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Modeling the Non-Stationary Climate Dependent Temporal Dynamics of Aedes aegypti
Authors:Tayn?na C Sim?es  Cláudia T Code?o  Aline A Nobre  álvaro E Eiras
Institution:1. Department of Epidemiology and Quantitative Methods in Health - DEMQS-ENSP/Fiocruz, Rio de Janeiro, RJ, Brazil.; 2. Scientific Computing Program - PROCC/Fiocruz, Rio de Janeiro, RJ, Brazil.; 3. Scientific Computation Program - PROCC/Fiocruz, Rio de Janeiro, RJ, Brazil.; 4. Department of Parasitology - Institute of Biological Sciences, Federal University of Minas Gerais, Belo Horizonte, MG, Brazil.; SUNY College of Environmental Science and Forestry, United States of America,
Abstract:

Background

Temperature and humidity strongly affect the physiology, longevity, fecundity and dispersal behavior of Aedes aegypti, vector of dengue fever. Contrastingly, the statistical associations measured between time series of mosquito abundance and meteorological variables are often weak and contradictory. Here, we investigated the significance of these relationships at different time scales.

Methods and Findings

A time series of the adult mosquito abundance from a medium-sized city in Brazil, lasting 109 weeks was analyzed. Meteorological variables included temperature, precipitation, wind velocity and humidity. As analytical tools, generalized linear models (GLM) with time lags and interaction terms were used to identify average effects while the wavelet analysis was complementarily used to identify transient associations. The fitted GLM showed that mosquito abundance is significantly affected by the interaction between lagged temperature and humidity, and also by the mosquito abundance a week earlier. Extreme meteorological variables were the best predictors, and the mosquito population tended to increase at values above and 54% humidity. The wavelet analysis identified non-stationary local effects of these meteorological variables on abundance throughout the study period, with peaks in the spring-summer period. The wavelet detected weak but significant effects for precipitation and wind velocity.

Conclusion

Our results support the presence of transient relationships between meteorological variables and mosquito abundance. Such transient association may be explained by the ability of Ae. aegypti to buffer part of its response to climate, for example, by choosing sites with proper microclimate. We also observed enough coupling between the abundance and meteorological variables to develop a model with good predictive power. Extreme values of meteorological variables with time lags, interaction terms and previous mosquito abundance are strong predictors and should be considered when understanding the climate effect on mosquito abundance and population growth.
Keywords:
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