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APPENDIX D <br /> STATISTICAL METHODS TO DETERMINE CONCENTRATION LIMITS <br /> TOLERANCE LIMIT METHODOLOGIES <br /> The purpose of a tolerance interval approach is to define a concentration range from background well <br /> P� ppgr <br /> data, within which a large proportion of the monitoring observations should fall with a high <br /> probability. The proportion of the population included is referred to as the coverage. The <br /> probability with which the tolerance interval includes the proportion of the population is referred to <br /> as the tolerance coefficient. <br /> Consistent with USEPA and state recommendations,Sanitas(computer program utilized)uses a 95 <br /> percent coverage and 95 percent tolerance coefficient. The upper 95 percent tolerance limit will <br /> ' contain at least 95 percent of the distribution of observations from background well data. The <br /> tolerance interval method is described in the following documents: <br /> -- Introduction to Statistical Quality Control, D.C. Montgomery. John Wiley <br /> Publishing,New York. 1985. <br /> -- Statistical Analysis of Groundwater Monitoring Data at RCRA Facilities, Interim <br /> Final Guidance Document,USEPA. USEPA/530-SW-89-026. February 1989. <br /> -- Statistical Analysis of Groundwater Monitoring Data at RCRA Facilities,Addendum <br /> to Interim Final Guidance,USEPA. USEPA/530-R-93-003. July 1992. <br /> San Joaquin County uses Groundwater Statistical Analysis System (GSAS, now referred to as <br /> Sanitas)to calculate tolerance limits for County Landfills. Sanitas is a statistical software program <br /> developed by Intelligent Decision Technologies, Ltd. (IDT). It is specifically designed to evaluate <br /> water quality monitoring data for landfills. Sanitas performs all pre-and post-analysis tests required <br /> so that the data do not violate size and distribution assumptions of the relevant statistical analysis. <br /> Parametric Tolerance Limit <br /> ' When conducting the tolerance interval method, Sanitas automatically evaluates the distribution of <br /> the data. For data sets with 50 or fewer samples the Coefficient of Variation test for normality is <br /> used, and for data sets greater than 50 samples the Shapiro-Francia test is used. Sanitas applies the <br /> ' parametric tolerance limit test when the background data set is found to have less than 50 percent <br /> non-detects and the background data have a normal or transformed normal distribution. If greater <br /> than 15 percent but less than 50 percent of the background data set consist of non-detect values,the <br /> mean and standard deviation of the data set are adjusted using the Cohen's Method. The tolerance <br /> limit is then calculated using the adjusted values. <br /> ' Nonparametric Tolerance Limit <br /> When the background data set contains greater than 50 percent but less than 100 percent nondetect <br /> ' values and/or its distribution is not normal (or transformed normal), Sanitas applies the <br /> nonparametric tolerance limit method. However, this method requires a large number of samples <br /> to achieve a false positive rate of 1 percent or less,which is required by CCR Title 23, Chapter 15, <br /> Article 5 guidelines. Thus,when the alpha level was higher than 1 percent,the concentration limit <br /> was not established and footnoted as to why. <br />