REPRODUCTIVE STRATEGIES OF 3 SPECIES OF ECTOPARASITIC WASPS ARE MODULATED BY THE RESPONSE OF THE FLY HOST SARCOPHAGA-BULLATA (DIPTERA, SARCOPHAGIDAE) TO PARASITISM
Db. Rivers et al., REPRODUCTIVE STRATEGIES OF 3 SPECIES OF ECTOPARASITIC WASPS ARE MODULATED BY THE RESPONSE OF THE FLY HOST SARCOPHAGA-BULLATA (DIPTERA, SARCOPHAGIDAE) TO PARASITISM, Annals of the Entomological Society of America, 91(4), 1998, pp. 458-465
Envenomation by the ectoparasitic wasps Nasonia vitripennis (Walker),
Muscidifurax zaraptor Kogan & Legner, and Trichomalopsis near american
a (Hymenoptera: Pteromalidae) caused rapid death (within 24 h) or a de
velopmental arrest in the ny host Sarcophaga bullata Parker (Diptera:
Sarcophagidae). The dominant response of S. bullata to envenomation by
any of the 3 wasps was an arrested or retarded development, the durat
ion of which varied with wasp species and weight of the host. Although
most flies (>50%) in arrested development did show some progression i
n pharate adult development, it was delayed by several days compared w
ith unenvenomated flies and none eclosed as adults. A positive relatio
nship was observed between the number of eggs deposited per host by th
e 2 gregarious wasps N. vitripennis and T. near americana and the dura
tion of the induced developmental arrest. Such a relationship was not
observed for the solitary wasp M. zaraptor, because larval fighting be
tween 1st-instar siblings prohibited more than 1 adult wasp emerging f
rom each fly puparium. Envenomation by all wasps resulted in elevated
hemolymph lipid titers in S. bullata within 1-2 d after venom injectio
n. The peak in host hemolymph lipid content correlated positively with
clutch sizes for N. vitripennis and T. near americana, but not for M.
zaraptor. This suggests that alterations in fly lipid metabolism are
linked to developmental events associated with host arrestment that ar
e essential to progeny development of the 2 gregarious species but tha
t are not important to a solitary parasite such as M. zaraptor.