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Population estimate using a trap-insect model

By Roumen Anguelov, Claire Dufourd and Yves Dumont


In order to develop efficient biological control of pest insects such as mosquitoes or fruit flies, the knowledge of the population size is essential. Typically, the only field data available is obtained using traps and/or mark-release-recapture experiments. Field experiments can be time consuming and costly to conduct, with no guarantee on the usefulness of the data collected for reliable estimation of the population size. In order to improve and even simplify the process of field data collection and experiments, TIM, a trap-insect model, is built. An equation governing the dynamics of insects responding to attractive traps is coupled to an equation modelling the spread of a chemical attractant released from the traps, which yields a chemotaxis PDE model. Numerical simulations are done using a finite elements approximation on a unstructured mesh refined near the traps, and enable us to propose and test a protocol for population parameter estimation. (Texte intégral

Topics: U10 - Méthodes mathématiques et statistiques, U40 - Méthodes de relevé, H10 - Ravageurs des plantes
Year: 2015
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Provided by: Agritrop

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