LAUSR

Avocado is one of the world's fastest growing tropical fruit industries and the pathogen avocado sunblotch viroid (ASBVd) is a major threat to both production and access to international export markets. ASBVd is seed transmissible, with infection possible via either the male (pollen) or female gametes. Surveillance for ASBVd across commercial orchards is a major logistical task, particularly when aiming to meet the stringent standards of evidence required for a declaration of pest-freedom. Like many fruit crops, insect pollination is important for high avocado yields and honey bee (Apis mellifera) hives are typically moved into orchards for paid pollination services. Exploiting the foraging behaviour of honey bees can provide a complementary strategy for traditional surveillance methods. High-throughput sequencing (HTS) of bee samples for plant viruses shows promise but this surveillance method has not yet been tested for viroids or in a targeted plant biosecurity context. Here we tested samples of bees and pollen collected from pollination hives in two ASBVd orchard locations, one in Australia where only four trees in a block were known to be infected, and a second in South Africa where the estimated incidence of infection was 10%. Using real-time RT-PCR and HTS (total RNA-seq and small RNA-seq), we demonstrated that ASBVd can be confidently detected in bees and pollen samples from hives within 100 m of infected trees. The potential for using this approach in ASBVd surveillance for improved orchard management and supporting market access is discussed.