Summary
Rabbit caliciviruses are an essential tool for managing wild rabbit populations in Australia. Our understanding of rabbit calicivirus epidemiology in Australia currently depends on members of the public submitting liver samples from dead rabbits through a monitoring program called Rabbitscan. However, many wild rabbits die in inaccessible locations or are scavenged before sampling can occur, leading to considerable sampling bias. In this study we screened field-caught carrion flies for the presence of rabbit caliciviruses to monitor virus circulation patterns in the landscape, with an aim to establish a less biased epidemiological surveillance tool. Carrion flies were collected from two study sites over a 22 month period and these samples were used to optimise and validate molecular testing methods in this sample type for the currently circulating rabbit calicivirus variants. Virus was clearly detectable in field-caught carrion flies using optimised SYBR-green RT-qPCR and RT-PCR assays. However, variant identification was frequently hindered by the low virus loads present in carrion fly samples and spurious RT-PCR amplification. This was overcome by frequent sampling, which effectively acts as replicate sampling to verify inconclusive results. There was good correlation between virus detections in carrion flies and in samples recovered from wild rabbits, both temporally and for virus variant identification. The methods reported here provide a robust and efficient additional surveillance tool to monitor rabbit calicivirus activity at a landscape scale, which in turn can help to guide more effective rabbit management programs.