Survival to extinction in a slowly varying harvested logistic population model
Journal Article

This work considers a harvested logistic population for which birth rate, carrying capacity and harvesting rate all vary slowly with time. Asymptotic results from earlier work, obtained using a multiscaling technique, are combined to construct approximate expressions for the evolving population for the situation where the population initially survives to a slowly varying limiting state, but then, due to increasing harvesting, is reduced to extinction in finite time. These results are shown to give very good agreement with those obtained from numerical computation.




Majda A. Idlango, (11-2013), Applied Mathematics Letters: ELSEVIER, 26 (11), 1035-1040

Harvesting a logistic population in a slowly varying environment
Journal Article

The classic problem for a logistically evolving single species population being harvested involves three parameters: rate constant, carrying capacity and harvesting rate, which are taken to be positive constants. However, in real world situations, these parameters may vary with time. This paper considers the situation where these vary on a time scale much longer than that intrinsic to the population evolution itself. Application of a multiple time scale approach gives approximate explicit closed form expressions for the changing population, that compare favorably with those generated from numerical solutions.

Majda A. Idlango, John J. Shepherd, John A. Gear, (01-2012), Applied Mathematics Letters: ELSEVIER, 25 (2012), 81-87

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