Abstract Plant–pollinator systems are essential for ecosystem functioning, which calls for an understanding of the determinants of their robustness to environmental threats. Previous studies considering such robustness have focused mostly on species’ connectivity properties, particularly their degree. We hypothesized that species’ phenological attributes are at least as important as degree as determinants of network robustness. To test this, we combined dynamic modeling, computer simulation and analysis of data from 12 plant–pollinator networks with detailed information of topology of interactions as well as species’ phenology of plant flowering and pollinator emergence. We found that phenological attributes are strong determinants of netwo...
[eng] Theoretical models indicate that the structure of plant-pollinator networks has important impl...
Plant–pollinator network studies have uncovered important generalities in the structure of these com...
Species extinctions pose serious threats to the functioning of ecological communities worldwide. We ...
Abstract Many structural patterns have been found to be important for the stability and robustness o...
The pollination success of animal-pollinated plants depends on the temporal coupling between floweri...
[eng] High robustness of complex ecological systems in the face of speciesextinction has been hypoth...
[eng] Global threats to plant-pollinator interactions are potentially serious in alpine ecosystems, ...
Aim Extinctions and coextinctions seriously threaten global plant–pollinator assemblies, and thus...
[eng] Mutualistic interactions conform the skeleton of many systems widespread in nature, with abund...
International audienceMost flowering plants depend on pollinators to reproduce. Thus, evaluating the...
Morphology and phenology influence plant–pollinator network structure, but whether they generate mor...
Ecological networks of two interacting guilds of species, such as flowering plants and pollinators, ...
The survival of most species depends on their network of mutualistic partnerships with other species...
Given ongoing pollinator declines, it is important to understand the dynamics of linked extinctions ...
Plant–pollinator mutualistic networks represent the ecological context of foraging (for pollinators)...
[eng] Theoretical models indicate that the structure of plant-pollinator networks has important impl...
Plant–pollinator network studies have uncovered important generalities in the structure of these com...
Species extinctions pose serious threats to the functioning of ecological communities worldwide. We ...
Abstract Many structural patterns have been found to be important for the stability and robustness o...
The pollination success of animal-pollinated plants depends on the temporal coupling between floweri...
[eng] High robustness of complex ecological systems in the face of speciesextinction has been hypoth...
[eng] Global threats to plant-pollinator interactions are potentially serious in alpine ecosystems, ...
Aim Extinctions and coextinctions seriously threaten global plant–pollinator assemblies, and thus...
[eng] Mutualistic interactions conform the skeleton of many systems widespread in nature, with abund...
International audienceMost flowering plants depend on pollinators to reproduce. Thus, evaluating the...
Morphology and phenology influence plant–pollinator network structure, but whether they generate mor...
Ecological networks of two interacting guilds of species, such as flowering plants and pollinators, ...
The survival of most species depends on their network of mutualistic partnerships with other species...
Given ongoing pollinator declines, it is important to understand the dynamics of linked extinctions ...
Plant–pollinator mutualistic networks represent the ecological context of foraging (for pollinators)...
[eng] Theoretical models indicate that the structure of plant-pollinator networks has important impl...
Plant–pollinator network studies have uncovered important generalities in the structure of these com...
Species extinctions pose serious threats to the functioning of ecological communities worldwide. We ...