2. Soil Texture Size or combination of sizes of the soil particles Influences how much water soaks into the soil versus how much runs off the surface and the ability of a soil to hold water. Generally, soils consist of varying percentages of clay, silt, and sand, and names such as sandy loam, silty clay, and clay loam.

3. Soil Infiltration and Transmission Rates The infiltration rate is the rate at which water enters the soil at the surface and is controlled by surface conditions. The transmission (percolation) rate is the rate at which the water moves through the soil and is controlled by the soil layers. Soil scientists have assigned all soils to one of four hydrologic groups based on infiltration and transmission rates

4. Hydrologic Soil Groups Group A Group B Group C Group D

6. Source: USGS – Basic Ground-Water Hydrology - Heath

8. Available Soil Water Soil absorbs and holds water in much the same way as a sponge. A given texture and volume of soil will hold a given amount of moisture. The intake rate of the soil will influence the rate at which water can be applied. The ability of soil to hold moisture, and amount of moisture it can hold, will greatly affect the irrigation operational schedule

9. Soil moisture Hygroscopic water is moisture that is held too tightly in the soil to be used by plants. Capillary water is moisture that is held in the pore spaces of the soil and can be used by plants. Gravitational water drains rapidly from the soil and is not readily available to be used by plants.

10. Soil moisture The permanent wilting point represents the boundary between capillary water and hygroscopic water. Because hygroscopic water is not usable by plants, continuous soil moisture levels below the permanent wilting point will result in the damage or death of the plants. Field capacity represents the boundary between gravitational water and capillary water. It is the upper limit for soil moisture that is usable by plants.

15. Available Water Soil TextureRangeAverage in./in. Very coarse-textured sands and fine sands0.04-0.08 0.06 Coarse-textured loamy sands and loamy fine sands0.06-0.10 0.08 Moderately coarse-textured sandy loams and fine sandy loams0.10-0.15 0.13 Medium textured very fine sandy loams, loam and silt loams0.13-0.19 0.16 Moderately fine-textured sandy clay loams, clay loams, and silty clay loams0.15-0.21 0.18 Fine-textured sandy clays, silty clays, and clay0.13-0.21 0.17 Reference: USDA, NRCS, Engineering Field Manual Available for each soil group by soil horizon from NRCS Soil Surveys

17. Source: NRCS

18. County Soil Surveys http://www.mi.nrcs.usda.gov/

20. Water needs Soil AW (SAW) - inches/foot or inches/inch = Field Capacity (FC) – Wilting Point (WP) For specific plant (PAW) (in) = (soil AW) X Rooting Depth Readily available water (RAW)= plant AW X Allowable Depletion (use 50 % if not provided)

21. Map Interpretation U.S. Geological Survey (USGS) Topographic Maps www.topozone.com The scale represents units on the map to units on the land surface. For example, a scale of 1:24,000 means that one inch on the map represents 24,000 inches (2000 ft) along the land surface. U.S. Geological Survey (USGS) Topographic Maps www.topozone.com The scale represents units on the map to units on the land surface. For example, a scale of 1:24,000 means that one inch on the map represents 24,000 inches (2000 ft) along the land surface.

23. Depression Hill Valley

24. Watershed Delineation A watershed is defined as the area of land that drains to a given point. Precipitation falling within the watershed will evaporate, infiltrate into the soil, or run off. The first step in defining the watershed boundary is to locate the design point and identify the streams, valleys, and hills, which slope toward that point.

25. Watershed Delineation Water will flow downhill, perpendicular to the contour lines. The next step is to delineate the contributing drainage area by identifying the high elevation points with a line that starts and ends at the design point

27. Aerial Photography Aerial photographs are available on web sites for the entire state. Photographs can be accessed via the internet at: www.michigan.gov/dnr, search on “Aerial Imagery Archives” or purchased from the MDNR by calling 517-373-9123.

28. Distance Horizontal distance (l) is the straight line distance measured on a horizontal plane. Measured by pacing, wheels, tapes or by electronic distance measuring equipment. Vertical distance (h) is the measurement of the difference in height or elevation. Measured by altimeter, transit, plumb line and tape, or differential leveling.

29. Slope Ratio is an expression of a constant change between vertical and horizontal distances. Percent of slope - determined by dividing the change in elevation by horizontal ground distance and multiplying by 100. Degree of slope is an expression of angular measurement equal to the central angle of the circumference of a circle.