Decomposition formula and stationary measures for stochastic Lotka-Volterra system with applications to turbulent convection

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Chen , L , Dong , Z , Jiang , J , Niu , L & Zhai , J 2019 , ' Decomposition formula and stationary measures for stochastic Lotka-Volterra system with applications to turbulent convection ' , Journal de Mathematiques Pures et Appliquées , vol. 125 , pp. 43-93 . https://doi.org/10.1016/j.matpur.2019.02.013

Title: Decomposition formula and stationary measures for stochastic Lotka-Volterra system with applications to turbulent convection
Author: Chen, Lifeng; Dong, Zhao; Jiang, Jifa; Niu, Lei; Zhai, Jianliang
Contributor: University of Helsinki, Department of Mathematics and Statistics
Date: 2019-05
Number of pages: 51
Belongs to series: Journal de Mathematiques Pures et Appliquées
ISSN: 0021-7824
URI: http://hdl.handle.net/10138/307239
Abstract: Motivated by the remarkable works of Busse and his collaborators in the 1980s on turbulent convection in a rotating layer, we explore the long-run behavior of stochastic Lotka-Volterra (LV) systems both in pull-back trajectories and in stationary measures. A decomposition formula is established to describe the relationship between the solutions of stochastic and deterministic LV systems and the stochastic logistic equation. By virtue of this formula, it can be verified that every pull-back omega limit set is an omega limit set of the deterministic LV system multiplied by the random equilibrium of the stochastic logistic equation. The formula is also used to derive the existence of a stationary measure, its support and ergodicity. We prove the tightness of stationary measures and that their weak limits are invariant with respect to the corresponding deterministic system and supported on the Birkhoff center. The developed theory is successfully utilized to completely classify three dimensional competitive stochastic LV systems into 37 classes. The expected occupation measures weakly converge to a strongly mixing measure and all stationary measures are obtained for each class except class 27 c). Among them there are two classes possessing a continuum of random closed orbits and strongly mixing measures supported on the cone surfaces, which weakly converge to the Haar measures of periodic orbits as the noise intensity vanishes. The class 27 c) is an exception, almost every pull-back trajectory cyclically oscillates around the boundary of the stochastic carrying simplex characterized by three unstable stationary solutions. The limit of the expected occupation measures is neither unique nor ergodic. These are consistent with symptoms of turbulence. (C) 2019 Elsevier Masson SAS. All rights reserved.
Subject: Stochastic Lotka-Volterra system
Stationary measure
Ergodicity
Support
Stochastically cyclical oscillation
Turbulence
ELLIPTIC-EQUATIONS
111 Mathematics
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