In view of the treatment of agricultural waste waters, urea polluted, a catalytic and hydrophobic membrane was constructed by immobilizing urease on a nylon sheet grafted with cyclohexyl methacrylate (CHMA). Hexamethylenediamine (HMDA) and glutaraldehyde (GA) were used as spacer and crosslinking agent, respectively.With reference to the soluble counterpart immobilized urease was found to exhibit (i) a shift of the optimum pH towards more acidic values; (ii) a shift of the optimum temperature towards higher temperatures; (iii) higher values of K-m. The latter result indicated an apparent loss of affinity of immobilized urease towards urea.To recovery this affinity loss, the catalytic membranes were employed in a bioreactor operating under non-isothermal conditions. Under these conditions the catalytic membranes exhibited reaction rates higher and apparent K-m smaller than those measured under comparable isothermal conditions. As a consequence, percentage increases of enzyme activity and reduction of the production times, proportional to the magnitude of the applied temperature difference were observed.Results have been discussed in the frame of reference of the process of thermodialysis. The technology of the non-isothermal bioreactors confirmed its usefulness also in the reduction of urea concentration in aqueous solutions. (C) 2003 Elsevier B.V. All rights reserved.