FILTERING IMPACTS OF LARVAL AND SESSILE ZEBRA MUSSELS (DREISSENA-POLYMORPHA) IN WESTERN LAKE ERIE

We assessed the feeding biology of veliger larvae of the introduced zebra mussel (Dreissena polymorpha Pallas) in laboratory experiments using inert microspheres as food analogues. Mean clearance rate on 2.87-mum beads ranged between 247 and 420 muL veliger-1 day-1. Clearance rate was unrelated to bead concentration up to 100 beads muL-1, but was positively correlated with veliger shell length. Clearance rates of Dreissena veligers are within the range of those reported for marine bivalve veligers of similar size and for herbivorous Great Lakes microzooplankton, but are orders of magnitude tower than those of settled, conspecific adults. The impact of settled zebra mussel grazing activities on phytoplankton stocks may be up to 1162 times greater than that exerted by veliger populations in western Lake Erie. Based on 1990 size-frequency distributions and associated literature-derived clearance rates, reef-associated Dreissena populations in western Lake Erie (mean depth approximately 7 m) possess a tremendous potential to filter the water column (up to 132 m3 m-2 day-1) and redirect energy from pelagic to benthic foodwebs. Preliminary analyses indicate that chlorophyll a concentration is strongly depleted (< mug L-1) above Dreissena beds in western Lake Erie.