Geographic shifts in Aedes aegypti habitat suitability in Ecuador using larval surveillance data and ecological niche modeling: Implications of climate change for public health vector control
BACILLUS-ANTHRACIS
; MOSQUITO
; TEMPERATURE
; DISTRIBUTIONS
; DISEASE
; RISK
; GARP
; POPULATION
; DYNAMICS
; SURVIVAL
WOS学科分类:
Infectious Diseases
; Parasitology
; Tropical Medicine
WOS研究方向:
Infectious Diseases
; Parasitology
; Tropical Medicine
英文摘要:
Arboviral disease transmission by Aedes mosquitoes poses a major challenge to public health systems in Ecuador, where constraints on health services and resource allocation call for spatially informed management decisions. Employing a unique dataset of larval occurrence records provided by the Ecuadorian Ministry of Health, we used ecological niche models (ENMs) to estimate the current geographic distribution of Aedes aegypti in Ecuador, using mosquito presence as a proxy for risk of disease transmission. ENMs built with the Genetic Algorithm for Rule-Set Production (GARP) algorithm and a suite of environmental variables were assessed for agreement and accuracy. The top model of larval mosquito presence was projected to the year 2050 under various combinations of greenhouse gas emissions scenarios and models of climate change. Under current climatic conditions, larval mosquitoes were not predicted in areas of high elevation in Ecuador, such as the Andes mountain range, as well as the eastern portion of the Amazon basin. However, all models projected to scenarios of future climate change demonstrated potential shifts in mosquito distribution, wherein range contractions were seen throughout most of eastern Ecuador, and areas of transitional elevation became suitable for mosquito presence. Encroachment of Ae. aegypti into mountainous terrain was estimated to affect up to 4,215 km(2) under the most extreme scenario of climate change, an area which would put over 12,000 people currently living in transitional areas at risk. This distributional shift into communities at higher elevations indicates an area of concern for public health agencies, as targeted interventions may be needed to protect vulnerable populations with limited prior exposure to mosquito-borne diseases. Ultimately, the results of this study serve as a tool for informing public health policy and mosquito abatement strategies in Ecuador.
Author summary The yellow fever mosquito (Aedes aegypti) is a medically important vector of arboviral diseases in Ecuador, such as dengue fever and chikungunya. Managing Ae. aegypti is a challenge to public health agencies in Latin America, where the use of limited resources must be planned in an efficient, targeted manner. The spatial distribution of Ae. aegypti can be used as a proxy for risk of disease exposure, guiding policy formation and decision-making. We used ecological niche models in this study to predict the range of Ae. aegypti in Ecuador, based on agency larval mosquito surveillance records and layers of environmental predictors (e.g. climate, elevation, and human population). The best models of current range were then projected to the year 2050 under a variety of greenhouse gas emissions scenarios and models of climate change. All modeled future scenarios predicted shifts in the range of Ae. aegypti, allowing us to assess human populations that may be at risk of becoming exposed to Aedes vectored diseases. As climate changes, we predict that communities living in areas of transitional elevation along the Andes mountain range are vulnerable to the expansion of Ae. aegypti.
1.Univ Florida, Dept Geog, Quantitat Dis Ecol & Conservat QDEC Lab Grp, Gainesville, FL 32611 USA 2.Univ Florida, Emerging Pathogens Inst, Gainesville, FL 32611 USA 3.SUNY Upstate Med Univ, Inst Global Hlth & Translat Sci, Syracuse, NY 13210 USA 4.Minist Salud Publ, Guayaquil, Ecuador 5.Univ Florida, Dept Geog, Spatial Epidemiol & Ecol Res SEER Lab, Gainesville, FL 32611 USA
Recommended Citation:
Lippi, Catherine A.,Stewart-Ibarra, Anna M.,Loor, M. E. Franklin Bajana,et al. Geographic shifts in Aedes aegypti habitat suitability in Ecuador using larval surveillance data and ecological niche modeling: Implications of climate change for public health vector control[J]. PLOS NEGLECTED TROPICAL DISEASES,2019-01-01,13(4)