A.8 REFERENCES

ADEC (Alaska Department of Environmental Conservation). 2009. Draft Guidance on MULTI INCREMENT Soil Sampling. Division of Spill Preventions and Response, Contaminated Sites Program. itrcweb.org/ism-1/references/multi_increment.pdf.

Cochran, W. G. 1977. Sampling Techniques. New York: Wiley.

Cressie, N. 1993. Statistics for Spatial Data. New York: Wiley.

Dudewicz, E. J., and S. N. Mishra. 1988. Modern Mathematical Statistics. New York:Wiley.

Elder, R. S., W. O. Thompson, and R. H. Myers. 1980. “Properties of Composite Sampling Procedures,” Technometrics 22: 179–86.

Gerlach, R. W., and J. M. Nocerino. 2003. Guidance for Obtaining Representative Laboratory Analytical Subsamples from ParticulateLaboratory Samples. EPA/600/R-03/027. itrcweb.org/ism-1/references/guidancerl.pdf.

Gy, P. M. 1992. Sampling for Heterogeneous and Dynamic Material Systems: Theories of Heterogeneity, Sampling, and Homogenizing. Amsterdam: Elsevier.

Hathaway, J. E., and B. A. Pulsipher. 2010. “Evaluating the Performance of Incremental Sampling.” PNNL-19683. Richland, Wash.: Pacific Northwest National Laboratory. itrcweb.org/ism-1/references/Final_ISsimulationStudy_082011.pdf.

Hewitt, A. D., T. F. Jenkins, C. A. Ramsey, K. L. Bjella, T. A. Ranney, and N. M. Perron. 2005. Estimating Energetic Residue Loading on Military Artillery Ranges: Large Decision Units. ERDC/CRREL TR-05-7. Hanover, N.H.: U.S. Army Engineer Research and Development Center.

Hewitt, A. D., T. F. Jenkins, M. E. Walsh, M. R. Walsh, S. R. Bigl, and C. A. Ramsey. 2007. Protocols for Collection of Surface Soil Samples at Military Training and Testing Ranges for the Characterization of Munitions Constituents. ERDC/CRREL TR-07-10. Hanover, N.H.: U.S. Army Engineer Research and Development Center, Cold Regions Research and Engineering Laboratory. itrcweb.org/ism-1/references/GetTRDoc.pdf.

Hewitt, A. D., T. F. Jenkins, M. E. Walsh, M. R. Walsh, and S. Brochu. 2009. ESTCP Cost and Performance Report: Validation of Sampling Protocol and the Promulgation of Method Modification for the Characterization of Energetic Residues on Military Testing and Training Ranges. ESTCP/CRREL ER-0628. Hanover, N.H.: U.S. Army Engineer Research and Development Center, Cold Regions Research and Engineering Laboratory in partnership with Defense Research and Development Canada-Valcartier, Quebec, Canada. www.serdp.org/Program-Areas/Environmental-Restoration/Contaminants-on-Ranges/Identifying-and-Evaluating-Sources/ER-200628.

Jenkins, T. F., A. D. Hewitt, T. A. Ranney, C. A. Ramsey, D. Lambert, K. L. Bjella, and N. Perron. 2004. Sampling Strategies Near a Low-Order Detonation and a Target at an Artillery Impact Area. ERDC/CRREL TR-04-14. Hanover, N.H.: U.S. Army Engineer Research and Development Center.

Jenkins, T. F., A. D. Hewitt, C. L. Grant, S. Thiboutot, G. Ampleman, M. E. Walsh, T. A. Ranney, C. A. Ramsey, A. J. Palazzo, and J. C. Pennington. 2006. “Identity and Distribution of Residues of Energetic Compounds at Military Live-Fire Training Ranges,” Chemosphere 63: 1280–90.

Matzke B. D., L. L. Nuffer, R. O. Gilbert, J. E. Hathaway, L. H. Sego, B. Roberts, J. E. Wilson, S. T. Dowson, N. L. Hassig, C. J. Murray, B. A.

Pitard, F. 1993. Pierre Gy’s Sampling Theory and Sampling Practice: Heterogeneity, Sampling Correctness, and Statistical Process Control, 2nd ed. Boca Raton, Fla.: CRC Press.

Pulsipher, and S. McKenna. 2007. Visual Sample Plan Version 5.0 User’s Guide.PNNL-16939. Richland, Wash.: Pacific Northwest National Laboratory. itrcweb.org/ism-1/references/pnnl16939.pdf.

Singh, A., R. Maichle, and N. Armbya. 2009. A Program to Generate Homogeneous and Heterogeneous DUs and to Perform MULTI INCREMNT SAMPLING Incorporated in EPA Software Scout 1.1. Las Vegas: Lockheed Martin.

Singh, A., R. Maichle, A. K. Singh, S. Lee, and N. Armbya. 2007. ProUCL Version 4.00. 02 User Guide. EPA/600/R-07/038. itrcweb.org/ism-1/references/ProUCL_v4.00.02_User_Guide.pdf.

Singh, A., Singh, A. K., and R. J. Iaci. 2002. Estimation of the Exposure Point Concentration Term Using a Gamma Distribution. Technology Support Center Issue Paper. EPA/600/R-02/084. itrcweb.org/ism-1/references/289cmb02.pdf.

Singh, A., A. K. Singh, and D. Murphy. 2009. Final Report: Statistical Evaluation of Multi-Increment Sampling (MIS) or Increment Sampling (IS) Approach and Its Applicability in Addressing Various Project Objectives of Environmental Investigations. Former Nansemond Ordnance Depot, Va.

Singh, A. K., A. Singh, and M. Engelhardt. 1997. The Lognormal Distribution in Environmental Applications. Technology Support Center Issue Paper. EPA/600/R-97/006. itrcweb.org/ism-1/references/Singh1997.pdf.

Smith, P. L. 2006. A Primer for Sampling Solids, Liquids, and Gases. Philadelphia: American Statistical Association and Society for Industrial Mathematics.

USACE. 2009. Implementation of Incremental Sampling (IS) of Soil for the Military Munitions Response Program. Interim Guidance Document (IGD) 09-02. Environmental and Munitions Center of Expertise. itrcweb.org/ism-1/references/IGD%209-02v2.pdf.

USEPA (U.S. Environmental Protection Agency). 2008. Quick Overview Scout 2008. www.epa.gov/esd/databases/scout/abstract.htm.

USEPA 2009. Scout 2008 Version 1.0 User Guide. EPA/600/R-08/038.

USEPA. 2010a. ProUCL 4.00.05 Software for Calculating Upper Confidence Limits (UCLs). Office of Research and Development. www2.epa.gov/land-research/proucl-version-40005-documentation-downloads.

USEPA. 2010b. ProUCL 4.00.05 Technical Guide (Draft). EPA/600/R-07/041. Office of Research and Development. www2.epa.gov/land-research/proucl-version-40005-documentation-downloads.

USEPA. n.d. “Scout 1.1. A Robust Statistical Package.” Submitted to the National Exposure Research Laboratory, Las Vegas.

USEPA. n.d. “Scout 2008, Version 1.00.01.” http://www.epa.gov/esd/databases/scout/abstract.htm.