1. T.F. O’Brien, Emergence, spread, and environmental effect of antimicrobial resistance: how use of an antimicrobial anywhere can increase resistance to any antimicrobial anywhere else, Clin. Infect. Dis., 34 (2002) S78–S84.
  2. H.P. Lambert, F.W. O’Grady, Antibiotics and Chemotherapy, Medical Publisher, Warsaw, 1994 (in Polish).
  3. Joint Publication, Good Practices in Sewage Sludge Management, Materials from PURE Project (Project on Urban Reduction of Eutrophication), FIN-20500 Turku, Finland, 2012 (in Polish).
  4. E. Stańczyk-Mazanek, T. Nalewajek, M. Zabochnicka, Drugresistant microorganisms in soils fertilized with sewage sludge, Arch. Environ. Prot., 38 (2012) 97–102 (in Polish).
  5. E.M. Szewczyki (red.), Bacteriological Diagnostics, Science Publisher PWN, Warsaw, 2011 (in Polish).
  6. W. Wu, Y. Feng, G. Tang, F. Qiao, A. McNally. Z. Zong, NDM metallo-β-lactamases and their bacterial producers in health care settings, Clin. Microbiol. Rev., 32 (2019) e00115–e00118.
  7. European Lime Association, Liming: Modern Method of Sewage Sludge Hygienization Used at Agriculture. Available at ciekowych-wykorzystywanych-w-rolnictwie.pdf (in Polish).
  8. W. Niemiec, M. Wójcik, Possibility of usage of municipal sewage sludge from chosen wastewater treatment plant, Sci. Pap. of Rzesz. Tech. Univ., 291, t. XXXII, 87 (2015) 339–347 (in Polish).
  9. J. Akrivos, D. Mamais, K. Katsara, A. Andreadakis, Agricultural utilisation of lime-treated sewage sludge, Water Sci. Technol., 42 (2000) 203–210.
  10. T. Marcinkowski, Effect of sewage stabilization with calcium hydroxide and their composition, Environ. Prot., 25 (2003) 49–55 (in Polish).
  11. W. Niemiec, A. Piech, Local Installations for Sewage an Sewage Sludge Disposal. Available at http://www.pogorzedynowskie. pl/data/referaty/XBS/ref_2_XBS.pdf (in Polish).
  12. J. Awong-Taylor, K.S. Craven, L. Griffiths, C. Bass, M. Muscarella, Comparison of biochemical and molecular methods for the identification of bacterial isolates associated with failed loggerhead sea turtle eggs, J. Appl. Microbiol., 104 (2008) 1244–1257.
  13. W. Hryniewicz, A. Sulikowska, K. Szczypa, J. Krzystoń- Russjan, M. Gniadkowski, Recommendations for Choosing of Antibiotics and Chemotherapeutics Bacteria Susceptibility Tests, National Reference Center for Microbial Susceptibility, 2001 (in Polish).
  14. W. Hryniewicz, D. Żabicka (red.), Tables of Interpretation of Microorganisms Susceptibility in Accordance With EUCAST Recommendations, Version 10.0 2020 (2020) (in Polish).
  15. B. Bina, H. Movahedian, I. Kord, The effect of lime stabilization on the microbiological quality of sewage sludge, Iran. J. Environ. Health Sci. Eng., 1 (2004) 34–38.
  16. J.J. Farmer, B.R. Davis, F.W. Hickman-Brenner, A. McWhorter, G.P. Huntley-Carter, M.A. Asbury, C. Riddle, H.G. Wathen-Grady, C. Elias, G.R. Fanning, Biochemical identification of new species and biogroups of Enterobacteriaceae isolated from clinical specimens, J. Clin. Microbiol., 21 (1985) 46–76.
  17. Dr. Dnyaneshwari Gadage, Dr. Archana Wankhade, Dr. Vrishali V. Muley, Dr. Apoorva V. Paralikar, Dr. Arvind V. Bhore, Are inactive E. coli always commensals?, Sch. J. Appl. Med. Sci., 2 (2014) 426–427.
  18. I. Sorescu, I. Caraivan, A.V. Popa, D. Turcu, D. Tatu-Chitoiu, M. Tonciu, A.I. Tamas, C. Panca, D. Stanuica, Characterisation of inactive Escherichia coli isolates from suckling pigs with diarrhoeic syndrome, Stud. Res. Vet. Med., 8 (2000) 63–68.
  19. M.M. Venkatesan, J.M. Buysse, D.J. Kopecko, Use of Shigella flexneri ipaC and ipaH gene sequences for the general identification of Shigella spp. and enteroinvasive Escherichia coli, J. Clin. Microbiol., 27 (1989) 2687–2691.
  20. C.M. Yang, M.F. Lin, P.C. Liao, H.W. Yeh, B.V. Chang, T.K. Tang, C. Cheng, C.H. Sung. M.L. Liou, Comparison of antimicrobial resistance patterns between clinical and sewage isolates in a regional hospital in Taiwan, Lett. Appl. Microbiol., 48 (2009) 560–565.
  21. F.F. Reinthaler, G. Feierl, H. Galler, D. Haas, E. Leitner, F. Mascher, A. Melkes, J. Posch, I. Winter, G. Zarfel, E. Marth, ESBL-producing E. coli in Austrian sewage sludge, Water Res., 44 (2010) 1981–1985.