Interaction between homoacetogens and methanogens in lake sediments

Abstract The interaction between homoacetogens and methanogens in lake sediments was investigated using hydrogen consumption as an indicator. Sediments samples were obtained from Lake Izunuma, Miyagi prefecture, Japan, a wintering place for migratory birds from Siberia. A batch experiment using H 2 CO 2 as a substrate was conducted to determine the acetate generation and methane production potential of the sediments. Incubation for 4 d at 37°C gave the following stoichiometric equation: 88H2 + 39HCO3− + 22H+ → 17CH3COO− + 5CH4 + 83H2O. The activities, νm, of hydrogen-utilizing homoacetogens and methanogens respectively ranged from 3.2 to 48 and from 1.8 to 3.2 mgCOD·gVSS−1·h−1. The population of hydrogen-utilizing homoacetogens was determined to be 2.6 × 108 MPN·gVSS−1, which was approximately two orders of magnitude higher than that of hydrogen-utilizing methanogens. The results suggest that homoacetogens in the sediments functioned not only as hydrogen consumers but also as major degraders of organic matter, forming acetate as the major reduction product.

[1]  L. Ljungdahl The autotrophic pathway of acetate synthesis in acetogenic bacteria. , 1986, Annual review of microbiology.

[2]  T. Miller,et al.  A serum bottle modification of the Hungate technique for cultivating obligate anaerobes. , 1974, Applied microbiology.

[3]  J M Tiedje,et al.  General method for determining anaerobic biodegradation potential , 1984, Applied and environmental microbiology.

[4]  J. Jones,et al.  Interaction of acetogens and methanogens in anaerobic freshwater sediments , 1985, Applied and environmental microbiology.

[5]  A. E. Greenberg,et al.  Standard methods for the examination of water and wastewater : supplement to the sixteenth edition , 1988 .

[6]  C. Woese,et al.  Methanogens: reevaluation of a unique biological group , 1979, Microbiological reviews.

[7]  R. E. Hungate,et al.  Hydrogen utilization by clostridia in sewage sludge , 1977, Applied and environmental microbiology.

[8]  B. Schink Diversity, Ecology, and Isolation of Acetogenic Bacteria , 1994 .

[9]  J. Lay,et al.  Methane release rate and methanogenic bacterial populations in lake sediments , 1996 .

[10]  J. Zeikus,et al.  Influence of pH on Terminal Carbon Metabolism in Anoxic Sediments from a Mildly Acidic Lake , 1984, Applied and environmental microbiology.

[11]  P. Mccarty,et al.  Bioassay for monitoring biochemical methane potential and anaerobic toxicity , 1979 .

[12]  W. Halwachs KM and Vmax from only one experiment , 1978 .

[13]  H. Drake Acetogenesis, Acetogenic Bacteria, and the Acetyl-CoA “Wood/Ljungdahl” Pathway: Past and Current Perspectives , 1994 .

[14]  M. P. Bryant,et al.  Acetogenesis and the Rumen: Syntrophic Relationships , 1994 .

[15]  J. Breznak,et al.  Acetate Synthesis from H2 plus CO2 by Termite Gut Microbes , 1986, Applied and environmental microbiology.

[16]  M. P. Bryant,et al.  Metabolic Activity of Fatty Acid-Oxidizing Bacteria and the Contribution of Acetate, Propionate, Butyrate, and CO2 to Methanogenesis in Cattle Waste at 40 and 60°C , 1981, Applied and environmental microbiology.