Food webs and meso-scale motifs allow us to understand the structure of ecological communities and define species' roles within them. This species-level perspective on networks permits tests for relationships between species' traits and their patterns of direct and indirect interactions. Such relationships could allow us to predict food-web structure based on more easily-obtained trait information. Here we calculated the roles of species (as vectors of motif position frequencies) in six well-resolved marine food webs and identified the motif positions associated with the greatest variation in species' roles. We then tested whether the frequencies of these positions varied with species' traits. Despite the coarse-grained traits we used, our ...
Network analysis is employed in biodiversity studies to explore the possible ecological implications...
Food webs have been found to exhibit remarkable “motif profiles”, patterns in the relative prevalenc...
International audiencePredator-prey interactions in natural ecosystems generate complex food webs th...
Food webs and meso-scale motifs allow us to understand the structure of ecological communities and d...
Food webs and meso-scale motifs allow us to understand the structure of ecological communities and d...
The use of functional traits to describe community structure is a promising approach to reveal gener...
1. Food webs are a powerful way to represent the diversity, structure, and function of ecological sy...
In ecosystems across the world, species co-exist, compete, and consume, all while adapting to enviro...
Networks of trophic interactions provide a lot of information on the functioning of marine ecosystem...
Understanding the mechanism shaping species assemblage is a fundamental goal in ecology. In the past...
Understanding the mechanism shaping species assemblages is a fundamental goal in ecology. In the pas...
Food web interactions govern how ecosystems respond to climate change and biodiversity loss. Modular...
Food web interactions govern how ecosystems respond to climate change and biodiversity loss. Modular...
Abstract Anthropic activities impact ecosystems worldwide thus contributing to the rapid erosion of...
Network analysis is employed in biodiversity studies to explore the possible ecological implications...
Food webs have been found to exhibit remarkable “motif profiles”, patterns in the relative prevalenc...
International audiencePredator-prey interactions in natural ecosystems generate complex food webs th...
Food webs and meso-scale motifs allow us to understand the structure of ecological communities and d...
Food webs and meso-scale motifs allow us to understand the structure of ecological communities and d...
The use of functional traits to describe community structure is a promising approach to reveal gener...
1. Food webs are a powerful way to represent the diversity, structure, and function of ecological sy...
In ecosystems across the world, species co-exist, compete, and consume, all while adapting to enviro...
Networks of trophic interactions provide a lot of information on the functioning of marine ecosystem...
Understanding the mechanism shaping species assemblage is a fundamental goal in ecology. In the past...
Understanding the mechanism shaping species assemblages is a fundamental goal in ecology. In the pas...
Food web interactions govern how ecosystems respond to climate change and biodiversity loss. Modular...
Food web interactions govern how ecosystems respond to climate change and biodiversity loss. Modular...
Abstract Anthropic activities impact ecosystems worldwide thus contributing to the rapid erosion of...
Network analysis is employed in biodiversity studies to explore the possible ecological implications...
Food webs have been found to exhibit remarkable “motif profiles”, patterns in the relative prevalenc...
International audiencePredator-prey interactions in natural ecosystems generate complex food webs th...