Oomycete metabarcoding reveals the presence of Lagenidium spp. in phytotelmata

The oomycete genus Lagenidium, which includes the mosquito biocontrol agent L. giganteum, is composed of animal pathogens, yet is phylogenetically closely related to the well characterized plant pathogens Phytophthora and Pythium spp. These phylogenetic affinities were further supported by the identification of canonical oomycete effectors in the L. giganteum transcriptome. In this study, culture-independent, metabarcoding analyses aimed at detecting L. giganteum in bromeliad phytotelmata (a proven mosquito breeding ground) microbiomes were performed. Two independent and complementary microbial detection strategies based on the amplification of cox1 DNA barcodes were used and produced globally concordant outcomes revealing that two distinct Lagenidium phylotypes are present in phytotelmata. A total of 23,869 high quality reads were generated from four phytotelmata, with 52%, and 11.5% of these reads taxonomically associated to oomycetes, and Lagenidium spp., respectively. Newly designed Lagenidium-specific cox1 primers combined with cloning/Sanger sequencing produced only Lagenidium spp. sequences, with a majority of variants clustering with L. giganteum. High throughput sequencing based on a Single Molecule Real Time (SMRT) approach combined with broad range cox1 oomycete primers confirmed the presence of L. giganteum in phytotelmata, but indicated that a potentially novel Lagenidium phylotype (closely related to L. humanum) may represent one of the most prevalent oomycetes in these environments (along with Pythium spp.). Phylogenetic analyses demonstrated that all detected Lagenidium phylotype cox1 sequences clustered in a strongly supported, monophyletic clade that included both L. giganteum and L. humanum. Therefore, Lagenidium spp. are present in phytotelmata microbiomes. This observation provides a basis to investigate potential relationships between Lagenidium spp. and phytotelma-forming plants, and reveals phytotelmata as sources for the identification of novel Lagenidium isolates with potential as biocontrol agents against vector mosquitoes.