Lineages of Omnitrophota described in Seymour et al., 2023

This class belongs to the phylum Omnitrophota. The description for this class is currently the same as for the order Omnitrophales. The nomenclatural type of the class is the genus Omnitrophus.

This class belongs to the phylum Omnitrophota. The description for the class is currently the same as for the order Aquiviventales. The nomenclatural type for the class is the genus Aquivivens.

This order belongs to the class Gorgyraia, in the phylum Omnitrophota. As a monotypic order, the description for the order is currently the same as for the genus Pluralincolimonas, the nomenclatural type for the order.

This order belongs to the class Omnitrophia, in the phylum Omnitrophota. Cell sizes vary within the order, with most observed cells and DNA recovered from serial-filtration experiments associated with small cell size. Several members encode very large ORFs putatively involved in adhesion, and ADP/ATP translocases. Genomic predictions indicate respiratory pathways as predominantly conserved in the order for energy metabolism. Genomes of this order have been recovered from freshwater, groundwater, wastewater, geothermal springs, saline sediment, soil and engineered environments. Samples from which assemblies were derived were taken under aerobic conditions at circumneutral pH, where reported. The nomenclatural type of the order is the genus Omnitrophus.

This order belongs to the class Aquiviventia in the phylum Omnitrophota. The description for the order is currently the same as for the type for the order, the genus Aquivivens.

This order belongs to the class Gorgyraia, in the phylum Omnitrophota. This is a monotypic order, and currently has the same description as the nomenclatural type for the order, the genus Taenaricola.

The taxonomic placement of this order is uncertain in the phylum Omnitrophota. This is a monotypic order and its description is currently the same as for its nomenclatural type, the genus Velesiimonas.

This order belongs to the class Gorgyraia, in the phylum Omnitrophota. The description of this order is currently the same as for the  nomenclatural type of the order, the genus Aquitaenariimonas.

This order belongs to the class Velamenicoccia, phylum Omnitrophota. Genes encoding tight-adherence complexes, very large ORFs and those associated with energy metabolism are variably present. Assemblies belonging to this order originate predominantly from saline sediments, although several assemblies are derived from metagenomic samples from soil and geothermal springs. Although limited information associated with environmental conditions at time of sampling is available, the temperature range where reported is 28-41 °C, and a pH range from 5.9 to 10.1. The type for this order is the genus Duberdicusella.

This order belongs to the class Velamenicoccia, phylum Omnitrophota. As a monotypic order, the description is currently the same as for the genus Ghiorseimicrobium, the nomenclatural type for the order.

This family belongs to the order Velesiimonadales. As a monotypic family, the description of the family is currently the same as for the genus Velesiimonas, the nomenclatural type for the family.

This family belongs to the order Aquitaenariimonadales, in the class Gorgyraia, phylum Omnitrophota. The description for this family is currently the same as for the genus Aquitaenariimonas, as no other representatives for this family is available. The type for the family is the genus Aquitaenariimonas.

This family belongs to the order Omnitrophales, class Omnitrophia, phylum Omnitrophota. As a monotypic family, the description of the family is currently the same as for the genus Danuiimicrobium, the nomenclatural type for the family.

This family belongs to the order Ghiorseimicrobiales, class Velamenicoccia, phylum Omnitrophota. The description for this monotypic family is the same as for its nomenclatural type, the genus Ghiorseimicrobium.

This family belongs to the order Omnitrophales, in the class Omnitrophia, phylum Omnitrophota. The description of this monotypic family is currently the same as the genus Omnitrophus. The nomenclatural type of the family is the genus Omnitrophus.

This family belongs to the order Zapsychrales, class Velamenicoccia, phylum Omnitrophota. Very large ORFs are pervasive within the family. Tight-adherence complexes are encoded by members of the order. Data regarding energy metabolism is uncertain. Assemblies assigned to the family have been derived from metagenomes from ground-, waste- and other freshwater, sediment, and soil. The nomenclatural type for the family is the genus Fredricksoniimonas.

