Transfluthrin Spatial Repellent on US Military Materials Reduces Culex tarsalis Incursion in a Desert Environment

ABSTRACT Standard residual pesticides applied to US military materials such as camouflage netting can reduce mosquito biting pressure in the field but may contribute to the evolution of resistance. However, residual applications of a spatial repellent such as transfluthrin could allow mosquitoes the opportunity to escape, only inducing mortality if insects linger, for example after becoming trapped in a treated tent. In this study we investigated the capability of transfluthrin on 2 types of US military material to reduce natural populations of disease vector mosquitoes in a cool-arid desert field environment in southern California. We found that transfluthrin could reduce Culex tarsalis incursion into protected areas by up to 100% upon initial treatment and up to 45% for at least 16 days posttreatment, showing that this compound could be an effective element in the US Department of Defense integrated vector management system appropriate for further study.

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Transfluthrin Spatial Repellent on US Military Camouflage Netting Reduces Tabanids in a Warm-Temperate Environment

Journal of the American Mosquito Control Association ◽

10.2987/20-6933.1 ◽

2020 ◽

Vol 36 (3) ◽

pp. 212-215

Author(s):

S. C. Britch ◽

D. L. Kline ◽

K. J. Linthicum ◽

J. Urban ◽

E. Dickstein ◽

...

Keyword(s):

Pest Management ◽

Department Of Defense ◽

Gulf Coast ◽

Mechanical Transmission ◽

Us Military ◽

Field Environment ◽

Spatial Repellent ◽

The Us ◽

Temperate Environment ◽

Warm Temperate

ABSTRACT We investigated the capability of transfluthrin on US military camouflage netting to reduce collections of tabanid biting flies in a warm-temperate field environment on the Gulf Coast of Florida. We found that transfluthrin significantly reduced collections of a variety of medically and veterinarily important tabanids inside protected areas by up to 96% upon initial treatment and up to 74% after 20 days posttreatment. These results suggest that transfluthrin could be an effective element in the US Department of Defense integrated pest management system and leveraged in civilian scenarios to protect livestock and humans from potential mechanical transmission of pathogens and disruption of activities caused by painful bites.

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Residual Pesticide On Hesco® Blast Protection Wall In Temperate Florida Habitat Effective Against Mosquitoes, Stable Flies, and Sand Flies

Journal of the American Mosquito Control Association ◽

10.2987/18-6754.1 ◽

2018 ◽

Vol 34 (3) ◽

pp. 224-232 ◽

Cited By ~ 2

Author(s):

Seth C. Britch ◽

Kenneth J. Linthicum ◽

Robert L. Aldridge ◽

Todd W. Walker ◽

Mattie J. E. Rush ◽

...

Keyword(s):

Department Of Defense ◽

Sand Flies ◽

Integrated Vector Management ◽

United States Military ◽

Stable Flies ◽

Blast Protection ◽

Us Military ◽

Vector Management ◽

The Us ◽

Residual Pesticide

ABSTRACT United States military troops in the field are exposed to the environment and are thus at high risk for transmission of arboviruses, and degradation of mission from continual harassment from insects. Passive vector control, such as application of residual insecticides to US military materials common in the field such as tents and camouflage netting, has been shown to be effective and can contribute to a successful integrated vector management (IVM) plan in the field to reduce this risk. However, other common US military field materials have not been evaluated with residual pesticides. In this study we conducted the first known investigation of the efficacy and longevity of a residual pesticide containing λ-cyhalothrin applied to HESCO® blast protection wall geotextile. We exposed treated material to a temperate Florida environment and found that this treatment can be effective against sand flies, filth-breeding flies, and mosquitoes for at least 6 wk. This study provides evidence that residual treatment of this US military material may be leveraged as an IVM component to enhance the US Department of Defense pest management system.

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