Two separate experimental studies aimed at enhancing nitrification in
lagoon systems are described. In the first study a system of four 1:10
scale experimental ponds was used to evaluate the potential for enhan
cement of nitrification through the control of hydraulic loading rates
to lagoon systems. A relationship incorporating the parameters: hydra
ulic retention time, nitrifier growth rate, temperature, pH and chloro
phyll a concentration was established. This relationship provides a Us
eful guide to managing lagoons but further work is required to provide
a better understanding of the processes involved. In the second study
eight laboratory-scale reactors were used to evaluate the potential f
or enhancement of nitrification through the use of algal/bacterial bio
films. The study showed that these biofilms have the potential to enha
nce nitrification, particularly under more adverse conditions such as
low hydraulic retention time, high organic loading and low levels of D
.O., pH and temperature.