The family belongs to the order Omnitrophales, class Omnitrophia, phylum Omnitrophota. Where known, cells are < 0.3 µm. Genomes encode ADP/ATP translocases, very large ORFs, and are consistent with predicted respiratory pathways. Assemblies assigned to the family have been recovered from ground water, wastewater, geothermal springs, soil, and saline sediments. Where data is available, assemblies originated from samples taken at circumneutral pH and temperatures close to 10 °C. The nomenclatural type for the family is the genus Taenariivivens.

This family belongs to the order Pluralincolimonadales, class Gorgyraia, phylum Omnitrophota. This family is currently a monotypic family, and has the same description as the nomenclatural type of the family, the genus Pluralincolimonas.

This family belongs to the order Omnitrophales, in the class Omnitrophia, phylum Omnitrophota. The description of this monotypic family is currently the same as the genus Abzuiibacterium. The nomenclatural type of the family is the genus Abzuiibacterium.

This family belongs to the order Taenaricolales, class Gorgyraia, phylum Omnitrophota. As a monotypic family, the description of the family is currently the same as for the genus Taenaricola, the nomenclatural type for the family.

This family belongs to the order Aquiviventales, class Aquiviventia, phylum Omnitrophota. Observed cell sizes of organisms in this family were predominantly small (0.2 µm), but some variation in cell size has been observed. Members differ in the presence of genes encoding tight-adherence complexes, ADP/ATP translocases, and very large ORFs. Most members of this family encode diverse respiratory pathways and electron transport chain components. Genomes belonging to this family originate from groundwater, wastewater, lake and river water, geothermal springs and soil. Metagenomic samples from which assemblies were recovered largely originated from microaerobic environments with circumneutral pH. The nomenclatural type for the family is the genus Aquivivens.

This family belongs to the order Omnitrophales, in the class Omnitrophia, phylum Omnitrophota. The presence of ADP/ATP translocase is variable within the family, but very large ORFs are frequently encoded by members of the family. High rates of carbon assimilation was observed for members of the family on root exudates and leaf litter. The nomenclatural type for the family is the genus Aquincolibacterium.

This family belongs to the order Duberdicusellales, class Velamenicoccia, phylum Omnitrophota. As a monotypic family, the description of the family is currently the same as for the genus Duberdicusella, the nomenclatural type for the family.

This genus belongs to the family Taenaricolaceae, order Taenaricolales, class Gorgyraia, phylum Omnitrophota. This monotypic genus currently has the same description that the type species for the genus, Taenaricola geyseris.

This genus belongs to the family Aquincolibacteriaceae, order Omnitrophales, class Omnitrophia, phylum Omnitrophota.  Assemblies assigned to this genus were recovered from samples of groundwater and engineered environments. The nomenclatural type for the genus is the species Multiplicimicrobium inquinatum.

This genus belong the to family Pluralincolimonadaceae, order Pluralincolimonadales, class Gorgyraia, phylum Omnitrophota. Some genes associated with respiration are encoded by genomes assigned to this genus, with no genes for acetogenesis. Assemblies assigned to this genus originate from ground water, freshwater ponds, soil, and permafrost. The type for the genus is the species Pluralincolimonas frigidipaludosa.

This monotypic genus belongs to the family Ghiorseimicrobiaceae, order Ghiorseimicrobiales, class Velamenicoccia, phylum Omnitrophota. Currently, the description for this genus is the same as for its nomenclatural type Ghiorseimicrobium undicola.

This monotypic genus belongs to the family Abzuiibacteriaceae, order Omnitrophales, class Omnitrophia, phylum Omnitrophota. The description of this monotypic genus is currently the same as that of the species Abzuiibacterium crystallinum, the type species for the genus.

This genus belongs to the family Aquincolibacteriaceae, order Omnitrophales, class Omnitrophia, phylum Omnitrophota. Very large ORFs, respiratory pathways, and sugar and peptide transporters are encoded by the genomes belonging to this genus. Species in this genus encode a cytoplasmic Group A3 [FeFe] hydrogenase, and a reversible acetyl-CoA synthetase that may be used for acetate utilization and/or acetogenesis. Assemblies assigned to this genus originate from lakes, groundwater and soil. The nomenclatural type for the genus is Aquincolibacterium aerophilum.

