Do virus‐resistant plants pose a threat to non‐target ecosystems? I. Evidence from an Australian pathosystem based on glasshouse challenge experiments

Abstract

AbstractOne key environmental risk associated with the release of novel disease‐resistant plants is the potential for non‐target host populations to acquire resistance genes and undergo enemy release, leading to damage to associated native plant populations in high conservation‐value ecosystems. Unfortunately, the dynamics of most natural pathosystems are poorly understood, and risk assessment of disease‐resistant plants remains a challenge. Here we describe the first stage of a multi‐tiered risk assessment strategy aimed at quantifying potential ecological release in a model pathosystem (the weedy pasture species Trifolium repens infected with Clover yellow vein virus; ClYVV) in order to assess the level of risk posed by genetically modified and conventionally bred disease‐resistant host genotypes to non‐target plant communities in south‐eastern Australia. Glasshouse inoculation and growth experiments using 14 ClYVV isolates and 20 wild T. repens lines collected from high conservation‐value montane grassland and woodland communities show that viral infection reduces the survival and growth of host plants by on average 10–50%. However, T. repens lines exhibited variable levels of resistance and tolerance to virus infection and ClYVV isolates differed in infectivity and aggressiveness, with grassland isolates having a greater pathogenic effect on associated host plants than woodland isolates. We conclude that ClYVV potentially plays an important role in limiting the size of T. repens populations in some at‐risk non‐target ecosystems and that second‐tier field experiments are required to adequately quantify the risk associated with the commercial release of V‐R T. repens genotypes in Australia.