Please use this identifier to cite or link to this item: http://docs.prosentient.com.au/prosentientjspui/handle/1/10260
Title: A geospatial evaluation of Aedes vigilax larval control efforts across a coastal wetland, Northern Territory, Australia.
Authors: Kurucz, Nina
Whelan, P I
Carter, J M
Jacups, S P
Affiliation: Department of Health and Families, Medical Entomology, Centre for Disease Control, Darwin, Northern Territory, Australia..
Issue Date: Dec-2009
Citation: Journal of vector ecology : journal of the Society for Vector Ecology 2009-12; 34(2): 317-23
Abstract: Adjacent to the northern suburbs of Darwin is a coastal wetland that contains important larval habitats for Aedes vigilax (Skuse), the northern salt marsh mosquito. This species is a vector for Ross River virus and Barmah Forest virus, as well as an appreciable human pest. In order to improve aerial larval control efforts, we sought to identify the most important vegetation categories and climatic/seasonal aspects associated with control operations in these wetlands. By using a generalized linear model to compare aerial control for each vegetation category, we found that Schoenoplectus/mangrove areas require the greatest amount of control for tide-only events (30.1%), and also extensive control for tide and rain events coinciding (18.2%). Our results further indicate that tide-affected reticulate vegetation indicated by the marsh grasses Sporobolus virginicus and Xerochloa imberbis require extensive control for Ae. vigilax larvae after rain-only events (44.7%), and tide and rain events coinciding (38.0%). The analyses of vector control efforts by month indicated that September to January, with a peak in November and December, required the most control. A companion paper identifies the vegetation categories most associated with Aedes vigilax larvae population densities in the coastal wetland. To maximize the efficiency of aerial salt marsh mosquito control operations in northern Australia, aerial control efforts should concentrate on the vegetation categories with high larval densities between September and January.
URI: http://docs.prosentient.com.au/prosentientjspui/handle/1/10260
DOI: 10.1111/j.1948-7134.2009.00040.x
Type: Journal Article
Research Support, Non-U.S. Gov't
Subjects: Aircraft
Animals
Larva
Linear Models
Northern Territory
Aedes
Mosquito Control
Plants
Seasons
Wetlands
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