Qingshuang Xie scite author profile

Abstract. Lake eutrophication ecosystems tend to exhibit bistable kinetics with two preferential configurations of oligotrophic and eutrophic states, and perturbations in the environmental parameters can cause regime shifts between two alternative stable states, yielding catastrophic regime shifts. In this article, we study stochastic kinetics of regime shifts in a time-delayed lake eutrophication ecological system, where the environmental parameters are assumed to be disturbed by both input and loss external noises. The dynamical behavior of stochastic delay on the regime shifts between oligotrophic and eutrophic states is analyzed using numerical simulations. Time delays in loss and recycling processes are considered. It is shown from time series and probability distribution that noises and delays can induce regime shifts between two stable states. Theoretical analyses are used to support our numerical simulations. By using the mean first passage time (MFPT) technique, we also discuss the escape time problem between two stable states in time-delayed ecosystems. A detailed study of the MFPT depending on various noise characteristics is performed, and the main results are compared for different cases of time delays.

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Qingshuang Xie

Stochastic ecological kinetics of regime shifts in a time‐delayed lake eutrophication ecosystem

Different delays-induced regime shifts in a stochastic insect outbreak dynamics

Emergent bimodality and switch induced by time delays and noises in a synthetic gene circuit

Predicting fluctuations-caused regime shifts in a time delayed dynamics of an invading species

Non-Gaussian noise-weakened stability in a foraging colony system with time delay

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