Anaerobic digestion of pectin by bacteria was examined in two freshwater lakes in Wisconsin and in defined laboratory cultures of species prevalent in the lake sediment. The turnover times for pectin biodegradation to methane in sediments incubated at in situ temperature were much longer (100 h in Lake Mendota and 185 h in Knaack Lake) than either that observed for glucose (12 h in Lake Mendota) or previously reported for acetate (0.22 h in Lake Mendota). The numbers of pectinolytic anaerobes varied seasonally in both sediments (102-105 and 103-105 ml-' in Knaack Lake and Lake Mendota, respectively), and were highest during the fall after sedimentation of algal blooms and/or leaf detritus. Clostridium butyricum was identified as a prevalent pectinolytic anaerobe in both lakes. In mono-culture pectin fermentations, C. butyricum produced methanol, H2/C02, acetate, ethanol and butyrate; growth stopped in the presence of excess energy source when the pH fell to 4.3. In co-culture pectin fermentations of C. butyricumlMethanosarcina barkeri, H,/CO,, methanol and acetate were detected as intermediary metabolites, and pectin was completely degraded to CH, and CO,, the pH remaining neutral. 14C-radiotracer analysis substantiated the simultaneous conversion of H,/CO,, methanol and acetate to CH, by M. barkeri as these metabolites were generated from pectin hydrolysis by C. butyricum.