Necrophagous blow fly species (Diptera: Calliphoridae) are the most important agents for estimating the postmortem interval (PMI) in forensic entomology. Nevertheless, the oviposition preferences of blow flies may cause a bias of PMI estimations because of a delay or acceleration of egg laying. Chrysomya megacephala (F.) and C. rufifacies (Macquart) are two predominant necrophagous blow fly species in Taiwan. Their larvae undergo rather intense competition, and the latter one can prey on the former under natural conditions. To understand the oviposition preferences of these two species, a dual-choice device was used to test the choice of oviposition sites by females. Results showed when pork liver with and without larvae of C. rufifacies was provided, C. megacephala preferred to lay eggs on the liver without larvae. However, C. megacephala showed no preference when pork liver with and without conspecific larvae or larvae of Hemipyrellia ligurriens (Wiedemann) was provided. These results indicate that females of C. megacephala try to avoid laying eggs around larvae of facultatively predaceous species of C. rufifacies. However, C. rufifacies showed significant oviposition preference for pork liver with larvae of C. megacephala or conspecific ones when compared with pork liver with no larvae. These results probably imply that conspecific larvae or larvae of C. megacephala may potentially be alternative food resources for C. rufifacies, so that its females prefer to lay eggs in their presence. When considering the size of the oviposition media, pork livers of a relatively small size were obviously unfavorable to both species. This may be because females need to find sufficient resources to meet the food demands of their larvae. In another experiment, neither blow fly species showed an oviposition preference for pork livers of different stages of decay. In addition, the oviposition preferences of both species to those media with larvae were greatly disturbed in a dark environment. If we removed the larvae that had previously fed on the pork liver and let the females choose, no oviposition preference was observed; but both species still showed a preference for the larger media in the dark. This suggests that female blow flies can use visual cues to recognize larvae on the media and decide on their oviposition site. Our studies point out the effects of some biotic and abiotic factors which were previously overlooked, and remind us to reevaluate these effects on oviposition, especially when using insect developmental data to estimate PMIs.
Chrysomya megacephala (Fabricius) (Diptera: Calliphoridae) is a common and forensically important blow fly species in the Oriental region. However, in the higher mountain regions and on winter days, its habitats are occupied by a closely related species, Chrysomya pinguis (Walker). The resources that the two species employ to survive are very similar and competition between the species may be one of the factors that trigger differentiation of their behaviors. We conducted experiments to examine how these two closely related species may have adapted to different temperature regimes to avoid competition. Several adult and immature parameters were assessed, such as fecundity, locomotor ability, hatching ratio, larval survivorship, and eclosion ratio. Results indicate that species show specific diapause at high temperature (38 °C), larval survivorship of Ch. megacephala was significantly better than that of Ch. pinguis. Conversely, at low temperature (15 °C), adult locomotor ability was better for Ch. pinguis than for Ch. megacephala. The results indicate that the two species may have evolved different temperature adaptation strategies to avoid competition. In mixed‐species larval rearing experiments, competition between Ch. pinguis and Ch. megacephala was observed: at higher temperature (30 °C), the immature performance index of Ch. megacephala was significantly increased when compared to that in single‐species culture, whereas the index of Ch. pinguis was decreased. These data are consistent with the idea that tolerance for higher temperature conditions would allow larvae of Ch. megacephala to gain a competitive advantage over Ch. pinguis in certain habitats. These results may help to explain their current distribution in the environment and provide more biological information on these forensically important species.
Blow flies (Diptera: Calliphoridae) show a great diversity in behavior and ecology, play important roles in ecosystems, and have medical and forensic importance to humans. Despite this, the taxonomy and classification of Taiwan's Calliphoridae have rarely been studied. In this study, specimens of Taiwanese calliphorids were collected and carefully studied, and all 76 species recorded in Taiwan are listed following the identification keys. Dichotomous keys to all subfamilies, tribes, genera, and species of blow flies recorded in Taiwan are provided, including 16 species that are newly recorded from Taiwan. In addition, one new species of the genus Paradichosia Senior-White is described and illustrated. We also discuss the morphological differences between the specimens of Silbomyia hoeneana Enderlein collected from China and Taiwan, a species that has only been found previously in Southern China.
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