Register list for 8 new names including Sulfomarinibacter kjeldsenii sp. nov.

Submitted by Loy, Alexander

Family Sulfomarinibacteraceae

Etymology: N.L. masc. n. Sulfomarinibacter, referring to the type genus Sulfomarinibacter; L. fem. pl. suff. -aceae, ending to denote a family; N.L. fem. pl. n. Sulfomarinibacteraceae, the Sulfomarinibacter family
Nomenclatural type: Genus Sulfomarinibacter
Description: Acidobacteriota GTDB family FEB-10
Classification: Bacteria » Acidobacteriota » Thermoanaerobaculia » Thermoanaerobaculales » Sulfomarinibacteraceae
References: Effective publication: Flieder et al., 2021 [1]
Registry URL: https://seqco.de/i:23538

Genus Sulfomarinibacter

Etymology: [Sul.fo.ma.ri.ni.bac'ter.] L. neut. n. sulfur, sulfur; L. masc. adj. marinus, marine; N.L. masc. n. bacter, rod; N.L. masc. n. Sulfomarinibacter, a sulfur-metabolizing marine rod
Nomenclatural type: Species Sulfomarinibacter kjeldsenii^Ts
Description: Designation of the type MAG | AM3-C
MAG accession number | JACXWC000000000
Genome status1 | Draft
Estimated genome size | 4.3 Mbp
GC mol% | 60,9
Country of origin | Norway
Region of origin | Svalbard
Source of sample | Marine sediment
Sampling date | July, 2016
Geographic location | Smeerenburgfjorden
Latitude | 79° 42.83N
Longitude | 11° 05.10E
Water depth | 211 m
Sediment depth | 5-15 cm
Sample temperature | − 1.7°C and + 1 to + 3°C,
Putative energy metabolism | Predicted ability to use cellulose, protein, cyanophycin, hydrogen and acetate. Possible ability to respire nitrous oxide, metal-oxides, tetrathionate, sulfur and sulfite/sulfate, or sulfur disproportionation.
Putative relation to oxygen | Anaerobe
Cell shape | Thin rods, ~2 x 0.5 microns, visualized by CARD-FISH.
Classification: Bacteria » Acidobacteriota » Thermoanaerobaculia » Thermoanaerobaculales » Sulfomarinibacteraceae » Sulfomarinibacter
References: Effective publication: Flieder et al., 2021 [1]
Registry URL: https://seqco.de/i:23537

Species Sulfomarinibacter kjeldsenii^Ts

Etymology: [kjeld.se'ni.i.] N.L. gen. n. kjeldsenii, named after Kasper Urup Kjeldsen
Nomenclatural type: NCBI Assembly: GCA_014764525.1 ^Ts
Description: MAG accession number | JACXWC000000000
Genome status1 | Draft
Estimated genome size | 4.3 Mbp
GC mol% | 60,9
Country of origin | Norway
Region of origin | Svalbard
Source of sample | Marine sediment
Sampling date | July, 2016
Geographic location | Smeerenburgfjorden
Latitude | 79° 42.83N
Longitude | 11° 05.10E
Water depth | 211 m
Sediment depth | 5-15 cm
Sample temperature | − 1.7°C and + 1 to + 3°C,
Putative energy metabolism | Predicted ability to use cellulose, protein, cyanophycin, hydrogen and acetate. Possible ability to respire nitrous oxide, metal-oxides, tetrathionate, sulfur and sulfite/sulfate, or sulfur disproportionation.
Putative relation to oxygen | Anaerobe
Cell shape | Thin rods, ~2 x 0.5 microns, visualized by CARD-FISH.
Classification: Bacteria » Acidobacteriota » Thermoanaerobaculia » Thermoanaerobaculales » Sulfomarinibacteraceae » Sulfomarinibacter » Sulfomarinibacter kjeldsenii^Ts
References: Effective publication: Flieder et al., 2021 [1]
Registry URL: https://seqco.de/i:23536

References

Flieder et al. (2021). Novel taxa of Acidobacteriota implicated in seafloor sulfur cycling. The ISME Journal. DOI:10.1038/s41396-021-00992-0

Register List Certificate of Validation

On behalf of the Committee on the Systematics of Prokaryotes Described from Sequence Data (SeqCode Committee), we hereby certify that the Register List seqco.de/r:y7dk2-qc submitted by Loy, Alexander and including 3 new names has been successfully validated.

Date of Priority: 2024-01-11 05:23 UTC

DOI: 10.57973/seqcode.r:y7dk2-qc