Microfauna communities as performance indicators for an A/O Shortcut Biological Nitrogen Removal moving-bed biofilm reactor

Autor:	Oriol Canals, Jorge J. Malfeito, C. Hernández, Maria Auset, Humbert Salvadó
Rok vydání:	2012
Předmět:	Environmental Engineering Nitrogen Population Pilot Projects Biology chemistry.chemical_compound Bioreactors Epistylis Animals Ammonium Anaerobiosis Ciliophora education Waste Management and Disposal Water Science and Technology Civil and Structural Engineering education.field_of_study Moving bed biofilm reactor Ecological Modeling Environmental engineering biology.organism_classification Pollution Anoxic waters Aerobiosis Quaternary Ammonium Compounds Biodegradation Environmental chemistry Microfauna Colpoda Environmental chemistry Biofilms Nitrification Volatilization
Zdroj:	Water research. 47(9)
ISSN:	1879-2448
Popis:	The microfauna communities present in the mixed liquor and biofilm of an Anoxic/Oxic Shortcut Biofilm Nitrogen Removal moving-bed biofilm process were characterised in order to optimise process control through the use of bioindicators. The system operated at high ammonium concentrations, with an average of 588 ± 220 mg N – NH 4 + L −1 in the influent, 161 ± 80 mg L −1 in the anoxic reactor and 74 ± 71.2 mg L −1 in the aerobic reactor. Up to 20 different taxa were identified, including ciliates (4), flagellates (11), amoebae (4) and nematodes (1). Compared to conventional wastewater treatment processes (WWTPs), this process can be defined as a flagellates-predominant system with a low diversity of ciliates. Flagellates were mainly dominant in the mixed liquor, demonstrating high tolerance to ammonium and the capacity for survival over a long time under anoxic conditions. The data obtained provide interesting values of maximum and minimum tolerance ranges to ammonium, nitrates and nitrites for the ciliate species Cyclidium glaucoma , Colpoda ecaudata , Vorticella microstoma -complex and Epistylis cf. rotans . The last of these was the only ciliate species that presented a constant and abundant population, almost exclusively in the aerobic biofilm. Epistylis cf. rotans dynamics showed a high negative correlation with ammonium variations and a positive correlation with ammonium removal efficiency. Hence, the results indicate that Epistylis cf. rotans is a good bioindicator of the nitrification process in this system. The study of protozoan communities in unexplored WWTPs sheds light on species ecology and their role under conditions that have been little studied in WWTPs, and could offer new biological management tools.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::59ec7584dab64375ef49aff6ba6c33fd https://pubmed.ncbi.nlm.nih.gov/23561502 Zobrazit plný text záznamu Full Text from ScienceDirect