Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture

Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture

Biofloc technology (BFT) is an alternative aquaculture practice that involves the manipulation of carbon-nitrogen ratio (C:N) to manage nitrogenous waste through microbial assimilation. This study aimed to determine the composition of the microbial community present in BFT and describe the microbial community’s response to C:N manipulation. The experiment had a complete randomized design with two set-ups (i.e., BFT and control) in triplicates. The experimental unit was a 120-L rectangular tank stocked with 15 mixed-sex tilapia fish, Oreochromis niloticus, with an average weight of 15±3 g. The C:N was adjusted to 16:1 using molasses. Illumina MiSeq sequencing platform was used, and bioinformatics was conducted in R using dada2 and phyloseq package. Seventeen (17) phyla were identified, but only seven were remarkably abundant, namely: Proteobacteria, Bacteroidetes, Firmicutes, Actinobacteria, Verrucomicrobia, Planctomycetes, and Fusobacteria. Double Principal Coordinates Analysis (DPCoA), Principal Coordinate Analysis (PCoA) of Weighted Unifrac Distance and Canonical Correspondence Analysis (CCoA) revealed an association of Proteobacteria to low ammonia concentration in BFT treatment. On the other hand, phylum Bacteroidetes was clustered towards the control, characterized by high ammonia. Overall, BFT has increased Shannon and Simpson diversity indices compared to the control. Regime change in the microbial community was not easily caused by organic C supplementation because of community robustness to withstand biotic and abiotic disturbances. Controlled laboratory experiment showed that some bacteria species proliferate as a response to C:N manipulation, but established species remained dominant.

