Posts Tagged: mosquitoes
Scientists enlist male mosquitoes in fight against disease
Kearney, one of nine UC Agriculture and Natural Resources research and extension facilities across the state, houses a mosquito research lab led by UC Davis entomologist Anthony Cornel. Cornel and his staff are working with the Consolidated Mosquito Abatement District to tacking Aedes aegypti mosquitoes, which have plagued a southeast Clovis neighborhood for three years. Aedes aegypti are capable of spreading dengue, yellow fever and chikungunya.
The scientists are trying a novel control approach. They collected mosquito eggs in Clovis and shipped them to a laboratory in Kentucky, where thousands of harmless male Aedes aegypti mosquitoes were bred. The insects were then dusted with a pesticide and released to mate with females in the infested area. The pesticide doesn't allow the female to produce viable offspring. When the mosquitoes were released, small cups of water were placed nearby to monitor activity. If the water contained pesticide from the mosquitoes, it would kill mosquitoes back in the lab.
“Two weeks ago, we saw really good activity, a lot of the water we brought back resulted in death,” Cornel said. “Last week's water, we didn't see much death, so we're not sure why.”
But because of the initial success, the scientists are not about to scrap the project.
Mosquito management for ponds, fountains and water gardens
Mosquitoes can be managed using an integrated approach that relies mostly on prevention, using biological and chemical controls when necessary. The key strategy is to eliminate all potential breeding sites; even one ounce of standing water can support a population of larvae. What can be done, however, when an outdoor space contains a water element? Here are a few tips.
Water features in the landscape will invariably attract adult mosquitoes, but attempting to control them or prevent their egg laying is difficult. Larvae are easier to manage, since they are concentrated in known areas, don't yet bite, and can't fly away. Larvae prefer shallow water that is less than 24 inches deep, so install water features that are deeper than 2 feet. Ponds or features that provide a steep slope or have vertical walls that quickly drop off into deep water will also be less favorable to mosquitoes. Adding a fountain, waterfall, or other device increases water circulation and reduces the stagnation that allows mosquitoes to breed.
Remove excess vegetation and organic debris that provide mosquito larvae with food, shelter from the sun, and hiding places from predators.
In natural environments, bacteria, nematodes, other insects, crustaceans, and fish often keep numbers of mosquito larvae low. Conserve predators such as dragonflies and backswimmers, which may have colonized ponds, by avoiding broad-spectrum insecticides and consider introducing fish. County vector control services may provide free mosquito fish, voracious consumers of mosquito larvae and pupae. Never release mosquito fish into natural water bodies, since these fish aren't native to California and can disrupt ecosystems.
Although these measures will prevent problems in most cases, mosquito larvae may still develop in some ponds.
In gardens with lots of plants growing in still water, it may be impossible to keep mosquitoes from breeding. Regularly check water features for larvae, which periodically come to the surface to breathe through abdominal siphons Watch for the larvae's characteristic wriggling movement, or use fine dip nets to monitor for larvae. It is important to act quickly to kill mosquitoes when they are small, easiest to manage, and before they become adults and start biting.
Larvicides containing spores or metabolites of the bacterium Bacillus thuringiensis israelensis (Bti) (e.g., Mosquito Dunks, Mosquito Bits, Microbe-Lift, and other products) act as stomach poisons when ingested, killing larvae within a few days. Bti affects only fly larvae, so it won't harm predatory insects living in the pond or water feature. Another effective larvicide is the insect growth regulator (IGR) methoprene (e.g., Pre-strike Torpedos). IGRs interfere with larval molting and also take a few days to kill, but they have a broader spectrum of activity, affecting most juvenile insects and other arthropods that might be in the pond. Both Bti and methoprene are available as granules or pellets, remain effective for about a month, and as with all pesticides, should be used only according to label directions.
For more information about mosquitoes, visit http://www.ipm.ucdavis.edu/PMG/PESTNOTES/mosquitoes.html.
This article by Andrew Sutherland, UCCE advisor in the San Francisco Bay Area and UC Statewide IPM Program, was originally published in the June 2013 issue of the Retail Nursery and Garden Center IPM News. Read the entire article at http://www.ipm.ucdavis.edu/RETAIL/retail-newsletter.html
Smell of DEET repulsive to mosquitoes
The groundbreaking research released by the UC Davis Department of Entomology yesterday at 2 p.m. was picked up by some prominent media outlets, including the New York Times and Reuters.
"We found that mosquitoes can smell DEET and they stay away from it," UC Davis entomology professor Walter Leal was quoted in the Reuters article. "DEET doesn't mask the smell of the host or jam the insect's senses. Mosquitoes don't like it because it smells bad to them."
Earlier research by scientists at Rockefeller University concluded that DEET jams the insect's ability to smell. "Not so fast," interjected the New York Times in today's article, reporting on Leal's research.
“They smell it and they go away because they don’t like it for some reason,” he was quoted in the New York Times.
DEET, the acronym for N,N-diethyl-3-methylbenzamide, is the most common active ingredient in insect repellents. The U.S. Centers for Disease Control and Prevention and other health groups recommend DEET as the best way to avoid the bites of mosquitoes, ticks and other disease-carrying insects.
A full news release about the research is on the UC ANR News and Information Outreach Web site.
Mosquitoes are repelled by DEET.