Several models have been proposed to understand how so many species can coexist in ecosystems. Despite evidence showing that natural habitats are often patchy and fragmented, these models rarely take into account environmental spatial structure. In this study we investigated the influence of spatial structure in habitat and disturbance regime upon species’ traits and species’ coexistence in a metacommunity. We used a population-based model to simulate competing species in spatially explicit landscapes. The species traits we focused on were dispersal ability, competitiveness, reproductive investment and survival rate. Communities were characterized by their species richness and by the four life-history traits averaged over all the surviving ...
A primary goal in ecology is to understand why localities with similar abiotic environmental conditi...
The correspondence between species distribution and the environment depends on species ’ ability to ...
Disturbance is key to maintaining species diversity in plant communities. Although the effects of di...
Several models have been proposed to understand how so many species can coexist in ecosystems. Despi...
Trait variation within populations is an important area of research for empirical and theoretical ec...
Disentangling the mechanisms mediating the coexistence of habitat specialists and generalists has be...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
<div><p>Interspecific competition, life history traits, environmental heterogeneity and spatial stru...
Spatial environmental heterogeneity is widely accepted and cited as a mechanism underlying the struc...
Interspecific competition, life history traits, environmental heterogeneity and spatial structure as...
Both habitat heterogeneity and species’ life-history traits play important roles in driving populati...
Ecological strategies are integral to understanding species survival in different environments. Howe...
Understanding the mechanisms driving diversity in nature is an important and ongoing challenge in ou...
Ecological strategies are integral to understanding species survival in different environments. Howe...
A primary goal in ecology is to understand why localities with similar abiotic environmental conditi...
The correspondence between species distribution and the environment depends on species ’ ability to ...
Disturbance is key to maintaining species diversity in plant communities. Although the effects of di...
Several models have been proposed to understand how so many species can coexist in ecosystems. Despi...
Trait variation within populations is an important area of research for empirical and theoretical ec...
Disentangling the mechanisms mediating the coexistence of habitat specialists and generalists has be...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
Species distribution in a metacommunity varies according to their traits, the distribution of enviro...
<div><p>Interspecific competition, life history traits, environmental heterogeneity and spatial stru...
Spatial environmental heterogeneity is widely accepted and cited as a mechanism underlying the struc...
Interspecific competition, life history traits, environmental heterogeneity and spatial structure as...
Both habitat heterogeneity and species’ life-history traits play important roles in driving populati...
Ecological strategies are integral to understanding species survival in different environments. Howe...
Understanding the mechanisms driving diversity in nature is an important and ongoing challenge in ou...
Ecological strategies are integral to understanding species survival in different environments. Howe...
A primary goal in ecology is to understand why localities with similar abiotic environmental conditi...
The correspondence between species distribution and the environment depends on species ’ ability to ...
Disturbance is key to maintaining species diversity in plant communities. Although the effects of di...