1. U. Szewzyk, R. Szewzyk, W. Manz, K.H. Schleifer, Microbiological safety of drinking water, Annu. Rev. Microbiol., 54 (2000) 81–127.
  2. G.F. Craun, J.M. Brunkard, J.S. Yoder, V.A. Roberts, J. Carpenter, T. Wade, R.L. Calderon, J.M. Roberts, M.J. Beach, S.L. Roy, Causes of outbreaks associated with drinking water in the United States from 1971 to 2006, Clin. Microbiol. Rev., 23 (2010) 507–528.
  3. Y. Sayato, WHO guidelines for drinking-water quality, Japanese J. Toxicol. Environ. Health, 35 (1989) 307–312.
  4. Y.M. Kuo, C.W. Liu, K.H. Lin, Evaluation of the ability of an artificial neural network model to assess the variation of groundwater quality in an area of blackfoot disease in Taiwan, Water Res., 38 (2004) 148–158.
  5. J.W.A. Foppen, J.F. Schijven, Evaluation of data from the literature on the transport and survival of Escherichia coli and thermotolerant coliforms in aquifers under saturated conditions, Water Res., 40 (2006) 401–426.
  6. Y.A. Cai, D. Li, Y.W. Liang, Y.H. Luo, H.P. Zeng, J. Zhang, Effective start-upbiofiltration method for Fe, Mn, and ammonia removal and bacterial community analysis, Bioresour. Technol., 176 (2015) 149–155.
  7. M.G.I. Langille, J. Zaneveld, J.G. Caporaso, D. McDonald, D. Knights, J.A. Reyes, J.C. Clemente, D.E. Burkepile,
    R.L. Vega Thurber, R. Knight, R.G. Beiko, C. Huttenhower, Predictive functional profiling of microbial communities using 16S rRNA marker gene sequences, Nat. Biotechnol., 31 (2013) 814–821.
  8. P.D. Schloss, S.L. Westcott, T. Ryabin, J.R. Hall, M. Hartmann, E.B. Hollister, R.A. Lesniewski, B.B. Oakley,
    D.H. Parks, C.J. Robinson, J.W. Sahl, B. Stres, G.G. Thallinger, D.J. Van Horn, C.F. Weber, Introducing mothur: open-source, platformindependent, community-supported software for describing and comparing microbial communities, Appl. Environ. Microbiol., 75 (2009) 7537–7541.
  9. R.C. Edgar, MUSCLE: multiple sequence alignment with high accuracy and high throughput, Nucleic Acids Res., 32 (2004) 1792–1797.
  10. H. Nilakanta, K.L. Drews, S. Firrell, M.A. Foulkes, K.A. Jablonski, A review of software for analyzing molecular sequences, BMC Res. Notes, 7 (2014) 1–9.
  11. A. Gülay, Y. Çekiç, S. Musovic, H.-J. Albrechtsen, B.F. Smets, Diversity of iron oxidizers in groundwater-fed rapid sand filters: evidence of Fe(II)-dependent growth by Curvibacter and Undibacterium spp., Front. Microbiol., 9 (2018) 1–29.
  12. C. Andreini, I. Bertini, G. Cavallaro, G.L. Holliday, J.M. Thornton, Metal ions in biological catalysis: from enzyme databases to general principles, J. Biol. Inorg. Chem., 13 (2008) 1205–1218.
  13. A. Maul, D. Vogost, J.C. Block, M.A. Winkler, Microbiological Analysis in Water Distribution Networks: Sampling Strategies, Methods and Computer Programs, Ellis Horwood Series in Water and Wastewater Technology (USA), 1991, pp. 79–88.
  14. V. Gomez-Alvarez, B.W. Humrighouse, R.P. Revetta, J.W. Santo Domingo, Bacterial composition
    in a metropolitan drinking water distribution system utilizing different source waters, J. Water Health, 13 (2015) 140–151.
  15. L.B. Fandino, L. Riemann, G.F. Steward, R.A. Long, F. Azam, Variations in bacterial community structure during a dinoflagellate bloom analyzed by DGGE and 16S rDNA sequencing, Aquat. Microb. Ecol., 23 (2001) 119–130.
  16. M.T. Guo, J.J. Huang, H.Y. Hu, W.J. Liu, Growth and repair potential of three species of bacteria in reclaimed wastewater after UV disinfection, Biomed. Environ. Sci., 24 (2011) 400–407.
  17. K. Kollu, B. Örmeci, Regrowth potential of bacteria after UV disinfection in the absence of light and dark repair, J. Environ. Eng., 141 (2014) 04014067.
  18. T. Sultan, Z. Ahmad, K. Hayat, Design and optimization of open-channel water ultraviolet disinfection reactor, Chem. Pap., 1 (2019) 1423–1436.
  19. A.L. Koch, Microbial physiology and ecology of slow growth, Microbiol. Mol. Biol. Rev., 61 (1997) 305–318.
  20. W.S. Steffensen, M. Alexander, Role of competition for in organic nutrients in the biodegradation of mixtures of substrates, Appl. Environ. Microbiol., 61 (1995) 2859–2862.
  21. W. Liu, H. Wu, Z. Wang, S.L. Ong, J.Y. Hu, W.J. Ng, Investigation of assimilable organic carbon (AOC) and bacterial regrowth in drinking water distribution system, Water Res., 36 (2002) 891–898.
  22. Z.W. Munger, C.C. Carey, A.B. Gerling, K.D. Hamre, J.P. Doubek, S.D. Klepatzki, R.P. McClure, M.E. Schreiber, Effectiveness of hypolimnetic oxygenation for preventing accumulation of Fe and Mn in a drinking water reservoir, Water Res., 106 (2016) 1–14.
  23. Z. Liu, B. Xu, T.-Y. Zhang, C.-Y. Hu, Y.-L. Tang, Z.-Y. Dong, T.-C. Cao, M.G. El-Din, Formation of disinfection by-products in a UV-activated mixed chlorine/chloramine system, J. Hazard. Mater., 407 (2020) 124373, doi:10.1016/j.jhazmat.2020.124373.
  24. A.D. Shah, A.D. Dotson, K.G. Linden, W.A. Mitch, Impact of UV disinfection combined with chlorination/chloramination on the formation of halonitromethanes and haloacetonitriles in drinking water, Environ. Sci. Technol., 45 (2011) 3657–3664.