Six experimental ground ultra-low volume (ULV) applications of Pyrenone 25-5 (0.0025 lb/acre) and Aqua-Reslin (0.007 lb/acre) were made by truck-mounted Pro-Mist or London Fog equipment over 1-mi2 study areas in rural and residential environments of the Coachella Valley, Riverside County, California. Efficacy of replicate applications was evaluated by measuring mortality among caged sentinel mosquitoes, by evaluating changes in host-seeking abundance at replicated dry ice-baited traps positioned along intersecting east-west and north-south transects, and by differential recapture patterns of marked females released near traps in the sprayed central core and unsprayed control areas. Sentinel mortality agreed well with estimates of droplet density measured by "slide spinners" and was affected by 1) distance of cages from the truck route; 2) landscape features, such as tree lines that created wind shadows; 3) irregular landscape that disrupted the particle cloud; 4) low wind speed that failed to carry the droplet cloud through the environment; and 5) failure of the droplets to penetrate dead airspace within stands of vegetation. Despite variable sentinel mortality, Culex tarsalis relative abundance in rural landscapes within and around our study areas always declined after ULV applications. Concurrent decreases in abundance at traps within sprayed and adjoining unsprayed areas confounded our estimates of percentage of control using Mulla's formula, which compares abundance in sprayed and unsprayed areas pre- and postspray. ULV applications significantly affected recapture patterns, in that recapture rates within the spray zone usually were significantly less than in the unsprayed zone. Collectively, our data indicated that ground ULV applications measurably reduced Cx. tarsalis abundance in rural areas of the Coachella Valley but that further evaluations may be necessary to validate efficacy on Culex quinquefasciatus populations in residential communities.
Eliminating infected female mosquitoes by aerial applications of ultra-low volume adulticides is the intervention strategy currently recommended to interrupt the epidemic transmission of encephalitis viruses, including West Nile. The current research optimized pyrethrin formulations and evaluated their efficacy in the desert environment of the Coachella Valley, Riverside County, California. After seven trials during 2004, a 1:2 by volume mixture of Pyrenone 25-5 in BVA oil optimized particle size, droplet descent to ground level, and kill of sentinel mosquitoes. Three subsequent experiments used 3 aerial applications of the 1:2 Pyrenone 25-5:BVA oil mixture on alternate nights to suppress Culex tarsalis Coquillett host-seeking abundance over a 1-square-mile target area. Mortality patterns among caged sentinel mosquitoes varied among sites and replicate sprays, indicating variable particle dispersion at ground level within the target area. In addition, mortality was observed for sentinels up to 1 mile downwind from the target area, indicating considerable particle drift. Geometric mean abundance of host-seeking Cx. tarsalis females collected at dry ice-baited traps within each of 3 sprayed and 2 unsprayed negative control strata varied similarly over time, indicating that our sprays minimally impacted the target population or that drift combined with other factors led to widespread area control. Experiments during March and June when recruitment rates were minimal showed general area-wide suppression of abundance following spray, whereas an experiment during September when recruitment rates were high from newly flooded marshes failed to prevent an area-wide increase in abundance. Clearly additional research is needed to standardize the efficacy of aerial applications of pyrethrins in hot dry desert environments.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.