Statistical Framework for Recreational Water Quality Criteria and Monitoring offers a practical guide to the statistical methods used for assessing health effects and monitoring and modelling water quality Both traditional and novel sampling designs are discussed. Written by a team of international experts in the field, this book sets out to provide an essential structure for the monitoring of water quality.
- Proposes a much-needed framework for the monitoring of water quality, and provides practical guidance on the statistical methods involved.
- Covers risk characterization, empirical modelling, sensitivity analysis and measures of robustness.
- Details sampling methods and quality control approaches.
- Presents crucial, real-life results from recent large-scale studies of water quality, central to the development of the area.
- Accompanied by a supplementary website hosting data sets and tools for data analysis.
The book is primarily aimed at public health officials, staff of regulatory bodies and students and faculty members of environmental and statistical science courses. There is also much to benefit readers from environmental research and risk analysis.
1: The Evolution of Water Quality Criteria in the United States - 1922-2003 (Alfred P. Dufour and Stephen Schaub).
2: A Management Context For The Statistical Design Of Recreational Contact Water Quality Monitoring Programs (Stephen B. Weisberg).
3: Conceptual Bases for Relating Illness Risk to Indicator Concentrations (David F. Parkhurst, Guntehr F. Craun, and Jeffrey A. Soller).
4: On Selecting the Statistical Rationale for Revised EPA Recreational Water Quality Criteria for Bacteria (Richard O. Gilbert).
5: Sampling Recreational Waters (Abdel H El-Shaarawi and Sylvia R Esterby).
6: The Lognormal Distribution and Use of the Geometric Mean and the Arithmetic Mean in Recreational Water Quality Measurement (Larry J. Wymer and Timothy J. Wade).
7: The EMPACT Beaches: A Case Study in Recreational Water Sampling (Larry J. Wymer).
8: Microbial Risk Assessment Modeling (Graham McBride).
9: A plausible model to explain concentration-response relationships in randomized controlled trials assessing infectious disease risks from exposure to recreational waters (Albrecht Wiedenmann).
10: Nowcasting recreational water quality (Alexandria B. Boehm, Richard L. Whitman, Meredith B. Nevers, Deyi Hou, and Stephen B. Weisberg).
11: Statistical sensitivity analysis and water quality (Alessandro Fasso).