1. Topography affects abiotic conditions which can influence the structure, function, and dynamics of ecological communities. An increasing number of studies have demonstrated biological consequences of fine-scale topographic heterogeneity but we have a limited understanding of how these effects depend on the climate context. 2. We merged high-resolution (1 m2) data on topography and canopy height derived from airborne lidar with ground-based data from 15 forest plots in Puerto Rico distributed along a precipitation gradient spanning ca. 800 to 3,500 mm yr-1. Ground-based data included species composition, estimated above-ground biomass (AGB), and two key functional traits (wood density and leaf mass per area, LMA) that reflect resource-use...
We determined the relationship of forest composition and alpha diversity (species diversity of a loc...
Clouds have profound consequences for ecosystem structure and function. Yet, the direct monitoring o...
International audienceAim: To understand how variations in precipitation and topographic wetness inf...
1. Topography affects abiotic conditions which can influence the structure, function and dynamics of...
Topography is associated with variation in soil water, biogeochemical properties and climate, which ...
Distributions of foliar nutrients across forest canopies can give insight into their plant functiona...
This research seeks to understand how tree species richness and diversity relates to field data (1-h...
Predicting drought responses of individual trees in tropical forests remains challenging, in part be...
Topography is a key driver of tropical forest structure and composition, as it constrains local nut...
Seasonally dry tropical forests (SDTFs) are one of the most threatened forests worldwide. These spec...
Background: Canopy structure, defined by leaf area index (LAI), fractional vegetation cover (FCover)...
Forests are often exposed to regular, non-severe winds (chronic wind exposure), yet the effect of su...
Most plant species are non-randomly distributed across environmental gradients in light, water, and ...
A spatial gap exists between fine scale forest census plot dynamics and coarse scale landscape proce...
International audienceTropical forests are complex ecosystems that show high spatial variability in ...
We determined the relationship of forest composition and alpha diversity (species diversity of a loc...
Clouds have profound consequences for ecosystem structure and function. Yet, the direct monitoring o...
International audienceAim: To understand how variations in precipitation and topographic wetness inf...
1. Topography affects abiotic conditions which can influence the structure, function and dynamics of...
Topography is associated with variation in soil water, biogeochemical properties and climate, which ...
Distributions of foliar nutrients across forest canopies can give insight into their plant functiona...
This research seeks to understand how tree species richness and diversity relates to field data (1-h...
Predicting drought responses of individual trees in tropical forests remains challenging, in part be...
Topography is a key driver of tropical forest structure and composition, as it constrains local nut...
Seasonally dry tropical forests (SDTFs) are one of the most threatened forests worldwide. These spec...
Background: Canopy structure, defined by leaf area index (LAI), fractional vegetation cover (FCover)...
Forests are often exposed to regular, non-severe winds (chronic wind exposure), yet the effect of su...
Most plant species are non-randomly distributed across environmental gradients in light, water, and ...
A spatial gap exists between fine scale forest census plot dynamics and coarse scale landscape proce...
International audienceTropical forests are complex ecosystems that show high spatial variability in ...
We determined the relationship of forest composition and alpha diversity (species diversity of a loc...
Clouds have profound consequences for ecosystem structure and function. Yet, the direct monitoring o...
International audienceAim: To understand how variations in precipitation and topographic wetness inf...