Do Backyard Mosquito Sprays Work?
The specter of West Nile Virus has put mosquitoes "front and center" in the pest management industry. Public awareness of mosquitoes is at an all-time high, and customers are asking what — if anything — can be done to lessen the risk of being bitten. In response, a growing number of pest control firms have begun offering mosquito management services to their residential clients. The heart of this service is the application of residual pyrethroid sprays to the daytime resting sites of adult mosquitoes. Mosquito larvae live in water, but the biting adults spend most of the daylight hours residing in dense vegetation and shade before searching for an evenings’ blood meal.
While anecdotal reports are encouraging, no scientific study has yet evaluated the effects of such treatments in residential settings in particular, whether they help reduce the likelihood of being bitten by mosquitoes. The following study examines this question and surveys the satisfaction level of householders receiving such a service. But first, let’s examine the adversary...
KNOW YOUR ENEMY. To most people, all mosquitoes are pretty much the same and considered a single entity. In fact, there are about 2,500 species of mosquitoes in the world and about 150 different species in
One very important group from the standpoint of disease transmission is the genus Culex. Many of these mosquitoes preferentially feed on birds and spend most of their time high above the ground, typically in trees. Eggs are laid in rafts on the surface of water in old tires, birdbaths, roof gutters and similar "containers" which hold water. Culex mosquitoes are the primary vectors of
Another important group is the Aedes and Ochlerotatus mosquitoes. Many of these mosquitoes prefer to feed on mammals and spend most of their time in low-lying vegetation. Eggs are laid singly at the water’s edge, often in similar areas as Culex mosquitoes. This group includes the Asian tiger mosquito, Aedes albopictus (see photo above), which has become one of the most serious nuisance mosquitoes in
Many other genera of mosquitoes can occur in residential settings. However, these two groups will account for the vast majority of mosquito bites that homeowners suffer throughout most of the
THE STUDY. During the summer of 2004, a field study was undertaken to assess the effect of insecticide sprays on mosquitoes residing around suburban homes. We wanted to know if pyrethroids, applied to adult resting sites, actually reduced mosquito populations and the incidence of bites to people using their yards. We also surveyed householder attitudes toward mosquitoes, if they thought the treatments were effective, and their willingness to pay for such services. (See the charts throughout this story that relate to these homeowner attitudes.)
Treatment Method. Twenty-four single-family residences were selected from eight suburban neighborhoods in
Treatments were applied
Monitoring Methods. Three types of standard traps, as well as human landing rate counts, were used to monitor mosquito populations at each home (see photos on page 54). A CDC miniature light trap (without the light) was baited with 5 pounds of dry ice pellets, which served as a carbon-dioxide (CO2) source. Removing the light ensured that the trap only collected mosquitoes that were seeking a blood meal and were attracted to the CO2. These traps were placed about 15 feet in from the perimeter edge of the property.
A second trap type used was the CDC gravid trap containing water "spiked" with grass and rabbit food (a source of yeast), to emulate stagnant water in which species such as Culex prefer to lay their eggs. These traps were placed on the ground near the border foliage edge of the property.
The third trap type, an egg trap (ovitrap), was designed to emulate a tree hole and attract several types of mosquitoes, particularly species like the eastern tree hole mosquito (Oc. triseriatus), and container-breeding mosquitoes like the Asian tiger mosquito. These traps consisted of a large coffee can painted flat black and lined with egg-laying paper. The cans containing a water-grass mixture were hung about 5 feet from the ground in a vegetated area. Eggs were collected from the traps and species were determined by rearing out larvae.
Another useful — if somewhat unnerving — monitoring method involved taking mosquito landing rate counts on a human volunteer. During evenings between
Using the aforementioned methods, mosquitoes were monitored weekly at each property, beginning two weeks prior to treatment and continuing for eight weeks post-treatment. Light traps and gravid traps were placed on the properties between
Homeowner Survey. Participating homeowners were surveyed three times during the study period. Four weeks before treatment, households were polled regarding their knowledge and attitudes toward mosquitoes in general. Subsequent surveys were conducted three and seven weeks after treatment to assess their level of satisfaction, and what they thought such a service would be worth.
