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IJ acre-feet. This compares with an expected withdrawal rate of 598 acre-feet per year at full production. ' The decline in piezometric levels in bedrock zones "upper sandstone facies", "siltstone/coal ' facies", and "lower sandstone facies" was anticipated as probable impacts as the result of underground mining activities. As projected these impacts are localized and will most probably continue in the proximity of the mined area. ' As projected, subsidence in Red Wash initially resulted in water ponding in the stream bottom. ' The high content of silt and clay carried by Red Wash rapidly fills the ponds. The silt and clay layers have sealed any cracks that formed in the alluvium as the result of subsidence. Water continues to flow in the surface channel at Red Wash indicating that the basal alluvium is not ' recharged by surface flow infiltration. 3.3 Significance of Impacts to Use of Water The current rate of withdrawal of water from the lagoon in the White River alluvium is far below t that projected at full production. Based on the current level of production and the current rate of withdrawal, BME is not likely to exceed the projected withdrawal rates even at higher production levels. During this reporting period, no significant changes in piezometric levels were noted except for the "middle sandstone/coal facies" at 30-8M and 33-8M. These changes were apparently not in response to mining activity since underground development has not yet approached these ' areas. Water ponding in Red Wash as the result of subsidence over longwall panels No. 1, No. 2, No. A 3, No. 4, No. 5, 6 and No. 7 acted as stilling basins for deposition of clays and silts being carried down Red Wash. The significance of this impact is beneficial as the sediment load to the White River was reduced. The same impact is expected as a result of subsidence over subsequent longwall panels. 19