Revisiting the role of rainfall variability and its interactive effects with the built environment in urban dengue outbreaks
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Revisiting the role of rainfall variability and its interactive effects with the built environment in urban dengue outbreaks. / Chen, Tzu-Hsin Karen; Chen, Vivian Yi-Ju; Wen, Tzai-Hung.
I: Applied Geography, Bind 101, 2018, s. 14.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - Revisiting the role of rainfall variability and its interactive effects with the built environment in urban dengue outbreaks
AU - Chen, Tzu-Hsin Karen
AU - Chen, Vivian Yi-Ju
AU - Wen, Tzai-Hung
PY - 2018
Y1 - 2018
N2 - Dengue fever is a rapidly spreading mosquito-borne disease. Previous studies have shown that dengue vector mosquitoes are weather sensitive, and the effect of temperature on dengue transmission has been confirmed. However, associations between rainfall events and dengue incidence are not consistent, and few studies have addressed the roles of the magnitude and frequency of rainfall events in dengue transmission. Therefore, the purpose of this study was to differentiate the long-term and short-term effects of rainfall variation on dengue transmission and to investigate these effects within different socio-ecological contexts in southern Taiwan, which is a high-epidemic tropical region. A negative binomial multilevel model with Gaussian serial correlation was used in this study to investigate the intra- and inter-annual rainfall variability to determine the effects of rainfall on dengue occurrence in the pre-epidemic and epidemic seasons. Our significant results indicate that short-term rainfall effects and dengue show a non-linear relationship in which medium rainfall during the dengue season poses the most significant risk. We also found that rainfall effects are interactive to the percentage of old houses. Our results show a strong synergistic interaction between low rain frequency and old house percentage, and between cumulative rainfall and old house percentage, contributing to dengue outbreaks. Our findings indicate that dengue occurrence is the result of both short-term rainfall and long-term rainfall accumulated in old built-up environments. This implies that during rainy periods, old neighborhoods may require more attention from the public and private sectors to improve environmental quality and promote resident health.
AB - Dengue fever is a rapidly spreading mosquito-borne disease. Previous studies have shown that dengue vector mosquitoes are weather sensitive, and the effect of temperature on dengue transmission has been confirmed. However, associations between rainfall events and dengue incidence are not consistent, and few studies have addressed the roles of the magnitude and frequency of rainfall events in dengue transmission. Therefore, the purpose of this study was to differentiate the long-term and short-term effects of rainfall variation on dengue transmission and to investigate these effects within different socio-ecological contexts in southern Taiwan, which is a high-epidemic tropical region. A negative binomial multilevel model with Gaussian serial correlation was used in this study to investigate the intra- and inter-annual rainfall variability to determine the effects of rainfall on dengue occurrence in the pre-epidemic and epidemic seasons. Our significant results indicate that short-term rainfall effects and dengue show a non-linear relationship in which medium rainfall during the dengue season poses the most significant risk. We also found that rainfall effects are interactive to the percentage of old houses. Our results show a strong synergistic interaction between low rain frequency and old house percentage, and between cumulative rainfall and old house percentage, contributing to dengue outbreaks. Our findings indicate that dengue occurrence is the result of both short-term rainfall and long-term rainfall accumulated in old built-up environments. This implies that during rainy periods, old neighborhoods may require more attention from the public and private sectors to improve environmental quality and promote resident health.
KW - Faculty of Science
KW - rainfall variability
KW - built environment
KW - Multilevel modeling
KW - Dengue
KW - Taiwan
U2 - https://doi.org/10.1016/j.apgeog.2018.10.005
DO - https://doi.org/10.1016/j.apgeog.2018.10.005
M3 - Journal article
VL - 101
SP - 14
JO - Applied Geography
JF - Applied Geography
SN - 0143-6228
ER -
ID: 236220541