This monotypic genus belongs to the family Velamenicoccaceae, order Velamenicoccales, class Velamenicoccia, phylum Omnitrophota. The genus description is currently the same as for the species Phelpsiimicrobium noxiivivens, the nomenclatural type for the genus.

This genus belongs to the family Profunditerraquicolaceae, order Gygaellales, class Velamenicoccia, phylum Omnitrophota. Assemblies for the genus originate from industrial wastewater and soil. The nomenclatural type for the genus is Undivivens industriae.

This genus belongs to the family Aquincolibacteriaceae, in the order Omnitrophales, class Omnitrophia, phylum Omnitrophota. Assemblies belonging to this genus originated from lake water and sediment. Some genes associated with respiration are encoded by members of the genus. Very large ORFs are predicted to be encoded by members of this genus. The nomenclatural type for this genus is the species Pegaeibacterium caenilacustre.

This genus belongs to the family Tantalellaceae, order Tantalellales, class Gorgyraia, phylum Omnitrophota. All known assemblies originate from water. The nomenclatural type for the genus is the species Makaraimicrobium thalassicum.

This monotypic genus belongs to the family Velesiimonadaceae, and currently has the same description as its nomenclatural type, the species Velesiimonas alkalicola.

This genus belongs to the family Aquitaenariimonadaceae, order Aquitaenariimonadales, class Gorgyraia, phylum Omnitrophota. The description for this monotypic genus is currently the same as for the species Aquitaenariimonas noxiae. The type species for the genus is Aquitaenariimonas noxiae.

This genus belongs to the family Taenariiviventaceae, order Omnitrophales, phylum Omnitrophota. As a monotypic genus, the description is currently the same as for the nomenclatural type for the genus, Taenariivivens baikalensis.

This genus belongs to the family Aquiviventaceae, order Aquiviventales, class Aquiviventia, Omnitrophota. As the genus is currently monotypic, the description is the same as for the species Aquivivens invisus.

This genus belongs to the family Duberdicusellaceae, in the order Duberdicusellales, class Velamenicoccia, phylum Omnitrophota. The description of this monotypic genus is currently the same as that of the nomenclatural type for the genus Duberdicusella sinuisediminis.

This genus belongs to the family Danuiimicrobiaceae, in the order Omnitrophales, class Omnitrophia, phylum Omnitrophota. As a monotypic genus, the description is currently the same as for the type species of the genus, Danuiimicrobium aquiferis.

This genus belongs to the family Profunditerraquicolaceae, order Gygaellales, class Velamenicoccia, phylum Omnitrophota. Presence of genes encoding the tight-adherence complex is variable, and large ORFs are absent from genomes assigned to the genus. Assemblies originate from lake and groundwater. The nomenclatural type for the genus is Sherwoodlollariibacterium unditelluris.

This genus belongs to the family Fredricksoniimonadaceae, order Zapsychrales, class Velamenicoccia, phylum Omnitrophota. Members of this genus encode very large ORFs, and genes for the tight-adherence complex and respiratory pathways. All assemblies assigned to this genus originate from freshwater or sediment. The nomenclatural type for the genus is the species Fredricksoniimonas aquilentivivens.

This species is the nomenclatural type for the genus Duberdicusella. Estimated genome size for this species ranges between 1.3 to 1.8 Mb. GC content for this species is 34.9-35.9 %. No large ORFs are predicted for members of this species. Genes associated mainly with an acetogenic metabolic scheme, along with an Rnf complex, and respiratory complex V (F-type ATPase) are encoded by the genomes of the species. A conductive pilin, a membrane-bound Group 4g [NiFe] and cytoplasmic Group A3 [FeFe] hydrogenases, and all components for the tight-adherence complex (Tad) and Type-4a pili are encoded by the genomes. Additionally, a "symbiotic" F-type ATPase is also encoded by the genomes. All assemblies assigned to this species originated from deep-sea hydrothermal vent sediment samples from Guaymas Basin, Gulf of California, Mexico, with some derived from samples with a reported temperature of 28 °C. The type for the species is the genome GCA_003644525.1.

