This work is licensed under the Creative Commons Attribution 4.0 International License.
Podlaska B., Russel S.; Charakterystyka bakterii nitryfikacyjnych i ich rola w obiegu azotu (Characteristics of nitrification bacteria and their role in the nitrogen cycle). Oficyna Wydawnicza Politechniki Wrocławskiej, Wrocław, Vol.3, 2013; p.517-521 (in Polish)Search in Google Scholar
Prosser J. I.; Nitrogen in soils. Nitrification, Elsevier Ltd., 2005; p.31-3910.1016/B0-12-348530-4/00512-9Search in Google Scholar
Makuch A.; Biologiczne usuwanie związków azotu ze ścieków zawierających sulfonoamidy (Biological nitrogen removal from wastewater containing sulfa). PhD dissertation, Gdańsk Uniwesity of Technology, 2009Search in Google Scholar
Melcer H., Dold P.L., Jones R.M., Bye C.M., Takacs I., Stensel H.D., Wilson A.W., Sun P., Bury S.; Methods for wastewater characterization in activated sludge modeling. Water Environment Research Foundation, Report WWF, Alexandria, 2003Search in Google Scholar
Pajdak-Stós A., Fiałkowska E., Fyda J., Babko R.; Jeszcze o nitryfikacji oczami biologa sukcesja nitry-fikatorów w nowo otwartej oczyszczalni ścieków (Nitrifaction as seen by a biologist. Succession of nitrifiers in newely open wastewater treatment plant). Forum Eksploatatora, Vol.51, No.6, 2010; p.33-35 (in Polish)Search in Google Scholar
Mulder A., van de Graaf A. A., Robertson L. A., Kuenen J. G.; Anaerobic ammonium oxidation discovered in a denitrifying fluidized bed reactor. FEMS Microbiol. Ecol., Vol.3, No.16, 1995; p.177-18410.1111/j.1574-6941.1995.tb00281.xSearch in Google Scholar
Plaza E., Trela J., Hultman B.; Seeding of nitrifying bacteria as a way for nitrification improvement. Water Science and Technology, Vol.43, No.1, 2000; p.155-16410.2166/wst.2001.0038Search in Google Scholar
Frąszczak M., Łomotowski J.,; Możliwości produkcji biomasy bakterii nitryfikacyjnych z wykorzystaniem amoniaku emitowanego w czasie chowu zwierząt w budynkach inwentarskich (Capacity to produce biomass nitrifying bacteria using ammonia emitted during livestock in livestock buildings). Instal, No.5, 2012; p.59-63 (in Polish)Search in Google Scholar
Nielseon P. H., Daims H., Lemmer H.; FISH Handbook for Biological Wastewater Treatment, Identification and quantification of microorganisms in activated sludge and biofilms by FISH. IWA Publishing, London, 200910.2166/9781780401775Search in Google Scholar
Domańska M., Kuhn R., Łomotowski J., Stańczyk E.; FISH Method for Identification of Microbes in Water and Wastewater Distribution Systems. Environmental Protection Engineering, Vol.40, No.3, 2014; p.151-16010.37190/epe140312Search in Google Scholar
Amann R. I., Ludwig W., and Schleifer K.H.; Phylogenetic identification and in situ detection of individual microbial cells without cultivation. Microbiological Reviews, Vol.59, No.2, 1995; p.143-16910.1128/mr.59.1.143-169.1995Search in Google Scholar
Seviour R., Nielsen P.H.; Microbial Ecology of Activated Sludge, Chapter 2 The activated sludge process., Seviour R. J., Lindrea K. C., Oehmen A., IWA Publishing, 201010.2166/9781780401645Search in Google Scholar
Garbosky A. J. and Giambiagi N.; The survival of nitrifying bacteria in the soil. Plant and Soil, Vol.17, No.2, 1962; p.271-27810.1007/BF01376230Search in Google Scholar
Starr M. P.; The Prokaryotes: A Handbook on Habitats, Isolation and Identification of Bacteria, Springer-Verlag Publishing, 198110.1007/978-3-662-13187-9Search in Google Scholar
Grunditz C., Dalhammar G.; Development of nitrification inhibition assays using pure cultures of Nitrosomonas and Nitrobacter. Wat. Res., Vol.35, No.2, 2001; p.433-44010.1016/S0043-1354(00)00312-2Search in Google Scholar