<div> Whatever bug repellents, scents or candles you may try to avoid mosquito bites, you just cannot avoid them as mosquitoes have evolved a triple threat of visual, olfactory and thermal cues to bite us, biologists have discovered.<br /><br />So, the minute they employ a razor-sharp sense of smell to tip them off that a warm-blooded meal is nearby, mosquitoes then use vision and other senses to hone in on the feast, revealed the team from University of Washington and the California Institute of Technology.<br /><br />The bite occurs this way.<br />From 10 to 50 metres away, a mosquito smells a host's carbon dioxide (CO2) plume.<br />As it flies closer - to within five to 15 metres - it begins to see the host.<br /><br />Then, guided by visual cues that draw it even closer, the mosquito can sense the host's body heat and decide to leave its mark. This occurs at a distance of less than a metre.<br />To find this out, the researchers released hungry, mated female mosquitoes into a wind tunnel in which different sensory cues could be independently controlled.<br /><br />In one set of experiments, a high-concentration CO2 plume was injected into the tunnel, mimicking the signal created by the breath of a human.<br /><br />In controlled experiments, the researchers also introduced a plume consisting of background air with a low concentration of CO2.<br /><br />When a concentrated CO2 plume was present, the mosquitoes followed it within the tunnel as expected, whereas they showed no interest in a control plume consisting of background air.<br /><br />Next, the team did the same CO2 plume experiment but this time they provided a dark object on the floor of the wind tunnel.<br /><br />They found that in the presence of the CO2 plumes, the mosquitoes were attracted to the dark high-contrast object.<br /><br />In the wind tunnel with no CO2 plume, the insects ignored the dark object entirely.<br />While it was no surprise to see the mosquitoes tracking a CO2 plume, "the new part that we found is that the CO2 plume increases the likelihood that they will fly toward an object".<br /><br />"That means that they smell the CO2, then they leave the plume, and several seconds later they continue flying toward this little object. So you could think of it as a type of memory or lasting effect," the researchers explained in a paper that appeared in the journal Current Biology.<br /><br />In an separate experiment, they found that mosquitoes showed a preference for the warm object.<br /><br />But contrary to the mosquitoes' visual attraction to objects, the preference for warmth was not dependent on the presence of CO2.<br /><br />"A mosquito can see a visual feature from much further away so that happens first. Only when the mosquito gets closer does it detect an object's thermal signature," van Breugel said.<br /><br />"Till date, very little was known about what a host looks like to the mosquito and how a mosquito decides where to land and begin to feed till now," said biologist Jeff Riffell from University of Washington, co-author on the paper.<br />The work may help companies design better mosquito traps in the future.<br /><br /></div>
<div> Whatever bug repellents, scents or candles you may try to avoid mosquito bites, you just cannot avoid them as mosquitoes have evolved a triple threat of visual, olfactory and thermal cues to bite us, biologists have discovered.<br /><br />So, the minute they employ a razor-sharp sense of smell to tip them off that a warm-blooded meal is nearby, mosquitoes then use vision and other senses to hone in on the feast, revealed the team from University of Washington and the California Institute of Technology.<br /><br />The bite occurs this way.<br />From 10 to 50 metres away, a mosquito smells a host's carbon dioxide (CO2) plume.<br />As it flies closer - to within five to 15 metres - it begins to see the host.<br /><br />Then, guided by visual cues that draw it even closer, the mosquito can sense the host's body heat and decide to leave its mark. This occurs at a distance of less than a metre.<br />To find this out, the researchers released hungry, mated female mosquitoes into a wind tunnel in which different sensory cues could be independently controlled.<br /><br />In one set of experiments, a high-concentration CO2 plume was injected into the tunnel, mimicking the signal created by the breath of a human.<br /><br />In controlled experiments, the researchers also introduced a plume consisting of background air with a low concentration of CO2.<br /><br />When a concentrated CO2 plume was present, the mosquitoes followed it within the tunnel as expected, whereas they showed no interest in a control plume consisting of background air.<br /><br />Next, the team did the same CO2 plume experiment but this time they provided a dark object on the floor of the wind tunnel.<br /><br />They found that in the presence of the CO2 plumes, the mosquitoes were attracted to the dark high-contrast object.<br /><br />In the wind tunnel with no CO2 plume, the insects ignored the dark object entirely.<br />While it was no surprise to see the mosquitoes tracking a CO2 plume, "the new part that we found is that the CO2 plume increases the likelihood that they will fly toward an object".<br /><br />"That means that they smell the CO2, then they leave the plume, and several seconds later they continue flying toward this little object. So you could think of it as a type of memory or lasting effect," the researchers explained in a paper that appeared in the journal Current Biology.<br /><br />In an separate experiment, they found that mosquitoes showed a preference for the warm object.<br /><br />But contrary to the mosquitoes' visual attraction to objects, the preference for warmth was not dependent on the presence of CO2.<br /><br />"A mosquito can see a visual feature from much further away so that happens first. Only when the mosquito gets closer does it detect an object's thermal signature," van Breugel said.<br /><br />"Till date, very little was known about what a host looks like to the mosquito and how a mosquito decides where to land and begin to feed till now," said biologist Jeff Riffell from University of Washington, co-author on the paper.<br />The work may help companies design better mosquito traps in the future.<br /><br /></div>