This species is the type for the genus Makaraimicrobium. Estimated genome size for this species is 2 Mb. %GC content for this genome is 48.46%. No large ORF is encoded by this species. A basic acetogenic pathway for fermentation of sugars is encoded by the genome of this species. This may couple the oxidative ATP-yielding reactions of the EMP pathway, with an Rnf complex for redox balancing and a horse-shoe type TCA cycle. Of the respiratory complexes, only a respiratory F-type ATPase is encoded by this genome. Additionally, a "symbiotic" F-type ATPase and components for a Type-4 a pilus is encoded by the genome. The assembly for this species was recovered from a metagenomic sediment sample from a deep-sea hydrothermal vent from Guaymas Basin, Gulf of California, Mexico, where a temperature of 10 °C has been reported. The nomenclatural type for the species is the genome GCA_003644505.1.

This species is the type for the genus Fredricksoniimonas. In addition to genus characteristics, the estimated genome size for this species is 2 Mb. The %GC for the genome is 50.78 %. Coupled with a Group A3 [FeFe] hydrogenase encoded by the genome of this species, a reversible acetyl-CoA synthetase indicates likely acetogenesis in this species, through the production of acetate from acetyl-CoA by the fermentation of glucose and nucleotides. Respiratory complex I is present in the genome of this species, and can provide oxidized NAD+ and maintain a proton gradient across the membrane. A respiratory F-type ATPase (complex V) is also present in the genome, and can produce ATP. A metal-reducing cytochrome is present in the genome. Additionally, a "symbiotic" F-type ATPase is also encoded by this genome, along with all genes required for the tight-adherence complex and a Type-4a pilus. A very large ORF is also encoded by this genome. The assembly was recovered from a metagenomic sample of lake water from Nästjärnen, Sweden. The nomenclatural type for the species is the genome GCA_903860135.1.

This species is the type for the genus Aquitaenariimonas. The estimated genome size for members of this species is approximately 2 Mb. Two unique assemblies are available for this species, and range in % GC content from 42.05-42.75 %. The highest quality genome available for the species encodes a very large ORF, and genes associated with acetogenesis and the Wood-Ljungdahl pathway, but an Rnf complex is absent. A respiratory F-type ATPase, membrane-bound Group 4g [NiFe] hydrogenase and all components for a Type-4a pilus investigated are encoded in the genomes. This species has been recovered from metagenomic samples of groundwater from Crystal Geyser, near Green River, Utah, USA, with temperature measurements at sampling recorded at 17 °C. The nomenclatural type for the species is the genome GCA_002780005.1.

Estimated genome sizes for the species are 2.27-2.36 Mb, with %GC content of 50.32-50.59 %. Sugar and amino acid transporters are encoded by genomes in this species. Only respiratory complexes I and V are encoded by genomes of the species, and no terminal electron acceptors can confidently be identified. A cytoplasmic group A3 [FeFe] electron bifurcating hydrogenase is encoded by genomes of the species. Due to the incompleteness of respiratory pathways in this species and no terminal electron acceptors being predicted from the genomes, a reversible acetyl-CoA synthetase encoded by genomes of this species coupled with the Group A3 [FeFe] hydrogenase may be indicative of acetogenesis in this species. Respiratory complex I may be providing oxidized NAD+ and maintain a proton gradient across the membrane, while the respiratory F-type ATPase (complex V) produces ATP. Genes for the production of a Type-4a pilus is also present, as well as the "symbiotic" F-type ATPase. Very large ORFs are encoded by members of this species. The nomenclatural type for the species is the genome GCA_903856085.1.

