Hostname: page-component-8448b6f56d-tj2md Total loading time: 0 Render date: 2024-04-23T21:14:12.768Z Has data issue: false hasContentIssue false
  • English
  • Français

Health effects of beach water pollution in Hong Kong

Published online by Cambridge University Press:  15 May 2009

W. H. S. Cheung ,
K. C. K. Chang ,
R. P. S. Hung  and
J. W. L. Kleevens
W. H. S. Cheung
Affiliation:
Environmental Protection Department, 28/F., Southern Centre, Wanchai, Hong Kong
K. C. K. Chang
Affiliation:
Environmental Protection Department, 28/F., Southern Centre, Wanchai, Hong Kong
R. P. S. Hung
Affiliation:
Environmental Protection Department, 28/F., Southern Centre, Wanchai, Hong Kong
J. W. L. Kleevens
Affiliation:
Department of Community Medicine, University of Hong Kong
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Prospective epidemiological studies of beach water pollution were conducted in Hong Kong in the summers of 1986 and 1987. For the main study in 1987, a total of 18741 usable responses were obtained from beachgoers on nine beaches at weekends. The study indicated the overall perceived symptom rates for gastrointestinal, ear, eye, skin, respiratory, fever and total illness were significantly higher for swimmers than non-swimmers; and the swimming-associated symptom rates for gastrointestinal, skin, respiratory and total illness were higher at ‘barely acceptable’ beaches than at ‘relatively unpolluted’ ones. Escherichia coli was found to be the best indicator of the health effects associated with swimming in the beaches of Hong Kong. It showed the highest correlation with combined swimming-associated gastroenteritis and skin symptom rates when compared with other microbial indicators. A linear relationship between E. coli and the combined symptom rates was established. Staphylococci were correlated with ear, respiratory and total illness, but could not be used for predicting swimming-associated health risks. They should be used to complement E. coli. The setting of health-related bathing-water quality standards based on such a study is discussed.

Type
Special Article
Information
Epidemiology & Infection , Volume 105 , Issue 1 , August 1990 , pp. 139 - 162
Copyright
Copyright © Cambridge University Press 1990