RESULTS. Mosquito species from all three major genera — Culex, Aedes and Ochlerotatus — were abundant in yards sprayed with water alone. In comparison, both pyrethroid products (Demand® CS and TalstarOne™) significantly reduced total mosquito numbers in treated yards for up to six weeks. The products were similar in effectiveness, and levels of suppression were combined for purposes of this article.
Although both pyrethroids reduced the overall mosquito population, they did not affect all mosquito species equally. Specifically, as shown on page 54, the Aedes and Ochlerotatus species were dramatically affected but Culex species were not. Within the first week following pyrethroid application, Aedes and Ochlerotatus species were reduced by 87%, compared with the water treatment. Even after four and six weeks, there was a cumulative reduction in the population by 72% and 61%, respectively. Various Aedes and Ochlerotatus species are responsible for most of the mosquito bites experienced by homeowners. In fact, all of the mosquitoes collected from the human landing rate samples were these mosquitoes, and 98% of them were Asian tiger mosquitoes. When we examined human landing rates separately from the trap catches we found that the number of bites was reduced by an even greater degree — 84%, 80% and 71% reduction in the number of bites over a period of one, four and six weeks, respectively.
In contrast to the Aedes and Ochlerotatus mosquitoes, almost all (98%) of the Culex mosquitoes we collected were caught in gravid traps. The chart on page 54 clearly shows that the number of Culex caught in gravid traps after pyrethroids were applied did not differ from the number caught in yards sprayed with water alone.
HOMEOWNER SURVEYS. In a pre-treatment attitudinal survey, nearly all (96%) of the homeowners in our study said they were bothered by mosquitoes, and more than three-fourths (77%) said that mosquitoes limited their backyard activities. Seventy-one percent believed mosquitoes in their yard posed a health threat as well as being a nuisance, while 84% indicated they would tolerate no more than two bites before taking some form of action.
Post-treatment surveys indicated that homeowners were able to discern a difference between the pyrethroid treatments and yards sprayed only with water. Fifty percent of respondents who received a single pyrethroid treatment said it allowed them to spend more time in their backyards than they used to, whereas only 14% of those who received water felt this way. (When given a "placebo" such as a water-only treatment, it’s normal for some people to feel they are receiving a benefit, even when they probably aren’t.)
In terms of financial compensation, half (50%) of those who received a single pyrethroid treatment indicated they would be willing to pay for such a service on a recurring basis (e.g., monthly), whereas only 17% of those receiving water were willing to do so. Thirty-nine percent of the former group said they would be willing to pay $50 to $100 for a single treatment, whereas no one receiving the water treatment was willing to pay that much.
STUDY IMPLICATIONS. Aedes and Ochlerotatus were the most abundant mosquitoes collected from CDC light traps and egg traps, and the Asian tiger mosquito (Ae. albopictus) was the most commonly observed mosquito during human landing rate counts. Both of these were strongly suppressed by the pyrethroids, so it is clear that Demand® CS or TalstarOne™ applied as a barrier treatment to ground foliage and lower canopy foliage are effective in reducing mosquito bites for up to six weeks after treatment. There was little difference in effectiveness between the two pyrethroids at application rates and treatment procedures used in this experiment. Furthermore, from other experiments that we performed in 2004, we believe that other leading pyrethroids are likely to be similarly effective against these two groups of mosquitoes when applied as barrier treatments.
However, the fact that there was no significant effect on the Culex mosquitoes is troubling because these are the primary vectors of many important diseases, including those that most concern homeowners, such as
There are several possible reasons for this. First, Culex mosquitoes may have different resting sites from the other mosquitoes. For example, because they prefer to feed on birds, their resting sites are higher in the tree canopy. Many of these properties had trees taller than 50 feet, but little spray was deposited above 15 feet. Additionally, there are some reports of Culex mosquitoes resting on structural surfaces, such as under house eves, which were not treated in this study. Perhaps if we would have applied the pyrethroid to tree canopies or possibly other surfaces, better Culex control might have been observed.
