US EPA

7176733 

Journal Article 

Vibrational long-distance communication in the termites Macrotermes natalensis and Odontotermes sp 

Hager, FA; Kirchner, WH; , 

2013 

Yes 

Journal of Experimental Biology
ISSN: 0022-0949
EISSN: 1477-9145 

COMPANY BIOLOGISTS LTD 

CAMBRIDGE 

3249-3256 

23926309 

10.1242/jeb.086991 

WOS:000322955200019 

Fungus-growing higher termites build long subterranean galleries that lead outwards from the nest to foraging sites. When soldiers are disturbed, they tend to drum with their heads against the substrate and thereby create vibrational alarm signals. The present study aimed at describing these acoustic signals, how they are elicited, produced and perceived, and how these signals propagate within the galleries and nests over long distances in two termite species of the Southern African savannah, Macrotermes natalensis and an Odontotermes sp. The signals consist of trains of pulses with a pulse repetition rate of 10-20. Hz. The galleries have physical features that promote vibrational communication and are used as channels for long-distance communication. In M. natalensis, the signal propagation velocity is similar to 130ms(-1) and the signals are attenuated by similar to 0.4 dB per centimetre distance. Nestmates are extremely sensitive to these vibrations with a behavioural threshold amplitude of 0.012ms(-2). Workers respond by a fast retreat into the nest and soldiers are recruited to the source of vibration. Soldiers also start to drum with a reaction time of about 0.3s, thereby amplifying the intensity of the signal. This social long-distance communication through chains of signal-reamplifying termites results in a relatively slow propagation (1.3ms(-1)) of the signal without decrement over distances of several metres.