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Exhibit G CMLRB 112 Permit Application <br />Agile Stone Systems. Inc. <br />• Given the presence of sulfates and organic carbons in shaley and limey bedrock, aquifers <br />such as the Carlisle or Greenhorn formations, plus the natural occurrence of sulfate- <br />reducing bacteria, hydrogen sulfide (gas having a rotten egg odor) can be naturally <br />formed in these aquifers and produced from springs and wells. <br />No reports of hydrogen sulfide are known in the immediate project area, north of the <br />Arkansas River. South of the Arkansas River, where several wells develop water <br />supplies from the Nobraza, Carlisle or Greenhorn Formations, hydrogen sulfide odors <br />may readily, and naturally, occur. Such occurrences can be seasonal in response to water <br />level and nutrient availability changes, or may be episodic due to: <br />Longer period climatic changes, <br />Changes in nett water withdrawals and/or <br />Local rechazge of nutrueint- and carbon-rich water from leach fields, pastures or <br />feedlocks. <br />These occurrences have no cause-and-effect relationship to the Project. <br />5.3 Conclusions <br />The impact of the project will be to increase the water table elevation beneath the plant <br />area. This may also be reflected in the Dakota Group underlying the plant area, with its <br />water table or potentiometric head increasing somewhat (2 to 5'), with lesser rises away <br />from the plant. Slightly grater spring and seep flows may also result. <br />• The increased water table elevation would be more than offset by removing irrigation <br />from the hayfields and pastures of the adjacent ranch. This change would occur at the <br />direction of the Division of Water Resources, as the result of its administration of junior <br />water rights. This may lower the water table sufficiently to reduce spring flows at the <br />river and adversely affect down gradient springs or wells. <br />The possible increases in potentiometric head or water table in the Dakota Group could <br />be manifested as somewhat greater bedrock spring discharge rates to the Arkansas River, <br />if DWR does not administer the junior irrigation rights. If irrigation is stopped, a decline <br />in bedrock spring flows may occur. <br />Changes in bedrock well production or water quality (including hydrogen sulfide <br />presence) in areas south of the River, and in wells producing water from bedrock aquifers <br />structurally isolated from the project, will be due to natural or other non-Project related <br />factors. <br />To summarize, hydraulic impacts to the Dakota Group and other bedrock aquifers cannot <br />be expected to occur south of the Arkansas River, as the Arkansas River serves as a <br />hydraulic boundary having nearly constant-head conditions. Furthermore, faults to the <br />southwest, south, southeast and east of the project create structural blocks that will be <br />hydraulically separate bedrock units. Hence, changes in well production or water quality <br />(including hydrogen sulfide presence) in these areas will be due to natural or other non- <br />• project related factors. <br />23 <br />