Fair-weather friends: Unequal partnerships between Parastagonospora nodorum and Pyrenophora tritici-repentis define disease dynamics in wheat

Parastagonospora nodorum and Pyrenophora tritici-repentis are the causal agents of septoria nodorum blotch and tan spot of wheat, respectively. Though these fungal phytopathogens have been found to frequently cohabitate the same leaf, their interaction dynamics in the manifestation of disease remain poorly understood due to limitations in species-specific detection methods. We developed a digital PCR based model targeting conserved regions of the α-tubulin gene, enabling biomass quantification of both pathogens during infection. Field surveys revealed up to two in three symptomatic infections involved both pathogens, with co-infected plants showing significantly higher individual pathogen biomass than single-species infections. Host plants in the field with moderate resistance to both pathogens were found to be significantly more necrotic under co-infection, with individual pathogen biomass up to twice that observed value for single infections. However, like fair-weather friends the partnership between these two pathogens seems to be conditional. When P. tritici-repentis established first, secondary P. nodorum colonisation led to a breakdown of host resistance. Conversely, when P. nodorum established on the host first, it suppressed P. tritici-repentis colonisation regardless of host resistance. To our knowledge this is the first description of asymmetric priority effects overcoming host resistance in a plant pathosystem. Resistance breeding strategies evaluating single pathogen challenges may inadvertently select for cultivars vulnerable to sequential co-infection, necessitating integrated disease complex approaches for durable resistance development.