In February 2000 the Swan-Canning estuary in Western Australia experienced
a record bloom of the toxic cyanobacteria Microcystis aeruginosa. At its he
ight, concentrations of M. aeruginosa reached integrated water column cell
counts of 15,0001ml and formed bright green scums in sheltered bays, where
counts of 130 million cells/ml were recorded. Due to public health concerns
parts of the river were closed from 10 to 22 February 2000. Two unseasonab
ly large summer rain events in early and late January 2000 created conditio
ns for the bloom. Freshwater runoff, estimated at 270 GL, was enough to fil
l the Swan-Canning estuary five times over and brought with it high levels
of nutrients, mainly nitrogen (>2.0mg/L TN) and phosphorus (>0.15mg/L TP).
A number of methods to reduce bloom accumulations were tried, including an
attempt to increase the salinity of the surface water above the critical 10
ppt level for Microcystis; using a bentonite clay and poly-aluminium chlor
ide mixture to flocculate and sink the algae; and sucking up scums using oi
l spill equipment. Over 900 tonnes of M. aeruginosa were removed and safely
disposed using sewage treatment facilities. The bloom collapsed when the f
reshwater flush subsided and seawater intrusion from the Indian Ocean re-es
tablished itself, raising the-salinities above the tolerance of Microcystis
.