Axler, Richard PLarsen, ChristenTikkanen, Craig AMcDonald, Michael EHost, George E2015-02-272017-04-142015-02-272017-04-141992https://hdl.handle.net/11299/187216This study addresses water quality issues associated with current and future uses of mine pit lakes for intensive aquaculture. In current net pen aquaculture operations (Minnesota Aquafarms, Inc.), metabolic wastes and uneaten food are dispersed into the lakewater. Intensive aquaculture at Twin City-South and Sherman increased levels of phosphorus (P) and nitrogen (N) and reduced dissolved oxygen (DO) in the water column, and increased the deposition of organic matter to the bottom relative to their previous conditions and to unused mine pit lakes. Numerous trophic status indices suggest that TC-S and Sherman have shifted (or are shifting) from an oligotrophic state to a more eutrophic one. However, due to MAPs intensive aeration, and circulation, conditions necessary for algal blooms (typical of eutrophication) have been infrequent, due to light limitation from vertical mixing. Blooms of scum-forming bluegreen algae have never been observed.enLimnologyLimnological assessmentMine pit lakesAquacultureMinnesota Aquafarms, IncChisolm, M.N.Fraser pit lakeTwin City-South pit lakeEutrophicationGroundwaterDrinking waterFish bioenergeticsWater qualityNatural Resources Research InstituteUniversity of Minnesota DuluthLimnological Assessment of Mine Pit Lakes for Aquaculture UseNatural Resources Research Institute Technical ReportTechnical Report