Naslov
Stage and age structured Aedes vexans and Culex pipiens (Diptera: Culicidae) climate-dependent matrix population model

Autori
Lončarić, Željka ; Hackenberger Kutuzović, Branimir

Izvornik
Theoretical population biology (0040-5809) 83 (2013); 82-94

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
mosquitoes; variable carrying capacity; climate dependency; population model; transient dynamics

Sažetak
Aedes vexans and Culex pipiens mosquitoes are potential vectors of many arbovirial diseases. Due to the ongoing climate changes and reappearance of some zoonoses that were considered eradicated, there is a growing concern about potential disease outbreaks. Therefore, the prediction of increased adult population abundances becomes an essential tool for the appropriate implementation of mosquito control strategies. In order to describe population dynamics of Aedes vexans and Culex pipiens mosquitoes in temperate climate regions, a 3 year period (2008-2010) climate-dependent model was constructed. Models represent a combination of mathematical modeling and computer simulations, and include temperature, rainfall, photoperiods and the flooding dynamics of Aedes vexans breeding sites. Both models are structured according to developmental stages, and by individuals “age” (i.e. time spent in every developmental stage), as we wanted to enable time delay between appearances of different developmental stages of mosquitoes. The time delays length is temperature dependent, with temperature being the most important factor influencing morphogenesis rates in immatures and gonotrophic cycle durations in adult mosquitoes. To determine which developmental stages are the most sensitive and to which control measures should be aimed at, transient elasticities were calculated. The analysis showed that both mosquito species reacted to perturbation of same matrix elements, however, in the Culex pipiens model stage with greatest proportional sensitivity (i.e. elasticity) during most of the three years reproduction season were adults, while in Aedes vexans model it were larvae. Models were validated comparing a 7-day model outputs with data on human bait collection (HBC) obtained from Public Health Institute of Osijek-Baranja, with both model outputs showing valid compatibility with field data over the three year period. The proposed models can easily be modified to describe population dynamics of other mosquito species in different geographical areas, as well as for assessing efficiency and optimization of different mosquito control strategies.

Izvorni jezik
Engleski

Znanstvena područja
Biologija

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