Premise of the study: Tropical forests are the most species-rich terrestrial communities on Earth, and understory trees and shrubs comprise a large fraction of their plant species diversity, especially at high rainfalls. The mechanisms responsible for generating such high levels of diversity remain unknown. One hypothesis is that fleshy-fruited understory species should have limited seed dispersal due to the sedentary nature of their avian dispersers, resulting in restricted gene flow, population differentiation at small spatial scales, and ultimately, high rates of allopatric speciation. Methods: We sampled four species of the hyperdiverse tropical shrub genus Psychotria (Rubiaceae) on Barro Colorado Island (BCI) and two nearby sites in Pa...
Aim: In island-like habitats, geographic isolation facilitates population and species divergence by ...
We examined population genetic structure and fine-scale spatial genetic structure (FSGS) in six pere...
Aim: Life history traits and range size are key correlates of genetic diversity in trees. We used a ...
Premise of the study: Tropical forests are the most species-rich terrestrial communities on Earth, a...
Premise of the study: Patterns of spatial genetic structure (SGS) were analyzed within a population ...
The Central American seasonally dry tropical (SDT) forest biome is one of the worlds’ most endangere...
Soil gradients are known to be an important driver of divergent natural selection in plant populatio...
Gene flow via pollen movement affects genetic variation in plant populations and is an important con...
In theory, conservation genetics predicts that forest fragmentation will reduce gene dispersal, but ...
Here, we explore the mating pattern and genetic structure of a tropical tree species, Cariniana estr...
Plant populations are seriously threatened by anthropogenic habitat disturbance. In particular, defa...
Numerous Neotropical rainforest species are distributed in both Amazonia and Central America, reflec...
Genetic diversity in two economically valuable neotropical tree species was evaluated using AFLP mar...
The mountains of South America are hotspots of plant diversity. How this diversity originated and ev...
Understanding how tree species coexist in the world’s most diverse tropical forests in the face of i...
Aim: In island-like habitats, geographic isolation facilitates population and species divergence by ...
We examined population genetic structure and fine-scale spatial genetic structure (FSGS) in six pere...
Aim: Life history traits and range size are key correlates of genetic diversity in trees. We used a ...
Premise of the study: Tropical forests are the most species-rich terrestrial communities on Earth, a...
Premise of the study: Patterns of spatial genetic structure (SGS) were analyzed within a population ...
The Central American seasonally dry tropical (SDT) forest biome is one of the worlds’ most endangere...
Soil gradients are known to be an important driver of divergent natural selection in plant populatio...
Gene flow via pollen movement affects genetic variation in plant populations and is an important con...
In theory, conservation genetics predicts that forest fragmentation will reduce gene dispersal, but ...
Here, we explore the mating pattern and genetic structure of a tropical tree species, Cariniana estr...
Plant populations are seriously threatened by anthropogenic habitat disturbance. In particular, defa...
Numerous Neotropical rainforest species are distributed in both Amazonia and Central America, reflec...
Genetic diversity in two economically valuable neotropical tree species was evaluated using AFLP mar...
The mountains of South America are hotspots of plant diversity. How this diversity originated and ev...
Understanding how tree species coexist in the world’s most diverse tropical forests in the face of i...
Aim: In island-like habitats, geographic isolation facilitates population and species divergence by ...
We examined population genetic structure and fine-scale spatial genetic structure (FSGS) in six pere...
Aim: Life history traits and range size are key correlates of genetic diversity in trees. We used a ...