The free residual chlorine of tap water samples, collected from 266 faucets on the water pipe network in Daegu City, was between 0.1 and 0.79 mg/L. On microorganic tests, general bacteria and the coliform goup were not detected and thus the tap water was turned out to be fit to drink. In particular, samples of which free residual chlorine was 0.1 mg/L and over were cultured in R2A agar media at 25˚C for 7 days, and as a result heterotrophic bacteria were detected in 65.9% of samples; (1). The closer tap water got to the faucet from the stilling basin, the lower residual chlorine concentration became but the more the bacterial count became. And, more bacteria were detected in the R2A agar medium than in the PCA medium. (2). In the case of separated strains, most colonies were reddish or yellowish. 16S rRNA sequence was identified as Methylobacterium sp. and Williamsia sp., and yellow strain was identified as Sphingomonas sp., Sphingobium sp., Novosphingobium sp., Blastomonas sp., Rhodococcus sp. and Microbacterium sp. White strain was identified as Staphylococcus sp. (3). Sterilized tap water in polyethylene bottles was inoculated with separated strain and was left as it was for 2 months. As a result, bio-film was observed in tap water inoculated with Methylobacterium sp. and Sphingomonas sp. It was found that heterotrophic bacteria increased when free residual chlorine was removed from tap water in the water pipe network. Thus, there is a need to determine a base value for heterotrophic bacteria in order to check the cleanliness of tap water in the water pipe network.

1 일본약학회, "위생시험법주해" 금원출판주식회사 2005

2 이동근, "수돗물속 생물막 형성의 초기 세균" 한국환경보건학회 33 (33): 428-433, 2007

3 박성주, "상수도계통에서의 세균 분포 및 변화" 31 : 245-254, 1993

4 장현정, "배급수관로의 생물막 저감방안연구 요약문"

5 환경부, "먹는물수질공정시험기준" 2009

6 古畑勝, "病院内水道水における 貧栄養細菌の生息状況" 15 : 243-247, 2007

7 古畑勝, "病院内水道水からの貧栄養細菌 の分離状況" 34 (34): 323-328, 2006

8 厚生労働, "水質基準に関する省令の一部改正におけ る留意事項について (平成19年 11月 15日 健水発第 1115002 号)"

9 保坂三継, "水の従属栄養細菌試験における培 地並びに培養条件の検討" 52 : 245-249, 2001

10 Niquette, P, "acterial dynamics in the drinking water distribution systems of brussels" 32 (32): 675-682, 2001

11 Chen-hsiang L, "Underdiagnosis of urinary tract infection caused by Methylobacterium species with current standard processing of urine culture and its clinical implications" 53 : 755-759, 2004

12 Furuhata, K, "The mechanism of resistance to free residual chlorine in Protomonas extorquens isolated at a high frequency from drinking tank-water.J.Antibact.Antifung" 19 : 395-399, 1991

13 USEPA, "The effectiveness of disinfectant residuals in the distribution system, Draft, Washington DC" Total Coliform Rule Issue Paper 2004

14 Hornei, B, "Systemic infection of an immunocompromised patient with Methylobacterium zatmanii" 37 (37): 248-250, 1999

15 Prevost, M, "Suspended bacterial biomass and activity in full-scale drinking water distribution systems : Impact of water treatment" 32 (32): 1393-1406, 1998

16 APHA, "Standards Methods for the Exanmination of Water and Wastewater" AWWA and WEF 2005

17 Furuhata, K, "Some heterotrophic bacteria in drinking tank water, and their resistance for chlorine and heat" 34 : 282-289, 1983

18 Furuhata, K, "Some bacteriological studies on the pinkish slimy films formed on the tiles using bathrooms and washstands" 43 : 197-204, 1992

19 Takuchi, M, "Proposal of the genus Sphingomonas sensu stricto and three new genera, Sphingobium, Novosphinogobium and Sphingopyxis, on the basis of phylogenetic and chemotaxonomic analyses" 51 : 1405-1417, 2001

20 Hiraishi, A, "Phenotypic and genetic diversity of chlorine-resistant Methylobacterium strains isolated from various environments" 61 (61): 2099-2107, 1995

21 Borenstein,S.B, "Microbiologically influenced corrosion handbook" Industrial Press Inc 1994

22 Patt, T. E, "Methylobacterium, a new genus of facultatively methylotrophic bacteria" 26 : 226-229, 1976

23 Sanders, J. W, "Methylobacterium mesophilicum infection: case report and literature review of an unusual opportunitic pathogen" 30 (30): 936-938, 2000

24 Truant, A. L, "Methylobacterium bactaeremia in AIDS" 4 (4): 112-113, 1998

25 Furuhata, K, "Isolation of Methylobacterium spp. from drinking tank-water and resistance of isolates to chlorine" 40 : 1047-1053, 1993

26 Furuhata, K, "Isolation and identification of Methylobacterium species from the tap water in hospitals in Japan and their antibiotic susceptibility" 50 (50): 7-11, 2006

27 LeChevallier, M. W, "Inactivation of biofilm bacteria" 54 (54): 2492-2499, 1988

28 Furuhata, K, "Identification of yellow- pigmented bacteria isolated from hospital tap water in Japan and their chlorine resistance" 12 (12): 39-46, 2007

29 Furuhata, K, "Growth and survival of a chlorine resistive gram-negative rod bacterium, Protomonas extorquens, isolated dominantly from drinking tank-water" 4 : 35-47, 1987

30 Anderson, R. L, "Effect of disinfectants on Pseudomonas colonized on the interior surface of PVC pipes" 17-21, 1990

31 Zhang, W, "Comparison of bacterial regrowth in distribution systems using free chlorine and chloramine : a statistical study of causative factors" 36 (36): 1469-1482, 2002

32 Furuhata, K, "Characteristics and antibiotic susceptibility of Methylobacterium extorquens isolated from drinking water and air in the hospital" 5 : 47-51, 1990

33 Furuhata, K, "Bacteriological characteristics of chlorine resistive Pseudomonas isolated dominantly from drinking tank water" 35 : 352-362, 1984

34 Rosa, F, "AlessandroMariottini 4 and Patrizia Pecile 3　unusual Methylobacterium fujisawaense infection in a patient with acute leukaemia undergoing hematopoietic stem cell transplantation: First Case Report" Hindawi Publishing Corporation Case Reports in Medicine 3-, 2010

35 Furuhata, K, "A study on a selective medium for the isolation and enumeration of gram-negative rod bacterium Protomonas extorquens from drinking tank water" 38 : 333-342, 1987