Another possible reason for inadequate Culex control may come from the small spatial scale of a suburban backyard. Culex mosquitoes are weak fliers; They are unable to fly against even a small breeze. If they begin flight high off the ground in a tree canopy, they may be easily blown in from neighboring, untreated yards, without landing on vegetation within treated yards. If this is the case, then reliable backyard Culex control may not be attainable using this method, even if all of the vegetation is treated.
This is important because while Culex mosquitoes cause only a small percentage of the mosquito bites that homeowners experience in their backyards, they are the primary vectors of diseases that most concern homeowners and public health professionals alike. That this control method, as tested here, may be less effective when used against Culex mosquitoes suggests that pest management professionals should refrain from emphasizing this technique as a disease risk-reduction strategy. Further research is needed to improve Culex control and to document disease risk reduction before such claims can be justified.
On the positive side, however, our study clearly shows that this technique is highly effective at substantially reducing overall mosquito bites and that this reduction, in itself, satisfied the homeowner. It "gave them back their yards," and homeowners were pleased enough with the result alone to be willing to pay for it. Our study confirmed that this effect was real (as opposed to a placebo effect) and scientifically significant, even given the large amount of variation between backyards.
OPERATIONAL CONSIDERATIONS. Many pest control firms are unfamiliar with mosquito spraying equipment. While conventional backpack sprayers or power spray rigs can be used to treat vegetation and other mosquito resting sites, such equipment can be less than ideal, especially when treating larger properties. Conventional backpack sprayers can be more tedious to use and generally do not provide the level of coverage afforded by a mistblower. Power spray rigs are effective for perimeter pest control but can be cumbersome when hauling treating hoses throughout yards. In some cases, truck-mounted hoses may not extend from the street or driveway to the rear of the property.
Backpack mistblowers, such as the one used in this study, forcefully disperse small droplets of insecticide onto plant foliage and leaf undersurfaces and deep into dense vegetation where adult mosquitoes tend to hide. The portability of the unit enables applicators to treat anywhere on the property without having to haul a treating hose. The standard 3-gallon spray tank can often treat an entire property (and sometimes more) before having to be refilled.
On the other hand, mistblowers do have limitations. Some technicians may find them a bit heavy to carry throughout the day (about 50 pounds when filled). Applicators using mistblowers must be vigilant about where the spray mist is drifting, so as not to contaminate play equipment, birdbaths, fishponds and other non-target areas. Care should be taken when treating property margins so as not to overspray neighboring yards, and whenever possible we should avoid spraying flowering plants that are frequented by bees and other beneficial pollinators. Technicians should also wear appropriate protective equipment, including long-sleeved pants and shirt, gloves, hat and eye protection, preferably a full-face shield. Some companies also use protective lotion (e.g., Gloves in a Bottle®), to help shield exposed skin from chemical exposure. When spraying upwind, overhead or into dense vegetation, it’s easy to expose oneself to the fine mist generated by the machine. Applicators can reduce their exposure by using a coarser spray droplet setting and treating densely vegetated areas while backing outward.
More study is needed to determine just how thorough one must be to provide acceptable control of adult mosquitoes. In our study, an effort was made to achieve thorough coverage of mosquito resting sites; time spent treating yards averaged 21 minutes (range 5 to 45 minutes). It is possible that adequate protection could have been afforded with lower volumes of material applied in a somewhat less comprehensive fashion. Laboratory bioassays with other pyrethroids suggest that other products may perform as well as those in this study. However, some of these studies suggest that some products may perform better than others at lower volumes or application rates. Our study found no difference between the two pyrethroids applied at maximum label rates. Had we used a lower rate, differences may (or may not) have been found.
Based on our findings, treatment of adult mosquito resting sites can be a useful component of an integrated pest management program in residential settings. Along with removing standing water, strategic larviciding and client education/personal protection, such treatments may be one of the most effective ways for homeowners to suppress nuisance mosquitoes and regain the use of their yards.
PCT Online » Current News » Research Update
By Jamee L. Hubbard, Rebecca T. Trout, Grayson C. Brown and Michael F. Potter