Chippewa County Groundwater Study 3 rd Public outreach meeting

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1 Chippewa County Groundwater Study 3 rd Public outreach meeting

2 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

3 Groundwater in the Hydrologic Cycle Groundwater System Water Entering the System Water Exiting the System

4 An aside: the myth of sustainable yield

5 Interaction with streams is dynamic from Alley, Reilly, and Franke, USGS Circular 1186, 1999

6 Conservation of Mass Scotty s Rule Matter cannot be collapsed water is incompressible Must balance water inflow and outflow

7 Control volume over which to balance inflows and outflows. Groundwater System Water Entering the System Water Exiting the System

8 Conservation of Energy Plumber s Rule Water flows downhill Energy entering the system must either leave the system or get converted to heat through friction.

9 downhill, pressure, and Darcy s Law Henry Darcy flow is a function of: geometry (area) resistance (hydraulic conductivity) energy in/out (boundary conditions) manometer image from: Henry Darcy image from: Wikimedia commons Falling head experiment image from:

10 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

11 Started fall 2012 Study overview Project team WGNHS USGS Chippewa Co. LCFM Stakeholders group All active sand mining companies WI Farmers Union WI DNR Trout Unlimited Local farmers and citizens 5-year study effort Technical investigation and modeling Outreach and reporting through 2017

12 Study overview Frac sand mining Water used to wash sand, transport sand onsite and control dust Photo: Chippewa Co.

13 Study overview Irrigated agriculture Municipal supply

14 Why do we care? Study overview Pumping in upland areas near headwaters of streams Intensifying water-use practices Changes to landscape and implications for groundwater recharge Long-term water resource management and sustainability

15 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

16 Subsurface data collection High-capacity well Western Chippewa County Collecting a geophysical log Well casing Water table

17 Subsurface data collection Geophysical log of a 320 irrigation well High-capacity well - western Chippewa County Video log still: looking down hole Picture taken 200 below surface 4 Video log stills: looking at wall of hole

18 Hydrostratigraphic interpretation Geophysical logs were the highest quality dataset available GP logs were used to delineate hydrostratigraphic zones (or units) These zones were extrapolated across the data collection area Other data sets were used to constrain hydrostratigraphic interpretation in areas without GP logs

19 Hydrostratigraphic interpretation

20 Hydrostratigraphic interpretation Plan view showing bedrock units (unconsolidated materials not shown) Profile along A-A showing all units (unconsolidated materials are in brown)

21 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

22 Why Does Water Use Matter? Groundwater and surface water are connected

23 Water Use & Capture Capture depends on aquifer geometry and properties, and the well s pumping rate & proximity to streams (including depth) Difficult to measure due to natural variability Quantify capture using physically based models from Alley, Reilly, and Franke, USGS Circular 1186, 1999

24 Groundwater Use in Wisconsin: 2013 Withdrawals

25 Water Use Focus in Chippewa County Industrial sand mining Municipal supply Irrigated agriculture ~ feet deep (Mount Simon Sandstone) Pump: ~20 95 million gallons per year per well ~ ft deep Pump: ~88 million gallons per year ~ feet deep Pump: <10 30 million gallons per year per well (varies by well & year) Number of wells: 0 3 wells per mine Well information supplied by WiDNR Number of wells: 4 (plus other villages) Number of wells: >20 in study area, >100 in modeled area

26 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

27 Recharge happens almost everywhere

28 Stratigraphic framework Generalized cartoon of sand mining operations (1/7) Quaternary Tunnel City Wonewoc Eau Claire Mount Simon Precambrian

29 Generalized cartoon of sand mining operations (2/7)

30 Generalized cartoon of sand mining operations (3/7)

31 Generalized cartoon of sand mining operations (4/7)

32 Generalized cartoon of sand mining operations (5/7)

33 Generalized cartoon of sand mining operations (6/7)

34 Generalized cartoon of sand mining operations (7/7)

35 Recharge (R) is water that enters the groundwater system R = Precipitation Runoff Interception Evapotranspiration

36 Soil Water Balance Model Recharge = Precipitation - Evapotranspiration - Soil Storage Runoff Equation applied to each cell Daily precipitation is evaporated, stored, or recharges groundwater Recharge is limited by soil permeability and storage; any excess water runs off to next down- gradient cell Repeat until all runoff infiltrates or reaches surface water

37 SWB Model uses four maps Land surface slope: runoff direction Soil type infiltration rate available water storage Land use

