Liouvillian and Analytic First Integrals for the Brusselator System

“…Edelstein's system has one such first integral, namely H = y + z. With some exceptions the non-linear first integrals have rarely been considered, see [1,10,9] for some general considerations and [8,6,7,12] for specific examples. Non-linear first integral are often useful for studying the dynamics of the system, see for example [12,9].…”

Section: Introductionmentioning

confidence: 99%

On the Liouville integrability of Edelstein’s reaction system in R3

Ferragut

Valls

Wiuf

2018

Chaos, Solitons & Fractals

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“…In general, it is difficult to prove the existence or non-existence of Darboux 35 first integrals, which often depends on the reaction rate constants in complicated ways [11,12,17,10]. We hope that this paper would inspire further work to characterize the existence and form of non-linear first integrals for reaction networks.…”

mentioning

confidence: 96%

“…Although the use of linear conservation laws in reaction network theory is common, the non-linear first integrals have rarely been considered, with the exception of some special cases [15,1,17,11,12,20]. Quadratic first integrals have been characterized in [20].…”

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confidence: 99%

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Conservation Laws in Biochemical Reaction Networks

Mahdi¹,

Ferragut²,

Valls³

et al. 2017

SIAM J. Appl. Dyn. Syst.

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We study the existence of linear and non-linear conservation laws in biochemical reaction networks with mass-action kinetics. It is straightforward to compute the linear conservation laws as they are related to the left null-space of the stoichiometry matrix. The non-linear conservation laws are difficult to identify and have rarely been considered in the context of mass-action reaction networks.Here, using Darboux theory of integrability we provide necessary structural (i.e. parameter independent) conditions on a reaction network to guarantee the existence of non-linear conservation laws of certain type. We give necessary and sufficient structural conditions for the existence of exponential factors with linear exponents and univariate linear Darboux polynomials. This allows us to conclude that a non-linear first integrals (similar to Lotka-Volterra system) only exists under the same structural condition. We finally show that the existence of such a first integral generally implies that the system is persistent and has stable steady states. We illustrate our results by examples.

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