Exif II* d 1 2 i : Picasa 0220 [ 1 2 ; - i Measuring water infiltration rate in your orchard. Use a metal ring (can be made from coffee can or pipe) that is 6 inches in diameter; then drive the ring into the soil about 3 inches deep using a sledge hammer and wooden block. Gently press along the inside of the ring to ensure the soil is in direct contact with the side of the ring. Next, place a piece of plastic wrap, large enough to cover the soil surface inside the ring. Add 16 ounces of water (equivalent to 1 inch of water in 6 inch diameter ring) on top of the plastic wrap. Remove plastic wrap and start your stopwatch. Record the time it takes for one inch of water to infiltrate into the soil. An infiltration rate of 1 to 2 inches per hour is considered ideal. USDA National Resources Conservation Service 0220 [ >http://ns.adobe.com/xap/1.0/ USDA National Resources Conservation Service Measuring water infiltration rate in your orchard. Use a metal ring (can be made from coffee can or pipe) that is 6 inches in diameter; then drive the ring into the soil about 3 inches deep using a sledge hammer and wooden block. Gently press along the inside of the ring to ensure the soil is in direct contact with the side of the ring. Next, place a piece of plastic wrap, large enough to cover the soil surface inside the ring. Add 16 ounces of water (equivalent to 1 inch of water in 6 inch diameter ring) on top of the plastic wrap. Remove plastic wrap and start your stopwatch. Record the time it takes for one inch of water to infiltrate into the soil. An infiltration rate of 1 to 2 inches per hour is considered ideal. ~Photoshop 3.0 8BIM EZ %G P USDA National Resources Conservai .Infiltration ring, test soil infiltration ratexMeasuring water infiltration rate in your orchard. Use a metal ring (can be made from coffee can or pipe) that is 6 inches in diameter; then drive the ring into the soil about 3 inches deep using a sledge hammer and wooden block. Gently press along the inside of the ring to ensure the soil is in direct contact with the side of the ring. Next, place a piece of plastic wrap, large enough to cover the soil surface inside the ring. Add 16 ounces of water (equivalent to 1 inch of water in 6 inch diameter ring) on top of the plastic wrap. Remove plastic wrap and start your stopwatch. Record the time it takes for one inch of water to infiltrate into the soil. An infiltration rate of 1 to 2 inches per hour is considered ideal. 8BIM% _<·n:\ Adobe d [
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