This species is the type for the genus Multiplicimicrobium. Estimated genome size for this species is between 2 and 2.25 Mb with a %GC content of 46.35-46.78 %. Very large ORFs or partial homologs to very large ORFs, containing domains associated with cellular adhesion, an ADP/ATP translocase, and genes associated with respiratory complex I, II, IV and V are encoded by genomes of this species. The presence of cytochrome c oxidase in the genome indicates that this species is likely aerobic, and nitric oxide is predicted as an alternative terminal electron acceptor. A reversible acetyl-CoA synthetase is also encoded by genomes of this species, and may be indicative of acetate utilization, or fermentation of sugars to acetate. All genes required for the production of the Type-4a pilus are present in genomes of this species. Assemblies for this species originated from activated sludge bioreactor samples. The nomenclatural type for the species is the genome GCA_002344825.1.

This species is the nomenclatural type for the genus Pegaeibacterium. Estimated genome sizes for the species range between 2.1 and 2.2 Mb with GC% of 54.27-54.30 %. Some components of the respiratory chain, particularly complex I and V, are encoded by genomes of this species. Cytoplasmic Group A3 [FeFe] and Group 4f [NiFe] hydrogenases are encoded by genomes of this species. As incomplete respiratory pathways are present in this species and no terminal electron acceptors are predicted from the genomes, the presence of a reversible acetyl-CoA synthetase coupled with the Group A3 [FeFe] hydrogenase may be indicative that this species is acetogenic, with respiratory complex I providing oxidized NAD+ and maintaining a proton gradient across the membrane, and complex V (respiratory F-type ATPase) producing ATP. Both assemblies for the species originate from freshwater sediment from Lake Alinen Mustajärvi, Finland. The nomenclatural type for the species is the genome GCA_903820505.1.

This species is the type for the genus Taenariivivens. The %GC content for this genome is 46.97%. Estimated genome size for the species is 2.6 Mb. Genes associated with respiratory complex I, II and V are encoded by the genome of this species. All genes required for the production of the Type-4a pilus are present in the genome. The genome also encodes genes for the tight adherence complex, the "symbiotic" F-type ATPase, and a very large ORF. The genome representing this species was recovered from a water sample from Lake Baikal, Russia. The nomenclatural type for the species is the genome GCA_009691445.1.

In addition to characteristics provided for the genus, the estimated genome size for members of this species is 2.2-2.4 Mb with a GC content of 54.57-55.10 %. Genes associated with respiratory complexes, specifically complex I, II, III and V, and cytochrome bd ubiquinol are encoded by genomes of this species. A Group A3 [FeFe] hydrogenase is encoded by this species. A reversible acetyl-CoA synthetase may be indicative of acetate utilization, and/or acetogenesis coupled with the Group A3 [FeFe] hydrogenase. All genes required for the production of a Type-4a pilus and the tight-adherence complex are encoded by the genomes of the species, as well as very large ORFs. All assemblies originate from methane-rich freshwater lakes in Finland. The type for the species is the genome GCA_903901225.1.

This species is the nomenclatural type for the genus Aquivivens. Genomes belonging to this species are predicted to range between 1.7 Mb and 2 Mb. %GC content for the species range between 62.83-63.50 %. Genomes of this species encode respiratory complexes I through V, with aerobic respiration being likely due to the presence of cytochrome c oxidase in the genomes. Nitrite is predicted as alternative terminal electron acceptor, while a metal-reducing cytochrome is also encoded by genomes belonging to this species. ADP/ATP translocase, components of the tight-adherence complex, genes for the production of a Type-4a pilus, and at least two very large ORFs are encoded by genomes of this species. Assemblies for this species originated from soil and groundwater samples from Rifle, Colorado, USA, with a pH of 7.28 and oxygen concentrations of 0.29 mM. The nomenclatural type for the species is the genome GCA_001804415.1.

