Behaviour

While cariying out field and laboratory studies of M. filifer, the common New Zealand cave-weta, observations were made on the functions of the hind legs and on each individual insect's habit of regularly cleaning its body and appendages.

The long hind legs are used in walking, climbing trees in search of food and are of great importance to enable the weta to escape from its enemies In daytime cave-wetas are immobile and are usually found on the walls or ceilings of caves, hanging head downwards. When a bright light is directed onto a group of M. filifer the insects may remain stationary waving their long antennae, or they quickly scuttle away. If, however, they are touched or feel the slightest movement of air, such as may be caused by breathing or the approaching hand of an investigator, they jump wildly away, sometimes covering distances of three or four feet. After a few such hops they remain motionless and the investigator's approach may be made over again. Such tactics are often successful in effecting escape, and if water lies on the floor of the cave, they use their hind legs to propel them through it. In proportion to their size, wetas can jump long distances; but I have never seen them do so for preference. Jumping seems to be used as a means of quick escape from an enemy or from an enclosed space such as a trough in a laboratory. The mouth parts of cave-wetas are small and are not used for defence. The bite of a cave-weta is harmless, and they very seldom attempt to bite Thus, unlike the Henicidae which stand and fight, the cave-weta, to escape from danger. has to rely entirely on its speed or on its cryptic colour pattern when stationary. When held in the hand M. filifer kicks and thrusts with its hind legs in an endeavour to free itself because, although it possesses numerous spines, they are too small to inflict a painful scratch. Sometimes it may secrete a brown or white fluid from the mouth or anus, or both, as a defence, mechanism. Examination of the white fluid showed it to be full of actively swimming flagellates. This ability to secrete a fluid is evidently not universal throughout the Gryllacridoidea, although it has been observed in both the Rhaphidophoridae and the Henicrdae. Davis (1927) says. “Some grasshoppers when caught, secrete a dark, thick fluid (the ‘molasses’ of children) which pours from the mouth. Stenopelmatus will occasionally regurgitate when roughly handled, but I have never seen the dark ‘molasses’ although the animal will when captured chew straw, forceps, or fingers ferociously.” Once the insects escape it is very difficult to recapture them It is because of their ability to escape quickly that the hind legs are often removeed when one weta attacks and eats another.

In captivity specimens of M. filifer are frequently observed “cleaning” themselves, sometimes as often as once a day They go through a long and complicated process of nibbling along their legs, body and antennae. The fore leg is bent anteriorly and the tarsus is held in place in the mouth by the maxillary and labral palps, while the mandibles nibble along it. Then the head is turned ventro-laterally while first the tibia and then the femur is cleaned. Next the middle leg is passed ventrally under the abdomen and proximally towards the head, which is still turned ventro-laterally, and that leg also is cleaned. Then the hind leg is passed ventrally under the abdomen and anterior to the other legs and cleaned. This shows the great agility of the insect and its ability to twist itself into unnatural positions. Next the antennae are bent antero-ventrally by the fore legs and slowly passed through the mandibles till they have been cleaned along their whole length. Finally the head is bent postero-ventrally and the abdominal sternites cleaned. If the animal is a female, the ovipositor is thrust antero-ventrally beneath the body and the head is bent postero-ventrally so that the animal

is curled into a circle, in which position the ovipositor is cleaned along its length. Frequently, while cleaning itself, a weta will bend back its hind leg and scratch its tergal plates. The object of the “cleaning” process is evidently to remove dust particles so as to keep the antennae and setae on the legs in a state of sensitivity to environmental conditions.