Three strains, designated as J27, J71T and J72, belonging to the genus Antrihabitans, were isolated from stable foams formed in activated sludge wastewater treatment plants (WWTPs) in New South Wales, Australia. Phenotypic and genomic analyses revealed that these strains belong to the Nocardiaceae family and are closely related to Antrihabitans stalagmiti. However, distinct genomic and physiological characteristics, including overall genomic relatedness indices, phylogenomic analysis, genomic metabolic profiles and MALDI-TOF MS (Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry), confirmed their status as a new species.Ecologically, these strains showed a wide metabolic versatility, like enhanced membrane transport systems for amino acids, metals and phosphate, as well as the ability to synthesize mycolic acids, contributing to their hydrophobic nature and involvement in foam stabilization. Their adaptations likely provide a competitive advantage in WWTPs, where they persist in nutrient-rich, metal-laden and foam-stabilizing environments. The species did not present the typical rod-coccus cycle, described previously as a defining characteristic of the Antrihabitans genus. Based on their unique genomic, phenotypic and ecological features, we propose the name Antrihabitans spumae sp. nov., with strain J71T (JCM 34493T, NCIMB 15450T) designated as the type strain. Additional strains include J27 (JCM 33914, NCIMB 15449) and J72 (NCIMB 15448).
Keywords: Actinomycetota; Antrihabitans; Nocardiaceae; stable foams; wastewater treatment plant.