This species is the type for the genus Taenaricola. The genomes of this species is predicted to be 1.2 to 1.4 Mb, with % GC content of 42.51 to 42.8%. Genes related to acetogenesis and an Rnf complex are present. No components for respiratory complexes are present in the genomes. A conductive pilin and components involved in the production of a Type-4a pilus are encoded by the genomes. A membrane-bound Group 4g [NiFe] hydrogenase is encoded by the genomes belonging to this species. All genome assemblies available for this species originate from Crystal Geyser, near Green River, Utah, USA, where a temperature of 17.4 °C was recorded. The nomenclatural type for the species is the genome GCA_002781985.1.

This species is the nomenclatural type for the genus Velesiimonas. The predicted genome size of this species is quite small in comparison to other Omnitrophota, at approximately 1.3 Mb. The % GC content of the genome is 37.82 %. No parasitism- or predation-associated genes are encoded by the genome for this species, and limited genes for energy metabolism are predicted for this genome, although, like other members in the phylum, the Type-4a pilus machinery is encoded. An Rnf complex, along with a respiratory F-type ATPase (complex V) are encoded by the genome of this species. The anaerobic sample from which the genome was derived was taken from serpentinized groundwater from an alkaline spring, in the Cedars, California, USA. The nomenclatural type for the species is GCA_013626165.1.

This species is the nomenclatural type for the genus Abzuiibacterium. Two unique assemblies are available for the species and range in estimated genome size between 2.4 and 2.6 Mb, with a %GC content of 45.25-45.27 %. Respiratory pathways, including genes associated with respiratory complexes I through V, are present in this species. This species is likely able to respire aerobically, as a cytochrome bd ubiquinol oxidase is encoded by genomes of this species. Predicted alternative electron acceptors include nitrite, and nitric oxide, while metal-reducing cytochromes and a conductive pilin are also encoded by genomes of this species. Additionally, a reversible acetyl-CoA synthetase is also encoded by the genomes, and may be indicative of acetate utilization by this species. A complete set of the genes for the production of a Type 4a-pilus is encoded by genomes of this species. Genomes of this species also encode the "symbiotic" F-type ATPase, an ADP/ATP translocase, and a very large ORF. The genomes originated from metagenomic samples from Crystal Geyser, Utah, USA, with samples taken at a reported temperature of 17.4 °C. The nomenclatural type of the species is the genome GCA_002787155.1.

This species is the type for the genus Pluralincolimonas. Estimate genome size for the species is 1.6 Mb, with a %GC of 51.75 %. This species encode an ADP/ATP translocase, and respiratory complexes I and V. All components investigated for the production of a Type-4a pilus is encoded by genomes of this species, as well as a cytoplasmic Group A3 [FeFe] hydrogenase. Coupled with the Group A3 [FeFe] hydrogenase, a reversible acetyl-CoA synthetase may indicate acetogenesis in this species, through the production of acetate from acetyl-CoA by the fermentation of glucose and nucleotides. Through the use of respiratory complex I, oxidized NAD+ is provided and a proton gradient across the membrane is maintained, while the respiratory F-type ATPase (complex V) produces ATP. Genome data for this species originate from a permafrost sample from Stordalen Mire, Sweden, where a pH of 4.8 was reported. The nomenclatural type for the species is the genome GCA_003141835.1.

This species is the nomenclatural type of the genus Sherwoodlollariibacterium. Estimated genome sizes for the species are 1.35-1.4 Mb, with %GC content of 41.02%. This species encodes several genes associated with acetogenesis, including an Rnf complex. A Group 4g [NiFe] hydrogenase is present in the genomes of this species, and all genes for the tight-adherence complex and for the production of a Type-4a pilus are present in the genome. The assemblies for this species is derived from metagenomes of groundwater from Crystal Geyser, near Green River, Utah. The nomenclatural type for the species is GCA_002771995.1.

This species is the type for the genus Undivivens. Estimated genome sizes range from 1.5-1.9 Mb with %GC content of 52.24-53.29%. Several genes for acetogenesis, along with an Rnf complex, and a respiratory F-type ATPase are present in the genomes of this species. A Group A3 [FeFe] hydrogenase is encoded by the species, and all genes associated with the production of a Type-4 pilus is present in the genome. Additionally, a "symbiotic" F-type ATPase is also encoded by genomes of this species. All assemblies were derived from samples of wastewater. The nomenclatural type for the species is the genome GCA_012514745.1.

