Modelling the potential distribution of arbovirus vector Aedes aegypti under current and future climate scenarios in Taiwan, China

BACKGROUND Aedes aegypti is one of the most important mosquito species and is a common disease‐transmitting pest in tropical areas. Various infectious arbovirus diseases can be transmitted by Ae. aegypti. With ongoing global climate change, we are facing an increasing public health threat from the r...

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Bibliographic Details
Published in:Pest management science 2019-11, Vol.75 (11), p.3076-3083
Main Authors: Liu, Boyang, Jiao, Zhihui, Ma, Jun, Gao, Xiang, Xiao, Jianhua, Hayat, Muhammad A, Wang, Hongbin
Format: Article
Language:English
Subjects:
Aedes - physiology
Aedes aegypti
Agricultural land
Animal Distribution
Animals
Arbovirus Infections - transmission
Arboviruses
China
Climate Change
Disease transmission
disease‐transmitting pest
Dry season
ecological niche model
Ecological niches
Ecosystem
Expansion
Habitats
Health risks
Modelling
Mosquito Vectors - physiology
Mosquitoes
mosquito‐borne diseases
New records
Niches
Organic chemistry
Pasture
Predictions
Public health
Taiwan
Vectors
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Summary:BACKGROUND Aedes aegypti is one of the most important mosquito species and is a common disease‐transmitting pest in tropical areas. Various infectious arbovirus diseases can be transmitted by Ae. aegypti. With ongoing global climate change, we are facing an increasing public health threat from the rapid spread of disease vectors into wider geographical areas. To better understand the current ecological niche range and possible future expansion of Ae. aegypti, an ecological niche modelling approach was adopted to predict its current and future potential habitat in Taiwan, China. RESULTS Based on observed occurrence records and environmental layers reflecting climate and land‐use conditions, predictions with a high resolution of 30 arcsec (approx. 1 × 1 km) were made by our model. Ae. aegypti was predicted to expand its habitat in varying degrees out of its current niche range under different climate scenarios for the future 21st century. Winter temperature and dry season precipitation were considered as important predictors among climate variables. Croplands, pasture, forested lands and urban lands were important land‐use variables. CONCLUSION Ae. aegypti is expected to establish new habitats out of its current niche range under the trend of global climate change. The extent of habitat expansion varies under different climate scenarios. Appropriate measures should be taken to prevent its expansion to a broader scale. Our study has important strategic implications for mosquito surveillance and the prevention and control of mosquito‐borne diseases. © 2019 Society of Chemical Industry Ae. aegypti, an important disease vector, is expected to establish new habitats out of its current niche range in Taiwan under the trend of global climate change.
ISSN:1526-498X
1526-4998
DOI:10.1002/ps.5424