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rCBynalyz7thetwoarameters of liquid nutrients applied and cropland soils, it can best be <br /> mineof nutrient (liquid manure blend, straight irrigation water or possibly <br /> inorganic fertilizer) to apply to a particular field. <br /> The procedures for determining crop nutritional needs, particularly nitrogen, without overloading <br /> the cropland can be a complex process. In an effort to simplify the information required to make <br /> best management decisions for optimum crop growth and nutrient utilization, we recommend the <br /> Manure Analysis Reference Guide, published by A & L Agricultural Laboratories. It provides one <br /> of the best sources of information to determine utilization of crop nutrients from confined animal <br /> facilities. The suitable rate of liquid manure applications is determined by the ability of the soil and <br /> crop combination to immobilize and utilize the nutrients in the applied liquid, which is detailed on <br /> the Worksheets found in this Guide. Additionally, the Estimated Nitrogen Release (ENR) must be <br /> taken into consideration when determining nutrient application quantities. This quantifies potential <br /> nitrogen release from previous crop residues. <br /> Caution must be used when irrigating the cropland. Nutrient water must be applied carefully to <br /> avoid runoff. The infiltration and permeability of all nutrient application acreage is comparatively <br /> slow and runoff can occur readily since the cropland will be flood irrigated. Several improvements <br /> are proposed for the Rocha Dairy to prevent nutrient water runoff and protect the surface waters of <br /> Tom Paine Slough and groundwater. Of the improvements proposed, the two irrigation water return <br /> systems offers the greatest protection against runoff into the Tom Paine Slough, or percolating <br /> down to the underlying groundwater. Irrigation water distribution must be visually monitored so <br /> that it is shut off at the appropriate time. ` <br /> Biomat formation within the leachline trenches for the septic systems on parcel 2 and 3 will. <br /> eventually impede percolation to a probable equilibrium rate of 0.5 gals/sq ft/day. It is important to " <br /> recognize that all septic systems have lifespans due to this biomat formation. It is imperative that a <br /> 50%replacement area be set-aside for eventual repair. This replacement area may be used while the <br /> primary leachfield area"rests and rehabilitates." Effluent management can then be converted back <br /> to the primary field. This cycle can continue indefinitely. <br /> This report serves to assess the environmental impact to the soil and underlying groundwater with <br /> respect to nitrate-nitrogen loading. It is our opinion that due to the 1.) Improvements that are <br /> proposed to be made to the nutrient water distribution, 2.) The on-site clayey/silty surface soils, <br /> 3.) The nitrogen mass balance demonstrating nitrogen deficiency, and 4.) Greater awareness of <br /> agronomic nitrogen balances, will all contribute to mitigation of nitrate impact. <br /> Although this report does not address other environmental issues such as odor, truck traffic or other <br /> factors associated with the farming aspect of the dairy, it is our opinion the dairy is operated under <br /> best management practices to mitigate environmental concerns. It must be recognized the dairy F <br /> operates in a predominately agricultural region where related agricultural operations such as odors, <br /> dust, flies, pesticide/nutrient applications and truck traffic are going to occur. <br /> 13 <br /> Chesney Consufting <br />