Targeted ‘infectiosome’ for disease ecology: A new tool to answer old questions

Research Highlight: Bralet, T., Aaziz, R., Tornos, J., Gamble, A., Clessin, A., Lejeune, M., Galon, C., Michelet, L., Lesage, C., Jeanniard du Dot, T., Desoubeaux, G., Guyard, M., Delannoy, S., Moutailler, S., Laroucau, K. and Boulinier, T. (2025). High-throughput microfluidic real-time PCR as a promising tool in disease ecology. Journal of Animal Ecology, https://doi.org/10.1111/1365-2656.70088. Disease ecology aims to understand the causes and consequences of the maintenance and transmission of pathogenic infectious agents. A crucial step in studying disease ecology is identifying the ‘infectiosome’, which I define as all infectious agents circulating among individuals, populations and the community of a given ecosystem. In a recent study, Bralet et al. (2025) propose a new, cheap and adaptable toolkit for determining a targeted ‘infectiosome’, which appears very useful in disease ecology approaches: high-throughput microfluidic real-time PCR (Htrt PCR). This method is a good alternative to costly metagenomic approaches and consists of running several dozen PCRs from a single tissue sample. This technique enables screening, from a single sample, the presence of dozens of targeted infectious agents: the targeted ‘infectiosome’, allowing one to answer several questions. For example, Bralet et al. (2025) applied this method to 274 seabirds and 80 mammals samples collected from the Southern Ocean islands and detected pathogenic infectious agents in new locations. The results also show that some species are potential ‘reservoirs’ of several infectious agents in this ecosystem. This method is really promising and can be easily adapted and used to test different hypotheses in disease ecology at the scales of the population and the community in other ecosystems, such as the urban ecosystem.