Browsing by Subject "dissolved oxygen"
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Item Data in support of: Quantifying resilience of coldwater habitat to climate and land use change to prioritize watershed conservation(2021-08-06) Hansen, Gretchen JA; Wehrly, Kevin E; Vitense, Kelsey; Walsh, Jacob R; Jacobson, Peter C; ghansen@umn.edu; Hansen, Gretchen; University of Minnesota Department of Fisheries, Wildlife, Conservation Biology; Minnesota Department of Natural Resources; Michigan Department of Natural ResourcesData for 12,450 lakes in the Upper Midwestern United States used to predict coldwater, oxygenated habitat and how it is predicted to change under scenarios of climate and land use change. Specific fields include lake size, depth, watershed landuse, air temperature characteristics, and presence of the coldwater fish Cisco (Coregonus artedi). Also included are projected air temperatures under mid-Century conditions for each lake.Item Phosphorus Dynamics in Stormwater Ponds(2017-08) Olsen, TylerRetention ponds are designed to settle particulate phosphorus in the sediments. However, internal loading mechanisms can release bound phosphorus from sediments into the water column, leading to eutrophication conditions in the pond and downstream waterbodies. To understand these mechanisms, twentyone intact sediment and water cores were extracted from four stormwater ponds. Each mesocosm was subjected to different redox conditions and monitored over 30 days. The water column orthophosphate concentrations are used to obtain an overall sediment phosphorus release rate. Phosphorus fractions in the sediment are analyzed to better understand the role of pond sediment characteristics in phosphorus release. Redox sensitive and organic phosphorus concentrations correlated with phosphorus release from the sediments, highlighting the important influence of sediment composition in ponds. These relationships can be used to quantify phosphorus release rates in ponds by fitting regressions to oxygen consumption and sediment P fractions versus the measured phosphorus flux in the mesocosms.