Non-local interactions and the dynamics of dispersal in immature insects

A simple mathematical model is developed to explain the appearance of oscillations in the dispersal of larvae from the food source in experimental populations of certain species of blowflies. The life history of the immature stage in these flies, and in a number of other insects, is a system with tw...

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Veröffentlicht in:	Journal of theoretical biology 1997-04, Vol.185 (4), p.523-531
Hauptverfasser:	Boldrini, J.L, Bassanezi, R.C, Moretti, A.C, Zuben, F.J. von, Godoy, W.A.C, Zuben, C.J. von, Reis, S.F. dos
Format:	Artikel
Sprache:	eng
Schlagworte:	burrowing burrowing larvae Calliphoridae Chrysomya megacephala Chrysomya putoria Cochliomyia macellaria dispersal dynamics equations food supply frequency distribution horizontal frequency distribution interactions larvae mathematical models population density population distribution pupae
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container_title	Journal of theoretical biology
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creator	Boldrini, J.L Bassanezi, R.C Moretti, A.C Zuben, F.J. von Godoy, W.A.C Zuben, C.J. von Reis, S.F. dos
description	A simple mathematical model is developed to explain the appearance of oscillations in the dispersal of larvae from the food source in experimental populations of certain species of blowflies. The life history of the immature stage in these flies, and in a number of other insects, is a system with two populations, one of larvae dispersing on the soil and the other of larvae that burrow in the soil to pupate. The observed oscillations in the horizontal distribution of buried pupae at the end of the dispersal process are hypothesized to be a consequence of larval crowding at a given point in the pupation substrate. It is assumed that dispersing larvae are capable of perceiving variations in density of larvae buried at a given point in the substrate of pupation, and that pupal density may influence pupation of dispersing larvae. The assumed interaction between dispersing larvae and the larvae that are burrowing to pupate is modeled using the concept of non-local effects. Numerical solutions of integro-partial differential equations developed to model density-dependent immature dispersal demonstrate that variation in the parameter that governs the non-local interaction between dispersing and buried larvae induces oscillations in the final horizontal distribution of pupae.
doi_str_mv	10.1006/jtbi.1996.0320
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The life history of the immature stage in these flies, and in a number of other insects, is a system with two populations, one of larvae dispersing on the soil and the other of larvae that burrow in the soil to pupate. The observed oscillations in the horizontal distribution of buried pupae at the end of the dispersal process are hypothesized to be a consequence of larval crowding at a given point in the pupation substrate. It is assumed that dispersing larvae are capable of perceiving variations in density of larvae buried at a given point in the substrate of pupation, and that pupal density may influence pupation of dispersing larvae. The assumed interaction between dispersing larvae and the larvae that are burrowing to pupate is modeled using the concept of non-local effects. 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The life history of the immature stage in these flies, and in a number of other insects, is a system with two populations, one of larvae dispersing on the soil and the other of larvae that burrow in the soil to pupate. The observed oscillations in the horizontal distribution of buried pupae at the end of the dispersal process are hypothesized to be a consequence of larval crowding at a given point in the pupation substrate. It is assumed that dispersing larvae are capable of perceiving variations in density of larvae buried at a given point in the substrate of pupation, and that pupal density may influence pupation of dispersing larvae. The assumed interaction between dispersing larvae and the larvae that are burrowing to pupate is modeled using the concept of non-local effects. 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Numerical solutions of integro-partial differential equations developed to model density-dependent immature dispersal demonstrate that variation in the parameter that governs the non-local interaction between dispersing and buried larvae induces oscillations in the final horizontal distribution of pupae.</abstract><doi>10.1006/jtbi.1996.0320</doi><tpages>9</tpages></addata></record>
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source	Elsevier ScienceDirect Journals Complete
subjects	burrowing burrowing larvae Calliphoridae Chrysomya megacephala Chrysomya putoria Cochliomyia macellaria dispersal dynamics equations food supply frequency distribution horizontal frequency distribution interactions larvae mathematical models population density population distribution pupae
title	Non-local interactions and the dynamics of dispersal in immature insects
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