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Multi-stage population models applied to insect dynamics

Orientador: Cláudia Pio Ferreira / Abstract: This thesis presents two manuscripts previously sent to publication in scientific journals. In the first manuscript, a delay differential equation model is developed to study the dynamics of two Aedes aegypti mosquito populations: infected by the intracellular bacteria Wolbachia and non-infected (wild) individuals. All the steady states of the system are determined, namely extinction of both populations, extinction of the infected population and persistence of the non-infected one, and coexistence. Their local stability is analyzed, including Hopf bifurcation, which promotes periodic solutions around the nontrivial equilibrium points. Finally, one investigates the global asymptotic stability of the trivial solution. In the second manuscript, after rearing soybean looper Chrysodeixis includens in laboratory conditions, thermal requirements for this insect-pest are estimated, from linear and nonlinear regression models, as well as the intrinsic growth rate. This parameter depends on the life-history traits and can provide a measure of population viability of the species. / Doutor

Identiferoai:union.ndltd.org:UNESP/oai:www.athena.biblioteca.unesp.br:UEP01-000930204
Date January 2020
CreatorsBenedito, Antone dos Santos
ContributorsUniversidade Estadual Paulista "Júlio de Mesquita Filho" Instituto de Biociências (Campus de Botucatu).
PublisherBotucatu,
Source SetsUniversidade Estadual Paulista
LanguageEnglish
Detected LanguageEnglish
Typecomputer file
RelationSistema requerido: Adobe Acrobat Reader

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