38 Estimated annual average recharge, Annual precipitation Average 31 inches Min. 17 inches Max. 45 inches Annual recharge Average 8.2 inches Min. 2.5 inches Max. 14 inches About 27% of precipitation recharges groundwater

39 Estimated recharge, 1993

40 Effect of Weather

41 Effect of soil and land use Recharge (inches / year) LaGesse Mine Buchner/Robinson Mine Glaser Mine Boese Mine S&S Mine DS Mine Rogge Mine Hwy 64 Mine Emberts Mine Mine1 Mine2 Mine3

42 Infiltration 1 Forest Prairie and grasses Agriculture Reclaimed Sites Forest A1 Top Forest A2 Top Forest A2 Bottom Forest B1 Midslope Forest B2 Top Forest B3 Top2 Forest B4 Bottom Prairie 1 Top Prairie 1 Bottom Prairie 2 Bottom Grass 1 Top Grass 1 Bottom Cornfield 1 Top Cornfield 1 Bottom Soybean 1 Top Soybean 1 Bottom Alfalfa 1 Top Alfalfa 1 Bottom Alfalfa 2 Top Alfalfa 2 Bottom Reclaimed 0 Yr Prairie 1 Reclaimed 0 Yr Prairie 2 Reclaimed 1 Yr Oats 1 Reclaimed 1 Yr Oats 2 Reclaimed 2 Yr Prairie 1 Reclaimed 2 Yr Prairie 2 Reclaimed 12 Yr Prairie 1 Reclaimed 12 Yr Prairie 2 Reclaimed 20 Yr Prairie 1 Reclaimed 20 Yr Prairie 2 Reclaimed 30 Yr Prairie 1 Reclaimed 30 Yr Prairie 2 Infiltration rate (inches/hour) 1 These data are preliminary or provisional and are subject to revision. They are being provided to meet the need for timely best science. The data have not received final approval by the U.S. Geological Survey (USGS) and are provided on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from the authorized or unauthorized use of the data.

43 Today s outline Brief review of hydrogeology (USGS) Brief overview of the groundwater study (WGNHS) Subsurface data collection and hydrostratigraphy (WGNHS) Water-use data and trends (USGS) Estimating groundwater recharge (WGNHS) Groundwater model development (USGS) Question and answer session

44 mod el ˈmädl noun a simplified description, esp. a mathematical one, of a system or process, to assist calculations and predictions. ORIGIN late 16th cent. (denoting a set of plans of a building): from French modelle, from Italian modello, from an alteration of Latin modulus (see modulus ). from: New Oxford American Dictionary

45 Building a MODFLOW Model: Basics Start with a basemap Focus in on area of interest Extend out to hydrologic boundaries Add a computational grid

46 Building a MODFLOW Model: Basics Start with a basemap Focus in on area of interest Extend out to hydrologic boundaries Add a computational grid

47 Building a MODFLOW Model: Streams and Elevation Focus in on the stream network Assign streams to model cells Routing water downstream/downhill

48 Building a MODFLOW Model: Streams and Elevation Focus in on the stream network Assign streams to model cells Routing water downstream/downhill

49 Building a MODFLOW Model: Hydrostratigraphy Start with a basemap Layer 1 Focus in on area of interest Extend out to hydrologic boundaries Add a computational grid Add streams Convert hydrostratigraphy to model layers Shale Shale Layer 2 Layer 3 Layer 4

50 Model Layers 50x vertical exaggeration N 10x vertical exaggeration

51 Building a MODFLOW Model: Recharge Add groundwater recharge from the Soil-Water-Balance model Darker colors = higher recharge

52 Building a MODFLOW Model: Water Use Add groundwater wells to simulate pumping for mines, towns, and agriculture 2013 high-capacity well provided by the WI DNR; Locations refined by WGNHS

53 Building a MODFLOW Model: Initial Simulation Use estimated property values permeability recharge Simulate water levels and baseflows

54 Building a MODFLOW Model: Calibration Add stream baseflow targets Gaging stations Synoptic measurements Add water level targets

55 Calibration K R

56 Calibration

57 Chippewa County Groundwater Study 3 rd Public outreach meeting

58 Chippewa County Groundwater Study 3 rd Public outreach meeting To find out more visit the WGNHS website: Or, Chippewa County website: co.chippewa.wi.us/lcfm and click on the link Chippewa County Groundwater Study