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SITUATION ANALYSIS <br />LAKE OWASSO <br />The Basin <br />Lake Owasso has a surface area of 383 acres. The lake's maximum depth is 36 feet, however much of the lake is <br />shallow. hi fact 76% is less than IS feet deep which means that Lake Owasso is shallow by metro norms. <br />The Watershed <br />Lake Owasso receives surface nuioff from a tributary area of 3,491 acres (about 9 times the lake's surface area). <br />Drainage to Lake Owasso carries phosphorus, which has been estimated' to be 829 pounds per year. Runoff also <br />carries other kinds of pollution, like sediment, salt or toxic chemicals, but no measurements or estimates have been <br />made to quantify other kinds of pollution in the runoff to Lake Owasso. Except for localized erosion concerns, there <br />is no evidence that other kinds of pollution in runoff are causing problems in Lake Owasso. <br />Water Level <br />Water level fluctuations occur in Lake Owasso. Ramsey County pumped groundwater into the lake for many years, <br />but that operation has been suspended -the last year pumping occurred was 199E The pumping mitigated low <br />water levels during the summer. Because there has been `wet' weather since the pumps were discontinued, there <br />have been minimal problems with low water levels in Lake Owasso, It is likely that low water levels will occur at <br />times in the future. <br />Water Quality <br />Eutrophication is a process by which lakes become enriched with nutrients -usually phosphorus -that cause an <br />increase in the amount of algae in the lakes. Eutrophication is often a concern because the manifestations of over- <br />fertilization are perceived as nuisances. In the extreme, highly eutrophic lakes are plagued by persistent algae <br />blooms, which diminish the recreational use and environmental value of the lake. <br />There are several indicators that are commonly used to track eutrophication and its manifestations: <br />Indicator Significance <br />Nutrients Phosphorus is considered the limiting nutrient in most lakes. This means that it is the <br />element in shortest supply relative to the growth needs of algae. Phosphorus is measured <br />from lake water collected in the middle of the Lake. Sometimes nitrogen can also limit algae <br />growth. <br />Algae Algae are microscopic plants that float in lakes. Algae become nuisances when they become <br />abundant. A particular kind of algae -blue-green algae - are a particular nuisance because <br />they form scums. All algae become more abundant as the level of nutrients in the water <br />increases. The level of algae is determined by measuring chlorophyll - a green pigment - in <br />lake water. <br />Clarity The transparency of lake water is readily observed by everyone. As the level of algae increases, <br />the water clarity decreases. Clarity is measured using a Secchi disk, which is a 8-inch white <br />or black-and-white disk lowered over the side of a boat until it disappears. <br />Normally, as phosphorus levels increase, so does: <br />^ The abundance of algae and the frequency of algae blooms <br />^ The predominance of blue-green (or scum-forming) algae <br />^ A reduction in water clarity <br />