Lack of aggression and apparent altruism towards intruders in a primitive termite

Cooney, Feargus, Vitikainen, Emma I. K., Marshall, Harry H., van Rooyen, Wilmie, Smith, Robert L., Cant, Michael A., Goodey, Nicole

09 November 2016

In eusocial insects, the ability to discriminate nest-mates from non-nest-mates is widespread and ensures that altruistic actions are directed towards kin and agonistic actions are directed towards non-relatives. Most tests of nest-mate recognition have focused on hymenopterans, and suggest that cooperation typically evolves in tandem with strong antagonism towards non-nest-mates. Here, we present evidence from a phylogenetically and behaviourally basal termite species that workers discriminate members of foreign colonies. However, contrary to our expectations, foreign intruders were the recipients of more rather than less cooperative behaviour and were not subjected to elevated aggression. We suggest that relationships between groups may be much more peaceable in basal termites compared with eusocial hymenoptera, owing to energetic and temporal constraints on colony growth, and the reduced incentive that totipotent workers (who may inherit breeding status) have to contribute to self-sacrificial intergroup conflict.

intergroup competition

cooperation

nest-mate recognition

allogrooming

aggression

Pterotermes occidentis

INDIVIDUAL AND COLONY LIFE HISTORY OF PTEROTERMES OCCIDENTIS AND ITS RELATION TO THEORIES OF TERMITE EVOLUTION (EUSOCIALITY, WORKERS, FITNESS).

ZIMMERMAN, ROSS BRIAN., ZIMMERMAN, ROSS BRIAN.

January 1983

Pterotermes is a very primitive genus of the lower termite family Kalotermitidae. Entire colonies were collected from standing dead Cercidium (palo verde) near Tucson, AZ. Most were maintained and recensused. Some were partitioned into groups by caste and instar, and the groups followed to determine developmental fates. Sorted material was preserved for morphometrics. Alate pairs were sealed in chambers in two sizes of palo verde and colonies allowed to grow. New colonies grow for several years, producing only "larvae" which develop into large workers, with occasional maturation to soldier form. Then most fifth or sixth instar larvae of upcoming cohorts undergo three nymphal instars before maturing to alates which leave to found new colonies. Workers do not seem to mature to alates, but may become soldiers or neotenic reproductives. Colonies are headed by a single royal pair, usually the founders, especially the founding queen (84%). Workers can be recruited by biting the wing bud region of larvae or nymphs. Bitten termites develop toward worker form. Workers may be biting siblings to recruit helpers, perhaps improving their own indirect fitness. In the two sizes of wood, no colony consumed more than a fraction of the wood volume, yet colonies in small branches restricted egg crop, hence colony, growth. In the field, branch size was a good predictor of colony size (r-squared 0.80). A theory is proposed based on spreading reproductive output over the expected lifespan of the royal pair. The data are interpreted to support a view of colonies as largely under royal pair control. Pterotermes seems to exhibit the worker-nymph developmental dimorphism proposed by Watson and Sewell (1981) to be an ancestral feature of termite biology. A scheme of origin is proposed, in which the parents suppressed facultative neotenic maturation, then all sexual maturation of earliest offspring. Workers were the result of arrested maturation (see also Myles, 1983). It is argued that once eusociality evolves, close genetic relatedness of colony members is not required for maintenance of the system, as long as some minimal degree of family structure remains.

Pterotermes occidentis.

Termites -- Evolution.

Termites -- Evolution -- Arizona.

maps