CandidatusMicrothrix is one of the most common bulking filamentous microorganisms found in activated sludge wastewater treatment plants (WWTPs) across the globe. One species,Ca.M. parvicella, is frequently observed, but global genus diversity, as well as important aspects of its ecology and physiology, are still unknown. Here, we use the MiDAS ecosystem-specific 16S rRNA gene database in combination with amplicon sequencing of Danish and global WWTPs to investigateCa.Microthrix spp. diversity, distribution, and factors affecting their global presence. Only two species were abundant across the world confirming low diversity of the genus: the dominantCa.M. parvicella and an unknown species typically present along withCa.M. parvicella, although usually in lower abundances. Both species were mostly found in Europe at low-to-moderate temperatures and their growth was favored in municipal WWTPs with advanced process designs. As no isolate is available for the novel species, we propose the name “CandidatusMicrothrix subdominans.” Ten high-quality metagenome-assembled genomes recovered from Danish WWTPs, including 6 representing the novelCa.M. subdominans, demonstrated high genetic similarity between the two species with a likely preference for lipids, a putative capability to reduce nitrate and nitrite, and the potential to store lipids and poly-P.Ca.M. subdominans had a potentially more versatile metabolism including additional sugar transporters, higher oxygen tolerance, and the potential to use carbon monoxide as energy source. Newly designed fluorescencein situhybridization probes revealed similar filamentous morphology for both species. Raman microspectroscopy was used to quantify thein situlevels of intracellular poly-P. Despite the observed similarities in their physiology (both by genomes andin situ), the two species showed different seasonal dynamics in Danish WWTPs through a 13-years survey, possibly indicating occupation of slightly different niches. The genomic information provides the basis for future research intoin situgene expression and regulation, while the new FISH probes provide a useful tool for further characterizationin situ. This study is an important step toward understanding the ecology ofCa.Microthrix in WWTPs, which may eventually lead to optimization of control strategies for its growth in this ecosystem.