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2009-07-23_AgendaPacket
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2009-07-23_AgendaPacket
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4/16/2010 3:56:32 PM
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Commission/Committee
Commission/Authority Name
Grass Lake WMO
Commission/Committee - Document Type
Agenda/Packet
Commission/Committee - Meeting Date
7/23/2009
Commission/Committee - Meeting Type
Regular
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fsRASS LAKE WATER MANAGEMENT ORGANIZATION -APRIL 239 2009 <br />® In-Lake Water Quality - 2007 and 2008 <br />® Watershed Pond Discharge Survey - 2008 <br />Westerberg noted that iron content is a critical component. If iron is found, <br />phosphorous is easily released from sediments.. <br />In 2007, the monitoring sites were Galtier Street, West Owasso Boulevard for the <br />north end, and County Road C for the southern portion of the watershed. In 2008, <br />a monitoring site was done at Dale Street rather than Galtier Street to find out if <br />there is any impact from the compost site. Calibrations for the lake level were <br />from December 2007 through December 2008. Outcomes include ice off the lake. <br />Flux models were used in conjunction with the P8 model to estimate internal <br />phosphorous loading. The flux model shows a significantly higher load because <br />the base flow samples showed significantly higher phosphorous concentrations. <br />The difference is due to internal loading sources within the wetland complex. <br />Sources contributing to the phosphorous concentrations found at County Road C <br />at the southern basin of the lake were tracked. External sources are from <br />watershed runoff, atmospheric deposition and ground water. lnterna] sources are <br />curly leaf pondweed, phosphorous release from sediments and rough fish (carp). <br />The internal load in the northern part of the lake is relatively small. Curly leaf <br />pondweed is dominant representing approximately 50%. Watershed runoff is <br />about 18%. Under wet conditions, the watershed runoff is the dominant source. <br />Potential sources that need additional investigation include carp activity, sediment <br />release, wind mixing, and other biological activity. <br />A four-year plan is recommended for curly leaf pondweed management. It could <br />be MDNR treatment, which would require a permit, variance and permission of <br />the homeowners. It could also be an herbicide treatment targeting curly leaf <br />pondweed. There are 12 untreated discharges under public jurisdiction into Lake <br />Owasso. Optimal treatment would be a water quality pond sized to NURP <br />standards, but this is not feasible due to the lack. of space. <br />Kelsey asked how many years it takes for curly leaf pondweed to impact <br />phosphorous content. Aichinger stated that one year does not carry over to the <br />next year. Sobiech recommended afour-year plan of treatment with follow-up <br />spot treatments to decrease the phosphorous concentrations and improve water <br />clarity significantly. Also, infiltrating 50% of runoff from all impervious surfaces <br />of the South and east drainage districts would cut phosphorous concentrations. <br />Alum treatment would prevent phosphorous from being released from sediments. <br />Westerberg noted that an iron mesh filter is being used. at the University of <br />
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