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Microeukaryote community in a partial nitritation reactor prior to anammox and an insight into the potential of ciliates as performance bioindicators

Authors :
Humbert Salvadó
Joan Lluís Riera
Vanessa Balagué
Ramon Massana
Oriol Canals
Generalitat de Catalunya
Acciona
Source :
Digital.CSIC. Repositorio Institucional del CSIC, instname
Publication Year :
2018
Publisher :
European Federation of Biotechnology, 2018.

Abstract

Special issue International Society of Environmental Biotechnology 2016.-- 10 pages, 3 figures, 5 tables, supplementary data https://doi.org/10.1016/j.nbt.2017.05.003<br />An in-depth, long-term, multidisciplinary study was conducted in order to study the microeukaryote community in a partial nitritation (PN) reactor prior to anammox. The PN reactor operated with moving bed biofilm reactor (MBBR) technology, using plastic supports (carriers) for biofilm development. The microeukaryote community from the biofilm (BF) and the surrounding media (mixed liquor or ML) were analysed separately. Despite the physicochemical conditions under which the PN-MBBR operated (an average of 305.9 ± 117 mg TAN l and 328.4 ± 131.9 mg N-NO l), up to 24 microeukaryotic taxa were observed by microscope. Microeukaryote species showed an uneven distribution in the PN-MBBR, thus suggesting the existence of two habitats: the BF, preferred by species with specific structures for adhering to a substrate, such as the stalked Peritrichia, and the ML, preferred by free-swimming or non-substrate dependent species. The results indicated that most ciliate population dynamics mainly responded to the nitrous acid and free ammonia concentrations and, to a lesser extent, to sCOD values. In the BF, variations in the population of Epistylis camprubii and Opercularia coarctata suggest the existence of competition between these species due to niche overlap. A V4 18S rDNA molecular survey (Illumina) was carried out for some samples with the aim of obtaining maximum coverage of the main eukaryote species that were microscopically detected throughout the study. The diversity and abundance data provided by both detection methods were compared. The study helped identify broader tolerance ranges of the microeukaryote taxa to the physicochemical parameters analysed<br />This work was financially supported by ACCIONA Agua ( 306393 FBG – UB) and partially funded by a grant of the Catalan Government as the Consolidated Research Group VirBaP (2014SRG914)

Details

Database :
OpenAIRE
Journal :
Digital.CSIC. Repositorio Institucional del CSIC, instname
Accession number :
edsair.doi.dedup.....b845890ac42cf486058e846193187520