TY - JOUR
T1 - Differences in Longevity and Temperature-Driven Extrinsic Incubation Period Correlate with Varying Dengue Risk in the Arizona–Sonora Desert Region
AU - Ernst, Kacey C.
AU - Walker, Kathleen R.
AU - Castro-Luque, A. Lucia
AU - Schmidt, Chris
AU - Joy, Teresa K.
AU - Brophy, Maureen
AU - Reyes-Castro, Pablo
AU - Díaz-Caravantes, Rolando Enrique
AU - Encinas, Veronica Ortiz
AU - Aguilera, Alfonso
AU - Gameros, Mercedes
AU - Cuevas Ruiz, Rosa Elena
AU - Hayden, Mary H.
AU - Alvarez, Gerardo
AU - Monaghan, Andrew
AU - Williamson, Daniel
AU - Arnbrister, Josh
AU - Gutiérrez, Eileen Jeffrey
AU - Carrière, Yves
AU - Riehle, Michael A.
N1 - Funding Information: This research was funded by grants R56AI091843 and R01AI091843 from NIH-NIAID. Publisher Copyright: © 2023 by the authors.
PY - 2023/4
Y1 - 2023/4
N2 - Dengue transmission is determined by a complex set of interactions between the environment, Aedes aegypti mosquitoes, dengue viruses, and humans. Emergence in new geographic areas can be unpredictable, with some regions having established mosquito populations for decades without locally acquired transmission. Key factors such as mosquito longevity, temperature-driven extrinsic incubation period (EIP), and vector–human contact can strongly influence the potential for disease transmission. To assess how these factors interact at the edge of the geographical range of dengue virus transmission, we conducted mosquito sampling in multiple urban areas located throughout the Arizona–Sonora desert region during the summer rainy seasons from 2013 to 2015. Mosquito population age structure, reflecting mosquito survivorship, was measured using a combination of parity analysis and relative gene expression of an age-related gene, SCP-1. Bloodmeal analysis was conducted on field collected blood-fed mosquitoes. Site-specific temperature was used to estimate the EIP, and this predicted EIP combined with mosquito age were combined to estimate the abundance of “potential” vectors (i.e., mosquitoes old enough to survive the EIP). Comparisons were made across cities by month and year. The dengue endemic cities Hermosillo and Ciudad Obregon, both in the state of Sonora, Mexico, had higher abundance of potential vectors than non-endemic Nogales, Sonora, Mexico. Interestingly, Tucson, Arizona consistently had a higher estimated abundance of potential vectors than dengue endemic regions of Sonora, Mexico. There were no observed city-level differences in species composition of blood meals. Combined, these data offer insights into the critical factors required for dengue transmission at the ecological edge of the mosquito’s range. However, further research is needed to integrate an understanding of how social and additional environmental factors constrain and enhance dengue transmission in emerging regions.
AB - Dengue transmission is determined by a complex set of interactions between the environment, Aedes aegypti mosquitoes, dengue viruses, and humans. Emergence in new geographic areas can be unpredictable, with some regions having established mosquito populations for decades without locally acquired transmission. Key factors such as mosquito longevity, temperature-driven extrinsic incubation period (EIP), and vector–human contact can strongly influence the potential for disease transmission. To assess how these factors interact at the edge of the geographical range of dengue virus transmission, we conducted mosquito sampling in multiple urban areas located throughout the Arizona–Sonora desert region during the summer rainy seasons from 2013 to 2015. Mosquito population age structure, reflecting mosquito survivorship, was measured using a combination of parity analysis and relative gene expression of an age-related gene, SCP-1. Bloodmeal analysis was conducted on field collected blood-fed mosquitoes. Site-specific temperature was used to estimate the EIP, and this predicted EIP combined with mosquito age were combined to estimate the abundance of “potential” vectors (i.e., mosquitoes old enough to survive the EIP). Comparisons were made across cities by month and year. The dengue endemic cities Hermosillo and Ciudad Obregon, both in the state of Sonora, Mexico, had higher abundance of potential vectors than non-endemic Nogales, Sonora, Mexico. Interestingly, Tucson, Arizona consistently had a higher estimated abundance of potential vectors than dengue endemic regions of Sonora, Mexico. There were no observed city-level differences in species composition of blood meals. Combined, these data offer insights into the critical factors required for dengue transmission at the ecological edge of the mosquito’s range. However, further research is needed to integrate an understanding of how social and additional environmental factors constrain and enhance dengue transmission in emerging regions.
KW - Aedes aegypti
KW - Mexico
KW - age-grading
KW - climate
KW - dengue
KW - extrinsic incubation period
KW - longevity
KW - mosquito
KW - parity
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U2 - 10.3390/v15040851
DO - 10.3390/v15040851
M3 - Article
C2 - 37112832
SN - 1999-4915
VL - 15
JO - Viruses
JF - Viruses
IS - 4
M1 - 851
ER -