Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use...
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![Page 1: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/1.jpg)
Limno-Tech, Inc., Ann Arbor, Michigan,
Excellence in Environmental Solutions Since 1975
Land-Use Modelfor
Lake Bellaire, Clam Lake, and Torch Lake Watersheds
built by
for
Three Lakes Associationas part of a
2006 M-DEQ Grant
Clean Michigan Initiative
![Page 2: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/2.jpg)
Land-Use ModelLake Bellaire, Clam Lake, and Torch Lake Watersheds
January 15, 2007
• Purpose: To estimate changes in phosphorus loadings based as land uses propose to change…
• Population expected to double in the next 25 years
• Phosphorus loadings, key input to new water quality models
![Page 3: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/3.jpg)
Watershed modeling overview
Watershed
Model
Watershed DelineationPhosphorus loading rates by land useGroundwater loads
Inputs
Outputs
Annualphosphorus Loads, kg/yr
Land UseSeptic loads
Other non-point sources
![Page 4: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/4.jpg)
Land Use Model
Lake Model
PhosphorusLevel
WaterClarity
UseChanges
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Study area land cover
Land cover Percent
Forest 60
Grassland/ herbaceous
17
Wetlands/ water
12
Cropland 11
Developed lands
<0.5
Urban/ recreational grasses
<0.5
![Page 6: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/6.jpg)
Watershed Sizes(land only)
Lake Bellaire (land area only) 29,471 acres
Clam Lake (land area only) 17,902 acres
Three Lakes (Bellaire, Clam, Torch) 29,184 acres
76,557 acres
Elk River Chain of Lakes (500 sq. miles) 330,000 acres
![Page 7: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/7.jpg)
Study areas
and
Sampling locations
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Phosphorus Loading Coefficients Land Use Phosphorus
(kg/acre-yr)
• High Density Development 0.283 About 5.6 dwellings per acre
• Low Density Development 0.223 One house per acre
• Golf Course 0.186• Cropland 0.061• Pasture 0.053
• Forest 0.045
![Page 9: Limno-Tech, Inc., Ann Arbor, Michigan, Excellence in Environmental Solutions Since 1975 Land-Use Model for Lake Bellaire, Clam Lake, and Torch Lake Watersheds.](https://reader038.fdocuments.us/reader038/viewer/2022110115/5513b8a855034653298b45c3/html5/thumbnails/9.jpg)
Phosphorus Monitoring Subwatersheds
Lake Bellaire Phosphorus Loads, 2006• Intermediate River below Intermediate Lake 372 kg P/yr • Cedar River, at Burrel Road 1,116• Intermediate River, at Bellaire Highway Bridge 571• Lower Intermediate River, at entrance to Lake Bellaire 176• Butler Creek 186• Maury Creek 32• Lake Bellaire shoreline (estimated) 426 Total 2,508
Clam Lake• Upper Grass River, at Knapp dock• Shanty Creek 101• Cold Creek 497• Finch Creek 267• Lower Grass River, at Grass River Nat’l Area dock 160• Dewey Creek 67• Clam Lake shoreline (estimated) 282
Total 1,374
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Applications of Land-Use Model Forecast Phosphorus Loadings25-Year Growth, 2006 to 2031
(population doubling)
Scenario #1: Schuss Mtn-Shanty Creek Area 12 square miles (7,680 acres) 6.5% forest to High Density Housing 6.5% forest to Low Density Housing
All new dwellings sewered, 80% P removal +298 kgAll new dwellings septic systems: +741 kg
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Schuss Mtn. - Shanty Ck. Scenario
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Demo of Land Use Model
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Land Use Model
Lake ModelPhosphorus
Level
WaterClarity
UseChanges
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Best Management Practices (BMP)Techniques to reduce phosphorus run-off
• Retention & Detention Basins
• Infiltration Trenches
• Landscaped Swales
• Stormwater & Natural Wetlands
• Buffer Strips
Properly designed and installed BMP can
reduce phosphorus loading up to 50%
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Local Units of Government Possible Phosphorus-related Actions
• Master Plans: specific language on water quality
• Require phosphorus estimates in major site plans
• Require septic inspections on sale of property
• Require action on exceeding phosphorus levels
• Establish overlay ordinances, permit requirements• Establish multi-jurisdictional districts, P.A. 264
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Local Units of Government (continued) Possible Phosphorus-related Actions
• Inventory township’s property, BMP needs (BMP = Best Management Practices to reduce phosphorus run off)
Re-enforce bridge abutment erosion
Detention of run off from parks
Stream shoreline erosion controls
• Other actions to reduce phosphorus Restrict phosphorus in lawn and agricultural fertilizers
Restrict use of phosphorus dish detergents Restrict septage use on farmland