%V 7
%O Biological Research Centre, Institute of Plant Biology, Hungarian Academy of Sciences, Szeged, Hungary            
            Department of Biotechnology, University of Szeged, Szeged, Hungary            
            Faculty of Water Sciences, National University of Public Service, Baja, Hungary            
            Faculty of Agricultural and Economics Studies, Szent IstvĂĄn University, Szarvas, Hungary            
            Raw Molecular Systems LLC, Spokane, WA, United States            
            Crop and Soil Sciences, Washington State University, Pullman, WA, United States            
            Plant Pathology, Washington State University, Pullman, WA, United States            
            Australian Centre for Astrobiology, University of New South Wales, Sydney, NSW, Australia            
            Cited By :1            
            Export Date: 23 August 2019            
            Correspondence Address: MarĂłti, G.; Biological Research Centre, Institute of Plant Biology, Hungarian Academy of SciencesHungary; email: maroti.gergely@brc.mta.hu
%J Frontiers in Energy Research
%T Exploitation of Algal-Bacterial Consortia in Combined Biohydrogen Generation and Wastewater Treatment
%L publicatio16945
%A  Shetty Prateek
%A  Boboescu Iulian Z.
%A  Pap Bernadett
%A  Wirth Roland
%A  KovĂĄcs KornĂŠl Lajos
%A  BĂ­rĂł Tibor
%A  FutĂł ZoltĂĄn
%A  White Richard A.
%A  MarĂłti Gergely
%X Microalgae cultivation in municipal, industrial, and agricultural wastewater is an emerging, highly effective approach for resource recovery and concomitant bioenergy generation. Wastewater effluents represent ideal sources of nutrients (especially nitrogen and phosphorous) for eukaryotic green algal species. However, the recovery performance of photosynthetic green algae is strongly dependent on the associated bacterial partners present in the effluents. Algal microbiome is a pivotal part of the algae holobiont and has a key role in modulating algal growth and functions in nature. There has been no comprehensive study on the importance of microbial communities supporting the algal hosts for the bulk of the time wastewater treatment methods have been in use. Our proposed approach applies a green microalgae-based photoheterotrophic degradation using dark fermentation effluent as substrate. The results showed that condition-dependent mutualistic relationships between the microbial and Chlorella algae populations had direct impact on the biodegradation efficiency and also on algal biohydrogen production. The genome level analysis of the novel hybrid biodegradation system provided important clues for the primary importance of the green algae partner in nitrogen and phosphorous removal. With further development and optimization this new approach can lead to a highly efficient simultaneous organic waste mitigation and renewable energy production technology.
%P Terjedelem: 13 p-AzonosĂ­tĂł: 52
%D 2019
%R MTMT:30735102 10.3389/fenrg.2019.00052
%I szte