Abstract
Biological wastewater treatment (WWT) frequently relies on biofilms for the removal of anthropogenic contaminants. The use of inert carrier materials to support biofilm development is often required, although under certain operating conditions microorganisms yield structures called granules, dense aggregates of self-immobilized cells with the characteristics of biofilms maintained in suspension. Molecular techniques have been successfully applied in recent years to identify the prokaryotic communities inhabiting biofilms in WWT plants. Although methanogenic Archaea are widely acknowledged as key players for the degradation of organic matter in anaerobic bioreactors, other biotechnological functions fulfilled by Archaea are less explored, and research on their significance and potential for WWT is largely needed. In addition, the occurrence of biofilms in WWT plants can sometimes be a source of operational problems. This is the case for membrane bioreactors (MBR), an advanced technology that combines conventional biological treatment with membrane filtration, which is strongly limited by biofouling, defined as the undesirable accumulation of microbial biofilms and other materials on membrane surfaces. The prevalence and spatial distribution of archaeal communities in biofilm-based WWT as well as their role in biofouling are reviewed here, in order to illustrate the significance of this prokaryotic cellular lineage in engineered environments devoted to WWT.
Highlights
Environmental Microbiology Group, Department of Microbiology, Faculty of Pharmacy, and Institute of Water Research, University of Granada, Campus de Cartuja s/n, Granada 18071, Environmental Microbiology Group, Department of Civil Engineering, and Institute of Water Research, University of Granada; Campus de Cartuja s/n, Granada 18071, Spain; Present address: INRA, UMR 1347 Agroecology, 17 rue Sully, Dijon 21000, France
This review aims to summarize the current knowledge on the characteristics of Archaea and the roles they play under the biofilm lifestyle in wastewater treatment (WWT) systems, with particular emphasis on their occurrence, diversity and attributed functions
Sekiguchi et al [58] analyzed a clone library representing the archaeal community in granules of two upflow anaerobic sludge bed (UASB) reactors fed synthetic wastewater and operated at 35 and 55 °C, and detected a similar composition of the methanogenic communities, composed mainly of Methanosaeta concilii, Methanosaeta thermophila and populations closely related to the Methanobacteriales
Summary
Archaea is one of the three domains of life distinguished by Carl Woese by phylogenetic analysis based on 16S rRNA genes [1] They are abundant and metabolically-diverse microorganisms which coexist with Bacteria and Eukarya in most Earth environments; they remain the least well known of the branches of the phylogenetic tree of life, despite the many efforts made to investigate their role in natural and engineered systems [2]. Their diversity remains rather unexplored, it has been estimated to be comparable to that observed for Bacteria [2]. This review aims to summarize the current knowledge on the characteristics of Archaea and the roles they play under the biofilm lifestyle in WWT systems, with particular emphasis on their occurrence, diversity and attributed functions
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