Bed bugs are a major cause of paranoia, and the mere suggestion of an infestation can lead to mass panic. But with all the scientific tools at our disposal, we ought to be able to figure out how these things work, and stop them from infesting our homes and us miserable. Right? And now, luckily, there's been a major step forward.
A group of researchers from Denmark have combined two methods of observing the activity of bed bugs in order to understand the signals they communicate with each other in real time. Traditionally, the chemical signals the insects create have been analyzed by collecting them over a period of time. What the researchers have done is devise a method that's far faster, allowing near instant reading.
They use proton transfer reaction mass spectrometry to instantly analyze the gas coming off of the bugs, combined with video recording to compare what specifically might be triggering the chemical spikes at various points.
In the paper, the authors identify specific chemicals that peaked during attempted copulation. Apparently, whenever a male attempted to mount an unwilling partner — be it male or female — the target of their advances released a combination of primarily (E)-2-hexenal and (E)-2-octenal.
This method is sensitive enough to identify compounds down to below one part per billion. As more of these compounds are discovered, it'll be a quick way of identifying how and when the insects use them — and hopefully that can lead to a better way of controlling them, too.
Top image: Armed Forces Pest Management Board/Flickr.