Shape of things to comeDay of trained sniffing bees is here

Bees are extremely important to our ecology, but they are becoming important to our defense against biological and other weapons as well. The reason: the bee’s discreet sense of smell, equivalent to a dog’s, is being exploited as a much cheaper way to detect various odors in the environment (we have been following the intriguing potential of bees for a while now; see, for example, “Los Alamos Perfects Bee Explosives Detection Teams,” 30 November 2006 HSNW; and “Bee Alert Technology Offers New Explosives Detection System,” 9 March 2007 HSNW).

As far back as 1999, the Defense Advanced Research Projects Agency (DARPA) Controlled Biological Systems Program funded a bee-training program to detect buried landmines, so that many thousands of acres of the world’s land could be productively farmed without encountering landmines.

A bee’s natural instinct is to extend its proboscis when it encounters a desirable odor, anticipating the taste of a flower. The bees used in the 1999 DARPA experiment, however, were trained, via classical Pavlovian conditioning, to respond to the odor of TNT instead. Their reward when they responded with a Proboscis Extension Reflex (PER), was a taste of sweet syrup. Then, trainers attached small diodes onto the backs of TNT-trained bees and used handheld radar tracking devices to chart where the bees went.

New Scientist reports that a consortium of U.K. companies — Inscentinel, ML Electronics, and Realise Product Design — worked together to develop a gadget that trains groups of bees at a time. These companies did so because, in 2010, bee training in the fields of defense and security, medicine, food, and building industries is big business. PhysOrg.com notes that bee training is essentially the same as it was in 1999, but the results are attained with more sophisticated and less expensive technology.

Harpenden, Hertfordshire, U.K.-based Inscentinal Ltd. has been working on developing unique sensing instruments that couple the biological performance of honeybees with the technology to translate bee response into an electronic response. Inscentanil’s first proprietary design is a hand held device called the VASOR136, a trace vapor detection unit that is very versatile.

The VASOR136 contains 36 cartridges each containing one bee. Filtered in by a standard gas mask cartridge is a constant supply of clean air. When an operator presses a button on the VASOR, an air sample is taken from the environment that exposes the bees to ambient, unfiltered air. If the bees have been trained to respond to a vapor in that air, the bees will exhibit a PER response and the response will be translated by the VASOR into a simple result shown on the PDA screen display.

This BBC News video offers a glimpse at the VASOR136. The short video that is next on the BBC video page shows how bees were trained to detect TNT in Croatia in 2007.

The VASOR also allows for a modular approach insofar as each cartridge can contain a bee that has been trained to identify a different vapor, giving the VASOR the ability to trace up to thirty-six different vapors. For security at airports the VASOR’s cost efficiency could not be matched by thirty-six trained dogs, and other security technologies do not currently have that range of potential threats covered.

Inscentinel notes that its VASOR has added uses, such as identifying diseases and cancers in people and animals, detecting rapidly spreading bacteria in food, and identifying dry rot in buildings.