In the past years, there have been many advances -but also many debates- around mutualistic communities, whose structural features appear to facilitate mutually beneficial interactions and increase biodiversity, under some given population dynamics. However, most approaches neglect the structure of inter-species competition by adopting a mean-field perspective that does not deal with competitive interactions properly. Here, we build up a multilayer network that naturally accounts for mutualism and competition and show, through a dynamical population model and numerical simulations, that there is an intricate relation between competition and mutualism. Specifically, the multilayer structure is coupled to a dynamical model in which the intra-...
Species interactions are an integral part of ecological communities. Collectively, these interaction...
SummaryThe topology of ecological interaction webs holds important information for theories of coevo...
SummaryThe structure of mutualistic networks provides clues to processes shaping biodiversity [1–10]...
In the past years, there have been many advances -but also many debates- around mutualistic communit...
A key question of theoretical ecology is which properties of ecosystems favour their stability and h...
Mutualistic networks, such as plant–pollinator networks, have attracted increasing attention in the ...
The tremendous diversity of species in ecological communities has motivated a century of research in...
Mutualisms are ubiquitous in nature, provide important ecosystem services, and involve many species ...
Most studies on ecological networks consider only a single interaction type (e.g. competitive, preda...
Several ecosystem services directly depend on mutualistic interactions. In species rich communities,...
The global decline of mutualists such as pollinators and seed dispersers may cause negative direct a...
Species are embedded in complex networks of interdependencies that may change across geographic loca...
The global decline of mutualists such as pollinators and seed dispersers may cause negative direct a...
Competition and mutualism are inevitable processes in ecology, and a central question is which and h...
The structure of mutualistic networks provides clues to processes shaping biodiversity [1-10]. Among...
Species interactions are an integral part of ecological communities. Collectively, these interaction...
SummaryThe topology of ecological interaction webs holds important information for theories of coevo...
SummaryThe structure of mutualistic networks provides clues to processes shaping biodiversity [1–10]...
In the past years, there have been many advances -but also many debates- around mutualistic communit...
A key question of theoretical ecology is which properties of ecosystems favour their stability and h...
Mutualistic networks, such as plant–pollinator networks, have attracted increasing attention in the ...
The tremendous diversity of species in ecological communities has motivated a century of research in...
Mutualisms are ubiquitous in nature, provide important ecosystem services, and involve many species ...
Most studies on ecological networks consider only a single interaction type (e.g. competitive, preda...
Several ecosystem services directly depend on mutualistic interactions. In species rich communities,...
The global decline of mutualists such as pollinators and seed dispersers may cause negative direct a...
Species are embedded in complex networks of interdependencies that may change across geographic loca...
The global decline of mutualists such as pollinators and seed dispersers may cause negative direct a...
Competition and mutualism are inevitable processes in ecology, and a central question is which and h...
The structure of mutualistic networks provides clues to processes shaping biodiversity [1-10]. Among...
Species interactions are an integral part of ecological communities. Collectively, these interaction...
SummaryThe topology of ecological interaction webs holds important information for theories of coevo...
SummaryThe structure of mutualistic networks provides clues to processes shaping biodiversity [1–10]...