Statistics for Environmental Engineers

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Box, G. E. P. (1998). “Multiple Sources of Variation: Variance Components,” Qual. Eng., 11(1), 171-174.

Box, G. E. P., W. G. Hunter, and J. S. Hunter (1978). Statistics for Experimenters: An Introduction to Design, Data Analysis, and Model Building, New York, Wiley Interscience.

Davies, O. L. and P. L. Goldsmith (1972). Statistical Methods in Research and Production, 4th ed., rev., New York, Hafner Publishing Co.

Edelman, D. A. (1974). “Three-Stage Nested Designs with Composited Samples,” Technometrics, 16(3), 409-417.

Edland, Steven D. and Gerald van Belle (1994). “Decreased Sampling Costs and Improved Accuracy with Composite Sampling,” in Environmental Statistics, Assessment, and Forecasting, C. R. Cothern and N. P. Ross (Eds.), Boca Raton, FL, CRC Press.

Elder, R. S. (1980). “Properties of Composite Sampling Procedures,” Technometrics, 22(2), 179-186.

Finucan, H. M. (1964). “The Blood-Testing Problem,” Appl. Stat., 13, 43-50.

Hahn, G. J. (1977). “Random Samplings: Estimating Sources of Variability,” Chemtech, Sept., pp. 580-582.

Krueger, R. C. (1985). Characterization of Three Types of Foundry Waste and Estimation of Variance Components, Research Report, Madison, WI, Department of Civil and Environmental Engineering, The University of Wisconsin-Madison.

Kussmaul, K. and R. L. Anderson (1967). “Estimation of Variance Components in Two-Stage Nested Design with Composite Samples,” Technometrics, 9(3), 373-389.

Leone, F. C. and L. S. Nelson (1966). “Sampling Distributions of Variance Components. I. Empirical Studies of Balanced Nested Designs,” Technometrics, 8, 457-468.

Mack, G. A. and P. E. Robinson (1985). “Use of Composited Samples to Increase the Precision and Probability of Detection of Toxic Chemicals,” Am. Chem. Soc. Symp. on Environmental Applications of Chemo-metrics, J. J. Breen and P. E. Robinson (Eds.), Philadelphia, PA, 174-183.

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