Environmental Microbiology


Publications
73

CitationNamesAbstract
Experimental evidence of <scp>d</scp>‐glutamate racemase activity in the uncultivated bacterium Candidatus Saccharimonas aalborgensis Peñalver et al. (2024). Environmental Microbiology 26 (4) Ca. Saccharimonas aalborgenesis Saccharimonas aalborgensis Ts
Candidatus<scp>Tisiphia</scp>’ is a widespread <scp>Rickettsiaceae</scp> symbiont in the mosquito Anopheles plumbeus (<scp>Diptera: Culicidae</scp>) Davison et al. (2023). Environmental Microbiology “Tisiphia”
The effect of methane and methanol on the terrestrial ammonia‐oxidizing archaeon ‘ Candidatus Nitrosocosmicus franklandus <scp>C13</scp> ’ Oudova‐Rivera et al. (2023). Environmental Microbiology 25 (5) Ca. Nitrosocosmicus franklandus
Metagenomic insights into the environmental adaptation and metabolism of Candidatus Halarchaeoplasmatales, one archaeal order thriving in saline lakes Anonymous (2023). Environmental Microbiology 25 (2) Ca. Halarchaeoplasmatales
Persistence and resistance: survival mechanisms of Candidatus Dormibacterota from nutrient‐poor Antarctic soils Montgomery et al. (2022). Environmental Microbiology 24 (9) “Dormibacteraceae” Aeolococcaceae “Dormibacterales” Dormibacterota
Anaerobic single‐cell dispensing facilitates the cultivation of human gut bacteria Afrizal et al. (2022). Environmental Microbiology 24 (9) Hominilimicola fabiformis Hominilimicola “Bacteroides hominis ” “Veillonella fallax ” “Ruminococcus turbiniformis ” Hominicoprocola “Hominicoprocola fusiformis ” Blautia fusiformis Coprococcus hominis “Fusicatenibacter faecihominis ” Faecalibacterium hominis Brotaphodocola Brotaphodocola catenula T Hominenteromicrobium Hominenteromicrobium mulieris T “Brotocaccenecus” “Brotocaccenecus cirricatena ” Hominifimenecus microfluidus Hominisplanchenecus faecis T Hominisplanchenecus Hominifimenecus
Discovery of the non‐cosmopolitan lineages in Candidatus Thermoprofundales Liu et al. (2022). Environmental Microbiology 24 (7) Ca. Thermoprofundales
Into the darkness: the ecologies of novel ‘microbial dark matter’ phyla in an Antarctic lake Williams et al. (2022). Environmental Microbiology 24 (5) “Lernaellota” “Electryoneota” “Auribacterota” “Hinthialibacterota”
Disentangle genus microdiversity within a complex microbial community by using a multi‐distance long‐read binning method: example of Candidatus Accumulibacter Adler et al. (2022). Environmental Microbiology 24 (4) “Accumulibacter”
Cultivation and metabolic insights of an uncultured clade, Bacteroidetes <scp>VC2</scp> .1 Bac22 ( Candidatus Sulfidibacteriales ord. nov.), from deep‐sea hydrothermal vents Leng et al. (2022). Environmental Microbiology Ca. Sulfidibacteriales