AWWA WQTC64073

Since its first description by Ferdinand Cohn 136 years ago, C. polyspora has been known formass developments in drinking water systems and affecting the drinking water quality. SinceC. polyspora has never been cultured, its phylogenetic affiliation and physiological propertiesremained a secret until molecular methods revealed it to be a gammaproteobacterial methaneoxidizer with a phylogenetically very unusual particulate methane monooxygenase (Stoeckeret al, 2006). The results from molecular studies were supported by physiological experimentsconducted with physically enriched biomass of C. polyspora from a drinking water treatmentplant. The C. polyspora enrichment oxidized methane with concomitant decrease of oxygenand an increase of carbon dioxide. The methane oxidation rate at the temperature optimum of20ºC followed a Michaelis Menten kinetic with a V_max of 1,548¿¿¿¿29 µmol CH₄ h^-1 [g_{dw biomass}]^-1and a K_m of 3,901¿¿¿¿348 ppmv of methane. Thus, C. polyspora can be considered a low-affinitymethane oxidizing bacterium. Includes 11 references.

Product Details

Edition:

Vol. - No.

Published:

11/01/2006

Number of Pages:

5

File Size:

1 file , 480 KB