Multiple genotypes of a quarantine plant pathogen detected in New Zealand indigenous plants located in a botanical garden overseas

Xylella fastidiosa is a xylem-limited bacterial plant pathogen transmitted by insect vectors. It infects a wide range of plant species and causes devastating diseases. Botanical gardens are global repositories of plant diversity exposed to local biotic and abiotic stresses. We used molecular diagnostic tools for the detection of X. fastidiosa in a collection of New Zealand indigenous plants grown in a X. fastidiosa-infected Californian area to determine if any species were infected with this bacterial pathogen and to help inform biosecurity responses. To this end, 130 New Zealand indigenous plant species comprising 72 genera, growing in the University of California Botanical Garden at Berkeley, California, were screened for X. fastidiosa. Multiple PCR-based methods were used to detect the pathogen at the subspecies and sequence-type levels directly from plant material; nine plant species tested positive by at least two PCR-based methods. All nine infections were identified as X. fastidiosa subsp. multiplex sequence types 6 or 7 by the amplification of seven housekeeping genes. Three strains were cultured in vitro and their whole genome sequences were obtained; these strains belonged to three distinct clades within subspecies multiplex, indicating that the infections were not transmitted among these New Zealand indigenous plant species. The information gathered in this study will help to assess the risk of X. fastidiosa to New Zealand indigenous flora and the potential spillover to crops of agricultural importance. The work also shows the applied value of botanical garden collections as sentinels for international plant pathogen biosecurity risk assessment.