Butyrate- and propionate-degrading syntrophs from permanently cold marine sediments in Skan Bay, Alaska, and description of Algorimarina butyrica gen. nov., sp. nov.

Two anaerobic, psychrotolerant, syntrophic strains were enriched from permanently cold, shallow anoxic marine sediments in Skan Bay, Alaska. One strain, AK-B(T), oxidized butyrate syntrophically and was isolated in defined coculture with a H(2)-using methanogen or in a dixenic coculture that also contained an acetate-scavenging methanogen. The other enrichment culture syntrophically oxidized propionate. The growth of these syntrophic cultures was very slow: approximately 1 year for cocultures of strain AK-B(T) to form colonies and >1 year for the propionate-oxidizing enrichment to form colonies. Neither culture grew axenically when supplied with the catabolic substrates crotonate, pyruvate, malate, or sulfate plus butyrate or propionate. Strain AK-B(T) catabolized iso-butyrate in syntrophic coculture but did not catabolize valerate or caproate. Phylogenetic analyses of the 16S rRNA gene sequence suggested that strain AK-B(T) was only distantly related to cultivated sulfate-reducing bacteria, and that this strain represented a new genus. We propose Algorimarina butyrica, with strain AK-B(T) (=OCM 842(T)), as the type strain. This report is the first description of psychrotolerant as well as marine butyrate--and propionate-oxidizing syntrophic organisms.