How Attractive Are You? To Mosquitoes, That Is
A female yellowfever mosquito probes
a piece of Limburger cheese one of
few known mosquito attractants.
|For years people have known about animal attraction. Perfume and cologne are the primary "weapons of choice" many use to attract the opposite sex. But we don't need to do anything to attract insects. We give off hundreds, maybe thousands, of natural scents that bugs, particularly mosquitoes, just love. "So far, we have found more than 340 different chemical scents produced by human skin, and some of these attract mosquitoes," says ARS chemist Ulrich R. Bernier. "Scientists have known for years that lactic acidpresent on human skinis a mosquito attractant. So far, this is true for only a handful of species, one of which is the yellowfever mosquito, Aedes aegypti. Finding what attracts mosquitoes will ultimately help us find ways to control them." Bernier is with the ARS Center for Medical, Agricultural, and Veterinary Entomology's Mosquito and Fly Research Unit in Gainesville, Florida.|
Entomologist Donald Barnard demonstrates
the attraction of female yellowfever mosquitoes to his hand in an olfactometer. The olfactometer contains a screen separating the attractant (in this case,
his hand) from the mosquitoes.
|For more than 30 years, scientists have been searching for compounds that attract mosquitoes. Bernier started his quest back in 1992, when ARS research leader Donald R. Barnard, head of the Gainesville unit, arranged funding of his doctoral research aimed at finding which chemicals or scents on a human-handled petri dish were driving mosquitoes crazy. It was evident to Bernier that a glass petri dish readily adsorbed some human scents. From then on, using glass to collect samples became the foundation of Bernier's research. "I developed a technique using glass beads to help me identify organic compounds from humans that are attractive to mosquitoes," says Bernier. "The beads are rubbed repeatedly between human palms to collect skin emanations." The beads allow Bernier to take samples without collecting excess water, which distorts the chemical analysis.|
Entomologist Daniel Kline
inspects mosquitoes caught in
a collection device. The bait
used was a combination of a
worn sock and carbon dioxide.
|The Gainesville scientists are testing individual scents and combinations for attractiveness to different mosquito species. They use an olfactometer, a cage separated by a screen, where mosquitoes are placed on one side and an attractant is pumped through the other, to see if mosquitoes will come to the screen. Bernier says it's difficult to find an attractant because unlike a pheromone (a single substance that attracts one sex of an insect species to another), it appears that multiple compounds or kairomones (care-ah-mones) are needed to attract mosquitoes. Simply Irresistible! Since 1997, Bernier has been combining different blends and screening them at different levels to see which blends draw mosquitoes best. A promising scent is later combined and tested in a blend. "Some blends beat out a human-handled dish every time," says Bernier. Those blends have proven to be some of the most efficient and consistent attractants we've used. We can get about 90 percent of the mosquitoes in the cage to come to the mixture. This is impressive considering my own arm and hand attract only about 70 percent of them. "We still don't have a perfect blend," Bernier notes. "But, we're a lot closer than we've ever been." Several promising blends, for which Bernier has filed a patent, are combinations of human-produced odors with and without lactic acid. In 1968, Gainesville scientists discovered lactic acid is an attractant for the yellowfever mosquito. At that time, carbon dioxide (CO2) was also thought to be necessary to attract mosquitoes. Bernier says what might be the single most important discovery about these blends is they don't use CO2, unlike most other blends or attractants. CO2 is a bother, he says, because a person would have to lug a huge tank or a brick of dry ice into the field. All of the specific chemical combinations he's isolated for both the yellowfever mosquito and Anopheles albimanus, a tropical mosquito that spreads malaria, don't need the CO2.|
After being rubbed between palms to pick up human scents, glass beads are carefully loaded into a glass insert.
|"It's difficult improving synthetic blends when you increase the number of chemical compounds in the blends," says Bernier. "Two components will look as good as four, unless you put them in direct competition with human hands. We're working toward improving the blends for attracting yellowfever mosquitoes and adjusting the blends to attract other mosquito species." Finding a blend and testing it isn't all that has to be done. "You have to have consistency when doing tests," says Barnard. "Many things could affect why a blend is attractive or not. For example," he says, "we use three olfactometer cages, stacked one on top of the other. How do we know mosquito responses will be the same in the top cage as in the bottom? We test to see if the location or position of the cages affects the results. "Time of day is also extremely important. Mosquitoes tend to have cycles when they are more active and will or will not feed," says Barnard. To minimize experimental error," Barnard says, "we test the blends under circumstances where light conditions, air temperature, airspeed, and so on are controlled." What Else Do Mosquitoes Like?|
| Entomologist Daniel L.