This species is the nomenclatural type for the genus Aquincolibacterium. Estimated genome size of this species is 2.7 to 3 Mb. %GC content range between 52.58 to 53.08 %. Sugar and amino acid transport systems are encoded by genomes belonging to this species, and genes associated with Embden-Meyerhof glycolysis and the TCA cycle are present, although succinate dehydrogenase are absent from genomes. For respiration, a simplified system consisting of complex I, ubiquinone, and cytochrome bd ubiquinol is feasible, and would suggest a microaerophilic lifestyle. Genomes encode a cytoplasmic group A3 [FeFe] electron bifurcating hydrogenase and conductive pili, all genes analyzed for the production of a Type-4a pilus, as well as a respiratory F-type ATPase. Acetate utilization or acetogenesis may be possible as a reversible acetyl-CoA synthetase is present in this species, which, coupled with the Group A3 [FeFe] hydrogenase may produce acetate. Very large ORFs or partial homologs to very large ORFs are encoded by this species. All assemblies originated from water from the methane-rich boreal lake Lake Alinen-Mustajärvi, Finland. The nomenclatural type for the species is the genome GCA_903884815.1.

This species is the nomenclatural type of the genus Danuiimicrobium. This species can likely respire, as the genomes encode respiratory complexes I, III and V. Alternative terminal electron acceptors are predicted to be nitrate and nitric oxide, and a metal-reducing cytochrome is also encoded by genomes of this species. Cytoplasmic Group A3 [FeFe], Group 4f [NiFe] and membrane-bound Group 4g [NiFe] hydrogenases are encoded by genomes of this species. Additionally, a reversible acetyl-CoA synthetase is encoded by genomes of this species, which may indicate acetate utilization, and/or alternatively, may indicate simplified acetogenesis through the fermentation of glucose or other sugars to acetate, together with the Group A3 [FeFe] hydrogenase encoded by this species. All genes associated with the production of a Type-4a pilus are present in this species, and a "symbiotic" F-type ATPase, ADP/ATP translocase, and very large ORFs are encoded by genomes of this species. Genome assemblies for this species were recovered from soil and groundwater from Rifle, Colorado, USA, with measurements for samples being reported with an oxygen concentration of 0.29 mM and a pH of 7.28. The type for the species is the genome GCA_001804285.1.

This species is the type for the genus Ghiorseimicrobium. Predicted genome size estimates are 1.9-2 Mb with a GC content of 41.89%. Genes for acetogenesis through the Wood-Ljungdahl pathway is present in this species, along with an Rnf complex. Additionally, a respiratory F-type ATPase for ATP synthesis is also encoded by this genome. Metal-reducing cytochromes and a conductive pilin is present in this species, along with very large ORFs, some genes for the tight-adherence complex, and all genes for the production of a Type-4a pilus. The assembly for the species originate from groundwater from Crystal Geyser, Utah, USA, where the temperature at the time of sampling was reported as 17.4 °C. The nomenclatural type for the species is the genome GCA_002796125.1.

This species is the type for the genus Phelpsiimicrobium. The estimated genome size for the species is between 1.5 to 1.8 Mb, with %GC for genomes ranging between 43.80-44.08 %. Genes for acetogenic pathways, and an Rnf complex is present in the genomes of this species. Genes for respiratory complexes I and V (respiratory F-type ATPase) are also present in the genomes, and are likely involved in redox balancing and ATP synthesis. All genes associated with the tight-adherence (Tad) complex, and the production of a Type-4a pilus is present in the genomes. A "symbiotic" F-type ATPase and very large ORFs are encoded by the genomes. All assemblies assigned to this species originate from Crystal Geyser, near Green River, Utah, USA. The nomenclatural type for the species is the genome GCA_001873995.1.