Health Impact Assessment for Sustainable Water ManagementLorna Fewtrell, David Kay, M. Benjamin Health Impact Assessment for Sustainable Water Management is a pioneering international text, exploring and developing this emerging discipline. It is the first to take an international perspective seeking to draw generic lessons from both the developed and developing nations’ experience in this new area of activity. The approach is being applied in policy development to strengthen the ‘evidence-base’ and across a wide spectrum of resource developments, industrial and urban infrastructure projects and in ‘aid’ projects in developing countries. This book illustrates the importance of considering health in water management developments and demonstrates the role of health impact assessment (HIA) in this process. Case-studies illustrate a range of management approaches to different system implementation issues and scale factors, ranging from domestic rainwater harvesting for the supply of non-potable water to a large-scale hydroelectric project. The concept, objectives, terminology and challenges of HIA are introduced and illustrated by case studies including rainwater harvesting, greywater reuse, sustainable drainage and evaluations of the health impacts of flooding. Developing country case studies include a small-scale irrigation project in Zimbabwe, a large hydro-electric scheme in Lao (Peoples Democratic Republic) and the implementation issues surrounding the use of domestic wastewater as a resource in demand by agricultural enterprises in Pakistan. The case studies illustrate different HIA approaches, including the use of quantitative and qualitative information and provide benchmarks of current practice for practitioners seeking to apply HIA in the emerging agendas in both developed and developing nations. The critical appraisals within each chapter offer both best practice exemplars as well as explanations of problems and mistakes of past project implementation, and define the requirements for the policy communities who will be increasingly required to accommodate HIA information in resource allocation decisions. As a result, this book will be of interest to planners, developers, policy makers, public health, environmental and water utility scientists and practitioners. |
Contents
07_9781843391333_Introductionpdf | 1 |
08_9781843391333_Overviewpdf | 29 |
09_9781843391333_RWHpdf | 45 |
10_9781843391333_SUDSpdf | 69 |
11_9781843391333_Greywaterpdf | 89 |
12_9781843391333_Floodingpdf | 121 |
13_9781843391333_FloodingQMRApdf | 155 |
14_9781843391333_Mupfure Irrigationpdf | 179 |
15_9781843391333_Nam Theunpdf | 199 |
16_9781843391333_Ensinkpdf | 233 |
17_9781843391333_ConcludingRemarkspdf | 249 |
265 | |
Common terms and phrases
accessed agriculture assumed Campylobacter spp campylobacteriosis Chapter chemical concentrations constructed wetlands construction contamination cryptosporidiosis Cryptosporidium spp DALY score David Kay death developing countries disinfection dose-response dose-response relationship drowning duration environment Epidemiology exposure external tap faecal faeces Faisalabad flood event floodwater garden gastrointestinal greywater greywater reuse Havelaar hazard health effects Health Impact Assessment Health Protection Agency households human illness implementation incidence increase infection injuries IWA Publishing Journal Kemm Lao PDR Legionella leptospirosis London Lorna Fewtrell malaria Microbiology mosquito Nakai plateau Palisade Corporation pathogens pond population potential prevalence programme project area public health QMRA qualitative estimate quantification rainwater harvesting reported Research resettlement result risk assessment river Salmonella Salmonella spp samples schistosomiasis severity weight SUDS surveillance Sustainable Water Management Table Toxocara transmission untreated wastewater urban Utzinger vector-borne vectors wastewater wastewater irrigation wetlands World Health Organization Xe Bang Fai