Background: Understanding how biodiversity is shaped through time is a fundamental question in biology. Even though tropical rain forests (TRF) represent the most diverse terrestrial biomes on the planet, the timing, location and mechanisms of their diversification remain poorly understood. Molecular phylogenies are valuable tools for exploring these issues, but to date most studies have focused only on recent time scales, which minimises their explanatory potential. In order to provide a long-term view of TRF diversification, we constructed the first complete genus-level dated phylogeny of a largely TRF-restricted plant family with a known history dating back to the Cretaceous. Palms (Arecaceae/Palmae) are one of the most characteristic an...
Aim Forest composition and distribution are determined by a myriad of factors, including climate. As...
Tropical rainforest hyperdiversity is often suggested to have evolved over a long time-span (the mus...
Aim: The plight of the world's biodiversity hotspots has been paralleled by a debate over how to bes...
Background: Understanding how biodiversity is shaped through time is a fundamental question in biolo...
Tropical rain forests (TRF) are the most diverse terrestrial biome on Earth, but the diversification...
Aim Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. In two compa...
AIM: Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. Family-wide...
Aim Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. Family-wide ...
Tropical rainforests are the most diverse terrestrial biome, but their origins remain incompletely u...
Despite long-standing interest in the origin and maintenance of species diversity, little is known a...
Reconstructing evolutionary radiations is essential for understanding the processes that have genera...
The tropical Andes are a biodiversity hotspot, partly due to their rich and complex floristic compos...
International audienceTropical rainforest (TRF) is the most species-rich terrestrial biome on Earth,...
Aim Forest composition and distribution are determined by a myriad of factors, including climate. As...
Tropical rainforest hyperdiversity is often suggested to have evolved over a long time-span (the mus...
Aim: The plight of the world's biodiversity hotspots has been paralleled by a debate over how to bes...
Background: Understanding how biodiversity is shaped through time is a fundamental question in biolo...
Tropical rain forests (TRF) are the most diverse terrestrial biome on Earth, but the diversification...
Aim Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. In two compa...
AIM: Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. Family-wide...
Aim Palms (Arecaceae/Palmae) are a model group for evolutionary studies in the tropics. Family-wide ...
Tropical rainforests are the most diverse terrestrial biome, but their origins remain incompletely u...
Despite long-standing interest in the origin and maintenance of species diversity, little is known a...
Reconstructing evolutionary radiations is essential for understanding the processes that have genera...
The tropical Andes are a biodiversity hotspot, partly due to their rich and complex floristic compos...
International audienceTropical rainforest (TRF) is the most species-rich terrestrial biome on Earth,...
Aim Forest composition and distribution are determined by a myriad of factors, including climate. As...
Tropical rainforest hyperdiversity is often suggested to have evolved over a long time-span (the mus...
Aim: The plight of the world's biodiversity hotspots has been paralleled by a debate over how to bes...