In the marine environment, a growing body of evidence points to parasites as key players in the control of population dynamics and overall ecosystem structure. However, their prevalence and impact on marine macroalgal communities remain virtually unknown. Indeed, infectious diseases of seaweeds are largely underdocumented, partly because of the expertise required to diagnose them with a microscope. Over the last few years, however, real-time quantitative PCR (qPCR) has emerged as a rapid and reliable alternative to visual symptom scoring for monitoring pathogens. Thus, we present here a qPCR assay suitable for the detection and quantification of the intracellular oomycete pathogen Eurychasma dicksonii in its ectocarpalean and laminarialean brown algal hosts. qPCR and microscopic observations made of laboratory-controlled cultures revealed that clonal brown algal strains exhibit different levels of resistance against Eurychasma, ranging from high susceptibility to complete absence of symptoms. This observation strongly argues for the existence of a genetic determinism for disease resistance in brown algae, which would have broad implications for the dynamics and genetic structure of natural populations. We also used qPCR for the rapid detection of Eurychasma in filamentous brown algae collected in Northern Europe and South America and found that the assay is specific, robust, and widely applicable to field samples. Hence, this study opens the perspective of combining large-scale disease monitoring in the field with laboratory-controlled experiments on the genome model seaweed Ectocarpus siliculosus to improve our understanding of brown algal diseases.Brown algae make up over 70% of the biomass on cold and temperate rocky seashores. Like other living organisms, they are plagued by diseases caused by fungi, oomycetes, bacteria, or viruses (27). Among eukaryotic pathogens of seaweeds, the oomycete Eurychasma dicksonii has been described as "the most common and widespread of the marine fungi" (see references 21, 31, and 33 and references therein). It occurs in all cold and temperate seas, although sampling biases and its microscopic size have undoubtedly contributed to this parasite remaining largely overlooked.In culture, Eurychasma infects virtually all species of brown algae tested (Ͼ40 [25]), including representatives of all major orders of this phylum; it is therefore the marine pathogen with the widest described host range so far. In particular, Eurychasma infects the genome model seaweed Ectocarpus siliculosus, which is currently being fully sequenced. Phylogenetically, Eurychasma is the most basal member of the oomycete lineage known so far (20a, 29). Oomycetes (or water molds) are a group of fungus-like organisms which encompass many devastating pathogens such as the potato blight, grape mildew, and fish mold agents.The role of infectious agents in the marine environment is best known for viruses, which account for an estimated 20 to 40% daily loss in prokaryotic biomass, an impact comparable to that of graz...
