Kinetic parameters for nitrate reduction in intact sediment cores were investigated by using the acetylene blockage method at five sites along the Swale-Ouse river system in northeastern England, including a highly polluted tributary, R. Wiske. The denitrification rate in sediment containing added nitrate exhibited a Michaelis-Menten-type curve. The concentration of nitrate for half-maximal activity (K_map) by denitrifying bacteria increased on passing downstream from 13.1 to 90.4 µM in the main river, but it was highest (640 µM) in the Wiske. The apparent maximal rate (V_maxap) ranged between 35.8 and 324 µmol of N m² h¹ in the Swale-Ouse (increasing upstream to downstream), but it was highest in the Wiske (1,194 µmol N m² h¹). A study of nitrous oxide (N₂O) production at the same time showed that rates ranged from below the detection limit (0.05 µmol of N₂O-N m² h¹) at the headwater site to 27 µmol of N₂O-N m² h¹ at the downstream site. In the Wiske the rate was up to 570 µmol of N₂O-N m² h¹, accounting for up to 80% of total N gas production.