Date of Award
Master of Applied Science (MASc)
Environmental Applied Science and Management
Many factors may contribute to cyanobacterial bloom formation. This study examined possible relationships between the presence of zebra mussels (Dreissena polymorpha) and Microcystis spp. abundance. Experiments were conducted in twelve microcosms designed to mimic shallow lake ecosystems. Zebra mussels significantly reduced nitrate, dissolved organic nitrogen, and total dissolved nitrogen concentrations, and had no effect on ammonia, phosphate levels, or dissolved organic carbon. Consequently, the N:P ratio was reduced in microcosms with zebra mussels to 6:1, which is below the Redfield ration of 16:1. Zebra mussels also increased the abundance of Microcystis and Microcystis: Pseudokirchneriella biovolume. In experiments done without zebra mussels, nutrient ratios were manipulated and low N:P caused a similar increase in Microcystis and Microcystis: Pseudokirchneriella biovolume. The shift in N:P in the presence of zebra mussels were related to higher rates of nitrate flux into sediments and reduced flux of phosphate into sediments. It is this shift in N:P, and possibly some level of selective feeding, that is believed to have driven changes in the relative abundance of Microcystis. Finally, in order to compare the experimental results with changes caused by zebra mussel invasion in the natural environment, the data from 15 Wisconsin lakes before and after the zebra mussel invasions were analysed.
Bykova, Olga, "Do zebra mussels (dreissena polymorpha) alter the water chemistry in a way that favours Microcystis" (2006). Theses and dissertations. Paper 439.