References

REFERENCES

1.Laws of Hong Kong, Chapter 358. Water Pollution Control Ordinance. Statement of water quality objectives, Southern, Junk Bay and Port Shelter Water Control Zones. Hong Kong: Government Printer, 1980.Google Scholar
2.World Health Organisation/United Nations Environment Programme. Health criteria and epidemiological studies related to coastal water pollution. Copenhagen: WHO Regional Office for Europe, 1977.Google Scholar
3.United Nations Environment Programme/World Health Organisation. Assessment of the present state of microbial pollution in the Mediterranean sea and proposed control measures. Geneva: United Nations Environment Programme, 1985.Google Scholar
4.Public Health Laboratory Service. Sewage contamination of coastal bathing waters in England and Wales: a bacteriological and epidemiological study. J Hyg 1959; 43: 435–72.Google Scholar
5.Hawley, HB, Morin, DT, Geraghty, ME, Tomkow, J, Phillips, CA, Coxsackievirus, Bepidemic at a boys' summer camp: isolation of virus from swimming water. JAMA 1973; 226: 33–6.Google Scholar
6.Denis, FA, Blancrouin, MD, DeLignieres, A, Flamen, P. Coxsackie A16 infection from lake water. JAMA 1974; 228: 1370–1.Google Scholar
7.D'Alessio, DJ, Minor, TE, Allen, CI, Tsiatis, AA, Nelson, DB. A study of the proportions of swimmers among well controls and children with enterovirus-like illness shedding or not shedding an enterovirus. Am J Epidemiol 1981; 113: 533–1.Google Scholar
8.Bryan, JA, Lehmann, JD, Setiady, IF, Hatch, MH. An outbreak of hepatitis-A associated with recreational lake water. Am J Epidemiol 1974; 99: 145–54.CrossRefGoogle ScholarPubMed
9.Rosenberg, ML, Hazlet, KK, Schaefer, J, Wells, JG, Pruneda, RC. Shigellosis from swimming. JAMA 1976; 236: 1849–52.CrossRefGoogle ScholarPubMed
10.Makintubee, S, Mallonee, J, Istre, GR. Shigellosis outbreak associated with swimming. Am J Public Health 1987; 77: 166–8.Google Scholar
11.Baron, RC, Murphy, FD, Greenberg, HB et al. , Norwalk gastrointestinal illness: an outbreak associated with swimming in a recreational lake and secondary person-to-person transmission. Am J Public Health 1982; 115: 163–72.Google Scholar
12.Koopman, JS, Eckert, EA, Greenberg, HB, Strohm, BC, Issacson, RE, Monto, AS. Norwalk virus enteric illness acquired by swimming exposure. Am J Epidemiol 1982; 115: 173–7.CrossRefGoogle ScholarPubMed
13.Stevenson, AE. Studies of bathing water quality and health. Am J Public Health 1953; 43: 529–38.Google Scholar
14.Federal Water Poll Control Adm, National Technical Advisory Committee. Water quality criteria. Washington DC: Department of the Interior, 1968: 7.Google Scholar
15.Henderson, JM. Enteric disease criteria for recreational waters. J San Engr Div 1968; 94: 1253.CrossRefGoogle Scholar
16.Cabelli, VJ. Health effects criteria for marine recreational waters. US Environmental Protection Agency, 1983. EPA-600/1–80–031.Google Scholar
17.Cabelli, VJ, Dufour, AP, McCabe, LJ, Levin, MA. Swimming-associated gastroenteritis and water quality. Am J Epidemiol 1982; 115: 606–16.CrossRefGoogle ScholarPubMed
18.United States Environmental Protection Agency. Ambient water quality criteria for bacteria-1986. US Environmental Protection Agency, 1986. EPA-440/5–84–002.Google Scholar
19.Dufour, AP. Bacterial indicators of recreational water quality. Canadian J Public Health 1984; 75: 4956.Google Scholar
20.Dufour, AP. Health effects criteria for fresh recreational waters. US Environmental Protection Agency, 1984. EPA-600/1–84–004.Google Scholar
21.Seyfried, PL, Tobin, RS, Brown, NE, Ness, PF. A prospective study of swimming-related illness. I. Swimming-associated health risk. Am J Public Health 1985; 75: 1068–70.Google Scholar
22.Seyfried, PL, Tobin, RS, Brown, NE, Ness, PF. A prospective study of swimming-related illness. II. Morbidity and the microbiological quality of water. Am J Public Health 1985; 75: 1071–5.Google Scholar
23.Fattal, B, Peleg-Olevsky, E, Yoshpe-Purer, Y, Shuval, HI. The association between morbidity among bathers and microbial quality of seawater. Wat Sci Tech 1986; 18: 5969.Google Scholar
24.Brown, JM, Campbell, EA, Rickards, AD, Wheeler, D. Sewage pollution of bathing water. Lancet 1987; ii: 1208–9.CrossRefGoogle Scholar
25.World Health Organisation/United Nations Environment Programme. Correlation between coastal water quality and health effects. Copenhagen: WHO Regional Office for Europe, 1986.Google Scholar
26.Joint Committee of the Public Health Laboratory Service and the Standing Committee of Analysts. Membrane filtration media for the enumeration of coliform organisms and Escherichia coli in water: comparison of Tergitol 7 and lauryl sulphate with Teepol 610. J Hyg 1980; 85: 181–91.Google Scholar
27.Department of the Environment, Department of Health and Social Security, Public Health Laboratory Service. The bacteriological examination of drinking water supplies 1982. Reports on Public Health and Medical Subjects No. 71, Methods for the Examination of Waters and Associated Materials. London: Her Majesty's Stationery Office. 1983.Google Scholar
28.Cheung, WHS. Escherichia coli: A bacterial indicator of faecal pollution. In: Proceedings of the Joint Meeting of the Hong Kong Society of Microbiology and the Guangdong Society of Microbiology. 2–5 June 1985: 3043.Google Scholar
29.Cheung, WHS, Ha, DKK, Yeung, KY, Hung, RPS. Methods for enumerating Eschenrhia coli in subtropical waters. Submitted.Google Scholar
30.Kenner, BA, Clark, HF, Kabler, PW. Fecal streptococci. I. Cultivation and enumeration of streptococci in surface waters. Appl Microbiol 1961; 9: 1520.Google Scholar
31.Slanetz, LW, Bartley, CH. Numbers of enterococci in water, sewage, and faeces determined by the membrane filter technique with an improved medium. J Bacteriol 1957; 74: 591–5.CrossRefGoogle ScholarPubMed
32.Klapes, NA. Comparison of Vogel-Johnson and Baird-Parker media for membrane filtration recovery of staphylococci in swimming pool water. Appl Environ Microbiol 1983: 46: 1318–22.Google Scholar
33.Alico, RK, Dragonjac, MF. Evaluation of culture media for recovery of staphylococcus aureux from swimming pools. Appl Environ Microbiol 1986; 51: 699702.Google Scholar
34.Levin, MA, Cabelli, VJ. Membrane filter technique for enumeration of Pseudomonas aeruginosa. Appl Environ Microbiol 1972; 24: 862–70.Google Scholar
35.DeVicente, A, Borrego, JJ, Arrabal, F, Romero, P. Comparative study of selective media for enumeration of Pseudomonas aeruginosa from water by membrane filtration. Appl Environ Microbiol 1986; 51: 832–40.Google Scholar
36.Buck, JD, Bubucis, PM. Membrane filter procedure for enumeration of Candida albicans in natural waters. Appl Environ Microbiol 1978; 35: 237–42.Google Scholar
37.American Public Health Association, American Water Works Association and Water Pollution Control Federation. Standard Methods for the Examination of Water and Wastewater, 16th ed.Washington DC: American Public Health Association. 1985; 985–6.Google Scholar
38.Cabelli, VJ. Epidemiology of enteric viral infections. In: Goddard, M, Butler, M. eds. Viruses and wastewater treatment. London: Pergamon Press, 1981: 291304.Google Scholar
39.Cabelli, VJ. Swimming-associated illness and recreational water quality criteria. Wat Sci Tech 1989; 21: 1321.Google Scholar
40.White, DO, Fenner, F. Medical virology. 3rd ed.London: Academic Press, 1986: 451–78.Google Scholar
41.Cheung, WHS, Chang, KCK. Microbiological water quality of bathing beaches in Hong Kong, 1988. Environmental Protection Department, Hong Kong Government. EPD/TR5/88. Hong Kong: Government Printer, 1989.Google Scholar