Field assessment of effects of timing and frequency of copper pulses on settlement of sessile marine invertebrates

Abstract

 CuSO₄-treated plaster blocks were used to create localised concentrations of copper significantly above ambient levels. Between October 1996 and March 1997 we used this system to manipulate the timing and frequency of transient copper-pollution events close to settlement plates. We assessed the impacts on the development of assemblages of sessile marine invertebrates that occur on hard substrates at Breakwater Pier in Williamstown, Victoria, Australia. Barnacle densities were reduced by up to one-third, while serpulid polychaetes were insensitive. Assemblages at different stages of development were differentially sensitive to short-term pulses. Reductions in sponge and scyphozoan polyp densities were greatest (50%) when pulse-pollution events occurred at times of high settlement. If a pulse copper-pollution event occurred in the first week of substrate becoming available for colonisation, then it had few observable impacts on recruitment for all invertebrates examined. When the first pulse occurred in the first week of the experiment there was no difference between the impacts of single or double-pulse exposures to the toxicant.