We study how a rate of environmental change affects stability and persistence of an ecological community. Using an explicit rate of change in the environmental parameters of a spatially coupled ecological system, we study the rate-dependent responses associated with extinction of a metacommunity. Our results elucidate various scenarios of rate-induced extinction (R-tipping) such as tipping through increasing amplitude of oscillations, tipping through synchronized dynamics, and tipping through tracking unstable states. Further, we show rate-dependent delayed responses away from bifurcation points, but with tracking unstable states. Our results emphasize that the rate of environmental change can reveal the unexpected extinction dynamics which...
Globally, ecosystems are exposed to human-induced changes in the environment. The effect of environm...
<p>Anticipating critical transitions in spatially extended systems is a key topic of interest to eco...
Recent studies have highlighted the importance of higher‐order competitive interactions in stabilizi...
Many systems from the natural world have to adapt to continuously changing external conditions. Some...
Theory suggests that gradual environmental change may erode the resilience of ecosystems and increas...
We analyse nonlinear tipping phenomena in a bi-stable ecosystem model, defined as sudden and unexpec...
Recently it has been show that in some ecosystems fast rates of change of environmental drivers may ...
Ecosystems often undergo abrupt regime shifts in response to gradual external changes. These shifts ...
International audienceEcological systems are prone to dramatic shifts between alternative stable sta...
We propose a framework to study tipping points in reaction-diffusion equations (RDEs) in one spatial...
In an ecosystem, environmental changes as a result of natural and human processes can cause some key...
These authors contributed equally to this work. Ecosystems can undergo sudden shifts to undesirable ...
The ecosystems of the world are currently facing a variety of anthropogenic perturbations, such as c...
Catastrophic regime shifts in ecosystems occur when the system is tipped into a new attractor state ...
Globally, ecosystems are exposed to human-induced changes in the environment. The effect of environm...
Globally, ecosystems are exposed to human-induced changes in the environment. The effect of environm...
<p>Anticipating critical transitions in spatially extended systems is a key topic of interest to eco...
Recent studies have highlighted the importance of higher‐order competitive interactions in stabilizi...
Many systems from the natural world have to adapt to continuously changing external conditions. Some...
Theory suggests that gradual environmental change may erode the resilience of ecosystems and increas...
We analyse nonlinear tipping phenomena in a bi-stable ecosystem model, defined as sudden and unexpec...
Recently it has been show that in some ecosystems fast rates of change of environmental drivers may ...
Ecosystems often undergo abrupt regime shifts in response to gradual external changes. These shifts ...
International audienceEcological systems are prone to dramatic shifts between alternative stable sta...
We propose a framework to study tipping points in reaction-diffusion equations (RDEs) in one spatial...
In an ecosystem, environmental changes as a result of natural and human processes can cause some key...
These authors contributed equally to this work. Ecosystems can undergo sudden shifts to undesirable ...
The ecosystems of the world are currently facing a variety of anthropogenic perturbations, such as c...
Catastrophic regime shifts in ecosystems occur when the system is tipped into a new attractor state ...
Globally, ecosystems are exposed to human-induced changes in the environment. The effect of environm...
Globally, ecosystems are exposed to human-induced changes in the environment. The effect of environm...
<p>Anticipating critical transitions in spatially extended systems is a key topic of interest to eco...
Recent studies have highlighted the importance of higher‐order competitive interactions in stabilizi...