Many empirical studies have assessed fine‐scale spatial genetic structure (SGS), ie the
nonrandom spatial distribution of genotypes, within plant populations using genetic markers …

Spatial genetic structure (SGS) of plants results from the nonrandom distribution of related
individuals. SGS provides information on gene flow and spatial patterns of genetic diversity …

Development of suitable approaches to the analysis of genetic diversity in a spatial context,
where factors such as pollination, seed dispersal, breeding system, habitat heterogeneity …

Dispersal influences evolution, demography, and social characteristics but is generally
difficult to study. Here we combine long‐term demographic data from an intensively studied …

Spatial genetic structure was analysed with five highly polymorphic microsatellite loci in a
Romanian population of common ash (Fraxinus excelsior L.), a wind‐pollinated and wind …

Orchid seeds are unusual for being the smallest among flowering plants. These dust‐like
seeds are wind‐borne and, thus, would seem to have the potential for long‐distance …

Camellia japonica L.(Theaceae), an insect‐and bird‐pollinated, broad‐leaved evergreen
tree, is widely distributed in Japan and the southern Korean peninsula. The species has a …

Analyses of the spatial distribution pattern, spatial genetic structure and of genetic diversity
were carried out in two tropical tree species with contrasting breeding systems and different …

We analysed the change of spatial genetic structure (SGS) of reproductive individuals over
time in an expanding Pinus halepensis population. To our knowledge, this is the first …

Simarouba amara (Simaroubaceae) is a vertebrate-dispersed, insect-pollinated Neotropical
tree found in lowland moist forest from upper Mesoamerica to the Amazon basin. We …