Stochastic models for the Trojan Y-Chromosome eradication strategy of an invasive species

Stochastic models for the Trojan Y-Chromosome eradication strategy of an invasive species

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X. Y. Wang, J. R. Walton and R. D. Parshad,  Journal of Biological Dynamics,  10:179-199. 2015.

The Trojan Y-Chromosome (TYC) strategy, an autocidal genetic bio-control method, has been proposed to eliminate invasive alien species. In this work, we develop a Markov jump process model for this strategy, and we verify that there is a positive probability for wild-type females going extinct within a finite time. Moreover, when sex-reversed Trojan females are introduced at a constant population size, we formulate a stochastic differential equation (SDE) model as an approximation to the proposed Markov jump process model. Using the SDE model, we investigate the probability distribution and expectation of the extinction time of wild-type females by solving Kolmogorov equations associated with these statistics. The results indicate how the probability distribution and expectation of the extinction time are shaped by the initial conditions and the model parameters.