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Last week, scientists at Los Alamos National Laboratory, in New Mexico, buzzed with the results of a rigorous study on sophisticated bomb detectors. Their research suggests that contained bees can be used to identify volatile compounds like TATP, the primary charge associated with last summer’s terrorist plot. Highly reliable and precise, these next-wave detectors are cheap to produce and easy to train.

Entomologists have long known that honeybees can be trained to detect many scents, including the olfactory footprints of deadly explosives. This latest research reinforces those findings and suggests an approach that could prove useful for finding substances in populated areas.

Timothy Haarmann, principal investigator of the Los Alamos project (officially called the Stealthy Insect Sensor Project), says he and his colleagues trained bees to extend their proboscises–tubular organs used to suck the nectar from flowers–in the presence of explosives. When the proboscis is extended, the bee appears to be sticking out its tongue.

Training 50 bees requires only two or three hours using this traditional approach, which takes advantage of an insect’s attraction to sugar water. “If you hold up sugar water [to bees], they stick out their proboscis,” Haarmann says.

By combining a target substance with sugar water and then presenting the compound to the bee, the researchers manipulate the insects into recognizing a distinct smell. By the end of the session, successfully trained bees extend their proboscises toward explosives.

Bees trained at one concentration of vapor easily recognize lower doses. Chemist Robert Wingo, who works on the project, says that the bees proved to be more sensitive than many sophisticated man-made devices. “They are capable of detecting TATP, and the instruments I have available in the lab are not able to detect TATP,” he says.

Honeybees can also pick explosives out of more complicated bouquets–like the myriad scents that surround a typical human being. Trained bees can identify explosives whose odors were masked by “lotions, underarm deodorants, and tobacco products,” Wingo says. “Much to our surprise, the bees are capable of picking out TNT in motor oil … Even in the presence of insect repellent, we can train them to detect TNT.”

In Haarmann’s system the bees are contained in tubes so that their proboscises can be easily monitored. Unfortunately, a contained bee only lasts about two days. “We find that after about 48 hours you start to get a high mortality rate,” Haarmann says. Being confined is “hard on them.” Plus, not all bees prove to be up to the task of detecting explosives. Like dogs, some of the insects are more successfully trained than others. “We like to think of bees as these nice little robots, but there were certain bees that did better than others,” Haarmann says.

Jerry Bromenshenk, a researcher with the University of Montana’s division of biological sciences, is one of the pioneers of bee detection systems. He has trained bee colonies to detect explosives, meth labs, and dead bodies, but he uses a different approach. Bromenshenk works primarily with free-flying bees that are allowed to roam large, outdoor spaces. When the bees detect the target scent, they tend to slow down and circle the area. Using audio, video, and laser systems, Bromenshenk and colleagues can analyze the flight patterns of thousands of trained bees and produce a density map indicating the most likely locations of the target substance. With tens of thousands of bees searching, they can quickly canvass an area of a mile.

But Bromenshenk says Haarmann’s “bee in a box” approach still has its place.

“Free-flying bees don’t work well in airports,” he says.

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Credit: Istockphoto.com/Phil Jackson

Tagged: Biomedicine

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