DISCUSSION The majority of the thou

DISCUSSION The majority of the thousands of cells of E. acus seen during the examination
of sewage treatment ponds differed from published accounts only in that they were slightly broader and invariably rigid. The greater width would seem to be due to the abundance of paramylon reserves, presumably brought about by the enriched environment. The rigid nature of the pellicle could have been related to the relatively high pH in that E. acus and other euglenoids became highly metabolic when a few drops of sulphuric acid were added to a sample. Although
this may have been a response to irritation, there are reports of rapid and extreme euglenoid movement in specimens from water containing rotting vegetation (Gojdics, 1953, p. 99) where a lower pH could be expected.
Cells with ovoid paramylon grains were present mainly in populations that were showing a slight decline during the early spring when water temperatures had started to rise and other algae were increasing in numbers. The ovoid form is thought to have represented a stage in the build-up of the typical paramylon grains because of the close association with the plastids and the absence of any cells with this form of paramylon when the sample was examined the following day.
The correlation between the abundance of E. acus and the free ammonia concentration is expected since this is a freely available source of nitrogen to euglenoids (Leedale, 1967, p. 201). However, E. acus does not seem to be able to compete with some other large-celled Euglena spp. as shown by the dramatic drop in numbers in the Papakura sludge lagoons when E. sanguinea became numerous and by its absence from the Manurewa oxidation pond where E.
polymorpha was generally abundant. The absence of E. acus from the Mangere sludge lagoons during some periods when ammonia concentrations were high can be related to the very dense growths of small species of Chlorococcales which caused abnormally high turbidity.
Since E. acus was not abundant in ponds treating settled sewage, or effluents from conventional treatment works, it is assumed to have only a minor role in these ponds. However, where sludge, and in particular anaerobic sludge from digestion tanks, is transferred to holding lagoons, this flagellate plays an impor- tant part in maintaining an oxygenated layer of water above the sludge and thus precluding any odour nuisance.