Thu, Aug 18, 2022: 5:00 PM-6:30 PM
ESA Exhibit Hall
Background/Question/Methods: The invasive vampire fly Philornis downsi is threatening the survival of multiple endemic species of the Galapagos Archipelago, including critically endangered species of Darwin’s finches. Understanding the ecology of Galapagos Diptera is a mandatory step in estimating impacts of P. downsi control prospects and acquiring endemic pupae for biological control agent non-target testing. However, prior to this research study, the community ecology and rearing substrates of Galapagos Diptera had been virtually unknown. Rearing traps (n=137) containing various substrates (71 in total) were placed in the field at substrate collection points across the six primary vegetation zones of five islands across three field seasons (Summer 2016, 2018, 2019). Substrates were targeted based on their likelihood as sources of endemic/native cyclorrhaphan Diptera based on historical data and natural history of closely related species. Following substrate colonization periods, traps were isolated from further colonization. Rearing traps were specially designed to minimize the opportunity for reared adults within traps to utilize the substrate for reproduction while preventing contamination into the isolated traps. Isolated traps were stored, with emergent adults collected and preserved in ethylene glycol. Each specimen was collected, processed, stored in 70-75% ethanol, and identified from 2018-2022.
Results/Conclusions: This natural history study illuminated dozens of novel interspecies associations. Notably, rearing sources of six endemic or likely endemic along with two native or likely native dipteran species were identified. Of these, four endemic and two likely native Diptera are cyclorrhaphan, which is a particularly important group for P. downsi non-target testing. 17 species within 13 genera not previously recorded in the Galapagos Islands were confirmed. Five of these species are within genera not previously recorded on the Archipelago. Two species suspected to be new to science were discovered. Both are in the genus Sciophila (Sciaridae). Lastly, a novel parasitic interaction between the tachinid fly Drino inca and the native sphingid lepidopteran Agrius cingulata was recorded. These results will directly inform the ongoing, time-sensitive ecological safety studies of potential biological control agents for P. downsi. Beyond the contribution of this knowledge to the general understanding of Galapagos ecosystems, these results improve our understanding of plant-insect interactions as well as community composition.
Results/Conclusions: This natural history study illuminated dozens of novel interspecies associations. Notably, rearing sources of six endemic or likely endemic along with two native or likely native dipteran species were identified. Of these, four endemic and two likely native Diptera are cyclorrhaphan, which is a particularly important group for P. downsi non-target testing. 17 species within 13 genera not previously recorded in the Galapagos Islands were confirmed. Five of these species are within genera not previously recorded on the Archipelago. Two species suspected to be new to science were discovered. Both are in the genus Sciophila (Sciaridae). Lastly, a novel parasitic interaction between the tachinid fly Drino inca and the native sphingid lepidopteran Agrius cingulata was recorded. These results will directly inform the ongoing, time-sensitive ecological safety studies of potential biological control agents for P. downsi. Beyond the contribution of this knowledge to the general understanding of Galapagos ecosystems, these results improve our understanding of plant-insect interactions as well as community composition.