A simple SEIR model for malaria transmission dynamics is formulated as
our baseline model. The metamorphic stages in the mosquito population are
then included and a simple stage-structured mosquito population model is
introduced, where the mosquito population is divided into two classes, with
all three aquatic stages in one class and all adults in the other class, to keep
the model tractable in mathematical analysis. After a brief investigation of
this simple stage-structured mosquito model, it is incorporated into the
baseline model to formulate a stage-structured malaria model. A basic
analysis for the stage-structured malaria model is provided and it is shown
that a theoretical framework can be built up for further studies on the impact
of environmental or climate change on the malaria transmission. It is also
shown that both the baseline and the stage-structured malaria models
undergo backward bifurcations.
Citation: Jia Li. Malaria model with stage-structured mosquitoes[J]. Mathematical Biosciences and Engineering, 2011, 8(3): 753-768. doi: 10.3934/mbe.2011.8.753
Abstract
A simple SEIR model for malaria transmission dynamics is formulated as
our baseline model. The metamorphic stages in the mosquito population are
then included and a simple stage-structured mosquito population model is
introduced, where the mosquito population is divided into two classes, with
all three aquatic stages in one class and all adults in the other class, to keep
the model tractable in mathematical analysis. After a brief investigation of
this simple stage-structured mosquito model, it is incorporated into the
baseline model to formulate a stage-structured malaria model. A basic
analysis for the stage-structured malaria model is provided and it is shown
that a theoretical framework can be built up for further studies on the impact
of environmental or climate change on the malaria transmission. It is also
shown that both the baseline and the stage-structured malaria models
undergo backward bifurcations.
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