INDIRECT EFFECTS OF THE FAIRY SHRIMP, BRANCHIPUS-SCHAEFFERI AND 2 OSTRACOD SPECIES ON BACILLUS-THURINGIENSIS VAR ISRAELENSIS-INDUCED MORTALITY IN MOSQUITO LARVAE

Bacillus thuringiensis var israelensis (BTI), when ingested by mosquito larvae, is highly toxic to them. Many other aquatic invertebrates feed on bacteria but, in general, BTI is not toxic to them. We tested in the laboratory the hypothesis that certain crustaceans indirectly benefit mosquito larvae by reducing mortality caused by BTI. We presumed the mechanism to be ingestion of the bacteria by the crustaceans resulting in a lower concentration available to the mosquito larvae. Mortality of Aedes aegypti larvae exposed to BTI was reduced in the presence of the fairy shrimp, Branchipus schaefferi and the ostracod, Cypridopsis vidua (only during summer trials and not autumn trials for the latter species) but was not reduced in the presence of the ostracod, Heterocypris incongruens. By contrast, H. incongruens preyed upon infected, though still-moving, larvae. Feeding on the bacteria by the crustaceans may not be an important mechanism; our data indicates that the crustaceans did not reduce BTI in the water. Moreover, B. schaefferi, introduced into water and then removed prior to the introduction of BTI and mosquitoes, also reduced mosquito mortality. The mechanism for the protective effect of B. schaefferi and C. vidua is unknown. However, these results suggest that the abundance of certain organisms co-occurring with mosquito larvae may partially explain why the effective concentration of BTI varies among habitats.