayesian analysis suggests that five is the most probable number of gene pools of origin. A strong correlation between geographic distances and genetic distances among populations was highlighted. The demographic population structure of C. filiformis is dominated by adults, suggesting that it is a stable-regressive or senile species, investing more in local persistence than colonisation ability. Despite the scattered distribution, the populations studied do not present evidence of genetic erosion. The analysis of genetic differentiation reveals very high differentiation levels among populations, thus indicating that effective barriers exist against gene flow. A general conclusion is that population distribution results in a clear genetic structure for the populations studied, and that geography and not ecology is shaping the present distribution of this species.
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ISSN:1435-8603
1438-8677
DOI:10.1111/plb.12853