Kline tested the attractiveness of socks worn by humans. The results:
Mosquitoes love them. "I wore the socks for 12 hours on 3 consecutive
days. When I wasn't wearing the socks, I put them in a sealed plastic
bag," says Kline. "I also found mosquitoes love Limburger cheese.
Interestingly enough, the main ingredient in the cheese is a bacterium that can
be found on the human foot," he says. Incidentally, Limburger cheese was
first made in The Netherlands by monks. They trampled the cheese with their
feet to get the finished product.
Kline tested responses of female Aedes aegypti to the socks, human
hands, and Limburger cheese. He used females because only they will take blood.
They need it for reproduction. In field studies, Kline says the socks alone
attracted very few mosquitoes. However, a significant increase occurred to
CO2-baited traps when combined with a worn sock for most mosquitoes,
including species of Aedes, Anopheles, Coquillettidia, Culex, Culiseta,
and Psorophoramajor disease-transmitting mosquitoes. Mosquito
responses were favorable in the olfactometer, but the human hand still
attracted the most. "If we can isolate the chemical scent in the socks,
then we can use that as an additional attractant," says Kline.
Why Attract Them?
Attractants can be used as nontoxic baits in mosquito traps for surveillance
purposes. "Many countries, particularly underdeveloped ones, need improved
detection and population monitoring in areas where mosquitoes pose high risks
of transmitting diseases like yellow fever, dengue, and malaria," says
Barnard. "If we can attract the mosquitoes to a trap, we can use this
information to assess the mosquito distribution and population and develop ways
to control them."
Also, Barnard says if you are using conventional traps to look for a particular
mosquito that transmits a disease, but you don't find that mosquito in your
trap, that doesn't mean the mosquito isn't in the area.
You have to make sure that the attractant you're using works for that
particular mosquito. What may be attractive to one species may not be for
another. For example, some species may be attracted to human blood while others
may feed only on the blood of wild or domestic animals.
Since there are 4-6 dozen mosquitoes out of 2,700 worldwide that transmit
diseases, it can be tricky to pinpoint an attractant, Barnard says.
The potential also exists to use traps for reducing mosquito populations with
minimal dependence on chemical insecticides.
"Our hope is to reduce reliance on pesticides," says Barnard.
"We expect attractant-enhanced traps to eventually surpass pesticides in
effectiveness. We hope to develop stand-alone traps that can be used by
homeowners or livestock producers."
"In the future," he adds, "we hope to develop personal
protection technology based on this research. By knowing what attracts
mosquitoes, we can develop better defenses against them."
"One day we hope to develop systemic repellents that can be taken orally
or devices that can be worn to neutralize the attractive effects of a person to
Animals also act as a magnet for mosquitoes. "The next phase of our
research will be to look at what attracts mosquitoes to livestock," says
"We're looking at mosquitoes that bite both livestock and people because
mosquitoes spread some viruses between the two. Like St. Louis encephalitis,
for example: A mosquito bites an infected mourning dove and later bites a
Ultimately, a better understanding of mosquito attraction should help in
developing more effective, environmentally safe repellents for protection from
insects that prey on humans and livestock.By
Agricultural Research Service Information Staff.
This research is part of Arthropod Pests of Animals and Humans, an ARS
National Program (#104) described on the World Wide Web at
Donald R. Barnard, Ulrich R. Bernier, and Daniel L. Kline are with the USDA-ARS Center for Medical, Agricultural, and Veterinary Entomology, Mosquito and Fly Research Unit, 1700 SW 23rd Drive, Gainesville, FL 32604; phone (352) 374-5931, fax (352) 374-5922.
Chemist Ulrich Bernier
examines glass beads that
have absorbed human scents.
The glass insert containing the
beads is ready to be installed
in a gas chromatograph to
identify the scents.
"How Attractive Are You? To Mosquitoes, That Is" was published in the February 2000 issue of Agricultural Research magazine.