The kinetics of the degradation of chloroform and benzene in anaerobic sediment from the River Rhine

In anaerobic methanogenic sediment microcosms¹⁴C labelled chloroform was degraded mainly to carbon dioxide. At a concentration of 4 g.l^–1 the mineralization followed first order kinetics with a half life of 12 days at 10°C and 2.6 days at 20°C. At a concentration of 400 g.l^–1 the mineralization rate increased with time and followed logarithmic kinetics with a _max of 0.02.d^–1 at 10°C. The logarithmic kinetics can be explained by growth of the bacteria on the higher concentration of chloroform with a generation time of 35 days. Shaking and oxygenation did not inhibit the mineralization of chloroform, probably because of bacterial consumption of the dissolved oxygen.¹⁴C labelled benzene was mineralized only for a small percentage to¹⁴C labelled carbon dioxide while other, not acid extractable, degradation products were formed. Under anaerobic conditions after one day when 5% of the benzene was degraded to carbon dioxide, the mineralization ceased, while the disappearance of benzene proceeded. With air in the headspace of the incubation bottles 25% of the benzene was mineralized to carbon dioxide. The anaerobic degradation of benzene at a concentration of 100 .l^–1 showed similar kinetics as the degradation at 1 g.l^–1. Hence no adaptation of the microflora in the sediment occurred during the 63 days of the experiment at 100 g.l^–1.