William T. Wcislo

THE ROLES OF SEASONALITY, HOST SYNCHRONY, AND BEHAVIOUR IN THE EVOLUTIONS AND DISTRIBUTIONS OF NEST PARASITES IN HYMENOPTERA (INSECTA). WITH SPECIAL REFERENCE TO BEES (APOIDEA)

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Attraction and learning in mate-finding by solitary bees, Lasioglossum (Dialictus) figueresi Wcislo and Nomia triangulifera Vachal (Hymenoptera : Halictidae)

SummaryMales of the solitary sweat bee, Nomia triangulifera, patrol over large areas where thousands of females emerge, searching for receptive females. The daily operational sex ratio is strongly male-biased. Males contact dead, frozen (untreated) females more frequently than they contact females which were washed in hexane, showing that olfactory cues are utilized in mate-finding. A major source of female sex pheromone is in the head. Male pouncing on females is temporally non-random, indicative of group stimulation. Bioassays show that newly emerged females are more attractive to males than are older pollen-collecting females. Female odors are individually distinctive, based on male responses, and there is much variation among females in their attractive properties. Male responses to female odors suggest that learning is important for mating in natural populations. In contrast, the following hypotheses are unlikely to account for the observed behavior: (1) dissipation of female odors; (2) site learning and avoidance behavior by males; (3) decay of male motivation; or (4) male-produced repellents effective against other males. Laboratory and field studies show that female Lasioglossum figueresi produce individually-distinctive odors, which are attractive to males. There is considerable inter-individual variation among females in their attractiveness to males among sexually immature females. Male responses to female odors decay over the course of the presentation, suggesting the importance of learning in natural populations, although several alternatives could not be tested.

The role of learning in the mating biology of a sweat bee Lasioglossum zephyrum (Hymenoptera: Halictidae)

SummaryResults from experiments on the role of learning in the mating biology of a sweat bee, Lasioglossum zephyrum (Hymenoptera: Halictidae), are described in this paper. Male learning of individual female odors is important in natural populations (Table 1), as has been shown in the laboratory. Four other hypotheses are unlikely to account for the observed behavior: (1) Female odors dissipate rapidly; (2) Males learn and then avoid the study area; (3) Males or females produce repellents which are effective against other males; or (4) males recognize their own odor on previously-contacted females, which they subsequently avoid. Regarding questions of “male preference” and “optimal outbreeding,” Tables 2 and 3 show there are no consistent preferences for more novel or less novel female odors.

Nesting biology of tropical solitary and social sweat bees,Lasioglossum (Dialictus) figueresi Wcislo andL. (D.) aeneiventre (Friese) (Hymenoptera: Halictidae)

SummaryThe nesting biology of a mainly solitary bee,Lasioglossum (Dialictus) figueresi, is compared with that of a possible relative and mainly eusocial bee,L. (D.) aeneiventre. These bees nest in the ground in highly disturbed areas in the Meseta Central of Costa Rica. Information is provided on social organization, male production, diel and seasonal activity patterns, pollen utilization, natural enemies and nest architecture.nL. (D.) figueresi nests within aggregations in vertical earthen banks, and 80–90 % of females are solitary during the nest-provisioning phase. Social nests contain two (or rarely three) females which may be either equal or unequal in reproductive status (i.e. mated with developed ovaries or not). Solitary nests and two-female nests do not experience different rates of parasitism. Mid-way through the dry season, females cease provisioning at a time when otherL. (Dialictus) remain active. Females typically remain within their nests, although they occasionally forage for nectar. This behavior is similar of that of “spring gynes” of temperate eusocial species. The egg-to-adult developmental rate ofL. (D.) figueresi is unusually slow for halictine bees, however, so that all the adult females die before their brood eclose in April and May, precluding overlap of generations. The eclosed offspring remain in open cells within their natal nests until mid-June, when both males and females emerge to mate. These newly mated females either establish new nests or re-use old ones.nL. (D.) aeneiventre nests within aggregations in horizontal ground or in vertical banks. A foundress female digs a nest at the beginning of the dry season, although some re-activate old nests. Foundress nests develop into colonies with various kinds of social organization. In contrast toL. (D.) figueresi, L. (D.) aeneiventre is active nearly all year round, except during periods of heavy rain, and produces up to three broods per year.Sweat bees (Hymenoptera: Halictinae) are a socially heterogeneous group of mainly ground-nesting bees which are abundant world-wide. Intra-specific variation in social behavior is prevalent both within and among populations, presumably indicating social and environmental control of behavioral modifications (see e.g. Sakagami and Munakata, 1972; Eickwort, 1986; Packer, 1990; Yanega, 1988; reviewed in Michener, 1990). The initial stages of hymenopteran social evolution are represented by solitary individuals and those in undifferentiated societies, yet their biology is not well known, as is true for the numerous tropical halictine species or populations (see Michener, 1990).The subgenusDialictus ofLasioglossum is a primarily New World group of several hundred species (Moure and Kurd, 1987). These bees are monotonously similar in structure and appearance, yet diverse in social behavior. FemaleLasioglossum (Dialictus) figueresi are usually solitary, and structurally are very similar to their social relativeL. (D.) aeneiventre (Wcislo, 1990 a). The systematic placement of these species with respect to otherL. (Dialictus) is uncertain, but they have no obvious affinities to other recognized species groups (G. C. Eickwort, pers. comm.). Unusual morphological features, such as large size, yellowish wings and pubescence, and features of the genital organs, may indicate thatL. (D.) figueresi is the more derived of the pair, and may therefore be secondarily solitary, as is known for other sweat bees (Packer, 1991).

Natural History and Behavior of a Primitively Social Wasp, Auplopus semialatus, and Its Parasite, Irenangelus eberhardi (Hymenoptera: Pompilidae)

Two to eight females of a neotropical, primitively social wasp, Auplopus semialatus(Pompilidae), cooperatively build and maintain mud nests. Females capture non-web-building spiders as provisions for their offspring. Cohabiting females are usually tolerant of one another and defend the nest against natural enemies, including the cleptoparasitic wasp, Irenangelus eberhardi(Pompilidae). They often become intensely competitive, however, when a spider is brought to the nest. Auplopusfemales steal spiders from both uncapped and newly capped cells and eat the previous owners egg. Many observations highlight the primitive level of sociality in this species, and the discussion relates these observations to those based on other primitively social wasps.