The strongest determinants of piscirickettsiosis prevalence were the number of infected farms in upstream waters and the extent of disease outbreaks in upstream waters (total mortality), followed by seawater salinity and temperature. In farms downstream from infected farms, observed disease prevalence 25 wk into the farming cycle was close to 100%, while in farms with little or no exposure to upstream, infected farms, prevalence reached only ~10% by the end of the farming cycle (Week 56). No previous studies have quantified the scales of connectivity associated with piscirickettsiosis or provided risk metrics of waterborne transmission of the disease among farms; these are a novel aspect of this research. The above knowledge regarding the use of the epidemiological model will allow industry and regulators to better target disease control strategies for more effective control of piscirickettsiosis in the study area.

​As part of this research project, we have developed an interactive online application that simulates piscirickettsiosis dynamics at salmon farming sites in the Los Lagos region using the R package ‘shiny’; step-by-step instructions for using the application are provided. This web-based program allows users to investigate piscirickettsiosis dynamics as a function of oceanographic conditions, and is expected to support communication among academia, the public, and industry sectors.