Spatio-temporal models for plant epidemics : analytical and simulation studies

We formulate a stochastic spatio-temporal model for the spread of infectious diseases in plants. Studying the behaviour of a model which takes into account stochasticity and spatial extension usually involves intractable mathematics and requires the use of simulation. A challenging objective is to d...

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Main Author: Maule, Milena Maria
Published: University of Edinburgh 2000
Subjects:
580
Online Access:http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.657456
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spelling ndltd-bl.uk-oai-ethos.bl.uk-6574562016-06-21T03:21:06ZSpatio-temporal models for plant epidemics : analytical and simulation studiesMaule, Milena Maria2000We formulate a stochastic spatio-temporal model for the spread of infectious diseases in plants. Studying the behaviour of a model which takes into account stochasticity and spatial extension usually involves intractable mathematics and requires the use of simulation. A challenging objective is to develop analytical methods for general application which provide predictions for the expected behaviour of the model. The individual-based model comprises primary and secondary infection and recovery processes. Using stochastic simulation we study the expected behaviour and variability of the epidemic size, and characterise the disease patterns through spatial correlation. Both stationary and transient behaviour are analysed over the parameter space. Simulation is also used to test empirical extensions of non-spatial models which attempt to account for heterogeneous mixing of susceptibles and infecteds. Analytical methods based on cluster approximations are commonly used for predicting the dynamics of stochastic models characterised by nearest neighbour (NN) interactions. On the other hand, for models with more general interactions, the rather simplistic and non-spatial Mean Field approximation has been extensively used. We propose an alternative general approach, built on individual-based ODEs and closure approximations, for predicting the behaviour of spatial models in which the individuals interact according to a generic function of their distance. The approximations, which take into account the development of correlations in the spatial distribution of the population, are tested against the simulation results showing excellent agreement in most of the parameter space. We also test the ability of cluster approximations to capture the effects of the anisotropic spread of the disease. To this end, we formulate a generalised NN model in which the dispersal of propagules depends on the direction of spread and use simulation to assess the performance of different approximations.580University of Edinburghhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.657456http://hdl.handle.net/1842/15292Electronic Thesis or Dissertation
collection NDLTD
sources NDLTD
topic 580
spellingShingle 580
Maule, Milena Maria
Spatio-temporal models for plant epidemics : analytical and simulation studies
description We formulate a stochastic spatio-temporal model for the spread of infectious diseases in plants. Studying the behaviour of a model which takes into account stochasticity and spatial extension usually involves intractable mathematics and requires the use of simulation. A challenging objective is to develop analytical methods for general application which provide predictions for the expected behaviour of the model. The individual-based model comprises primary and secondary infection and recovery processes. Using stochastic simulation we study the expected behaviour and variability of the epidemic size, and characterise the disease patterns through spatial correlation. Both stationary and transient behaviour are analysed over the parameter space. Simulation is also used to test empirical extensions of non-spatial models which attempt to account for heterogeneous mixing of susceptibles and infecteds. Analytical methods based on cluster approximations are commonly used for predicting the dynamics of stochastic models characterised by nearest neighbour (NN) interactions. On the other hand, for models with more general interactions, the rather simplistic and non-spatial Mean Field approximation has been extensively used. We propose an alternative general approach, built on individual-based ODEs and closure approximations, for predicting the behaviour of spatial models in which the individuals interact according to a generic function of their distance. The approximations, which take into account the development of correlations in the spatial distribution of the population, are tested against the simulation results showing excellent agreement in most of the parameter space. We also test the ability of cluster approximations to capture the effects of the anisotropic spread of the disease. To this end, we formulate a generalised NN model in which the dispersal of propagules depends on the direction of spread and use simulation to assess the performance of different approximations.
author Maule, Milena Maria
author_facet Maule, Milena Maria
author_sort Maule, Milena Maria
title Spatio-temporal models for plant epidemics : analytical and simulation studies
title_short Spatio-temporal models for plant epidemics : analytical and simulation studies
title_full Spatio-temporal models for plant epidemics : analytical and simulation studies
title_fullStr Spatio-temporal models for plant epidemics : analytical and simulation studies
title_full_unstemmed Spatio-temporal models for plant epidemics : analytical and simulation studies
title_sort spatio-temporal models for plant epidemics : analytical and simulation studies
publisher University of Edinburgh
publishDate 2000
url http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.657456
work_keys_str_mv AT maulemilenamaria spatiotemporalmodelsforplantepidemicsanalyticalandsimulationstudies
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