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Main Authors: Tanay, Dennis D., Abella, Tesero T., Vera Cruz, Emmanuel M., Sace, Chito F., Fajardo, Lorenz J., Velasco, Ravelina R., Abucay, Jose S.
Format: Journal Contribution biblioteca
Language:English
Published: 2020
Subjects:Proteobacteria, Bacteroides, microbial community, tilapia, ASFA_2015::M::Microbial activity, ASFA_2015::A::Aquaculture,
Online Access:http://hdl.handle.net/1834/41831
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spelling dig-aquadocs-1834-418312022-01-31T01:58:05Z Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture Tanay, Dennis D. Abella, Tesero T. Vera Cruz, Emmanuel M. Sace, Chito F. Fajardo, Lorenz J. Velasco, Ravelina R. Abucay, Jose S. Proteobacteria Bacteroides microbial community tilapia ASFA_2015::M::Microbial activity ASFA_2015::A::Aquaculture Biofloc technology (BFT) is an alternative aquaculture practice that involves the manipulation of carbon-nitrogen ratio (C:N) to manage nitrogenous waste through microbial assimilation. This study aimed to determine the composition of the microbial community present in BFT and describe the microbial community’s response to C:N manipulation. The experiment had a complete randomized design with two set-ups (i.e., BFT and control) in triplicates. The experimental unit was a 120-L rectangular tank stocked with 15 mixed-sex tilapia fish, Oreochromis niloticus, with an average weight of 15±3 g. The C:N was adjusted to 16:1 using molasses. Illumina MiSeq sequencing platform was used, and bioinformatics was conducted in R using dada2 and phyloseq package. Seventeen (17) phyla were identified, but only seven were remarkably abundant, namely: Proteobacteria, Bacteroidetes, Firmicutes, Actinobacteria, Verrucomicrobia, Planctomycetes, and Fusobacteria. Double Principal Coordinates Analysis (DPCoA), Principal Coordinate Analysis (PCoA) of Weighted Unifrac Distance and Canonical Correspondence Analysis (CCoA) revealed an association of Proteobacteria to low ammonia concentration in BFT treatment. On the other hand, phylum Bacteroidetes was clustered towards the control, characterized by high ammonia. Overall, BFT has increased Shannon and Simpson diversity indices compared to the control. Regime change in the microbial community was not easily caused by organic C supplementation because of community robustness to withstand biotic and abiotic disturbances. Controlled laboratory experiment showed that some bacteria species proliferate as a response to C:N manipulation, but established species remained dominant. Published Refereed 2022-01-30T20:09:45Z 2022-01-30T20:09:45Z 2020 Journal Contribution http://hdl.handle.net/1834/41831 en http://www.nfrdi.da.gov.ph/tpjf/vol27_2/pp193-207.php Attribution-NonCommercial 4.0 International http://creativecommons.org/licenses/by-nc/4.0/ 193-207
institution UNESCO
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-aquadocs
tag biblioteca
region Europa del Oeste
libraryname Repositorio AQUADOCS
language English
topic Proteobacteria
Bacteroides
microbial community
tilapia
ASFA_2015::M::Microbial activity
ASFA_2015::A::Aquaculture
Proteobacteria
Bacteroides
microbial community
tilapia
ASFA_2015::M::Microbial activity
ASFA_2015::A::Aquaculture
spellingShingle Proteobacteria
Bacteroides
microbial community
tilapia
ASFA_2015::M::Microbial activity
ASFA_2015::A::Aquaculture
Proteobacteria
Bacteroides
microbial community
tilapia
ASFA_2015::M::Microbial activity
ASFA_2015::A::Aquaculture
Tanay, Dennis D.
Abella, Tesero T.
Vera Cruz, Emmanuel M.
Sace, Chito F.
Fajardo, Lorenz J.
Velasco, Ravelina R.
Abucay, Jose S.
Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
description Biofloc technology (BFT) is an alternative aquaculture practice that involves the manipulation of carbon-nitrogen ratio (C:N) to manage nitrogenous waste through microbial assimilation. This study aimed to determine the composition of the microbial community present in BFT and describe the microbial community’s response to C:N manipulation. The experiment had a complete randomized design with two set-ups (i.e., BFT and control) in triplicates. The experimental unit was a 120-L rectangular tank stocked with 15 mixed-sex tilapia fish, Oreochromis niloticus, with an average weight of 15±3 g. The C:N was adjusted to 16:1 using molasses. Illumina MiSeq sequencing platform was used, and bioinformatics was conducted in R using dada2 and phyloseq package. Seventeen (17) phyla were identified, but only seven were remarkably abundant, namely: Proteobacteria, Bacteroidetes, Firmicutes, Actinobacteria, Verrucomicrobia, Planctomycetes, and Fusobacteria. Double Principal Coordinates Analysis (DPCoA), Principal Coordinate Analysis (PCoA) of Weighted Unifrac Distance and Canonical Correspondence Analysis (CCoA) revealed an association of Proteobacteria to low ammonia concentration in BFT treatment. On the other hand, phylum Bacteroidetes was clustered towards the control, characterized by high ammonia. Overall, BFT has increased Shannon and Simpson diversity indices compared to the control. Regime change in the microbial community was not easily caused by organic C supplementation because of community robustness to withstand biotic and abiotic disturbances. Controlled laboratory experiment showed that some bacteria species proliferate as a response to C:N manipulation, but established species remained dominant.
format Journal Contribution
topic_facet Proteobacteria
Bacteroides
microbial community
tilapia
ASFA_2015::M::Microbial activity
ASFA_2015::A::Aquaculture
author Tanay, Dennis D.
Abella, Tesero T.
Vera Cruz, Emmanuel M.
Sace, Chito F.
Fajardo, Lorenz J.
Velasco, Ravelina R.
Abucay, Jose S.
author_facet Tanay, Dennis D.
Abella, Tesero T.
Vera Cruz, Emmanuel M.
Sace, Chito F.
Fajardo, Lorenz J.
Velasco, Ravelina R.
Abucay, Jose S.
author_sort Tanay, Dennis D.
title Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
title_short Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
title_full Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
title_fullStr Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
title_full_unstemmed Microbial Community Response to Carbon-Nitrogen Ratio Manipulation in Biofloc Culture
title_sort microbial community response to carbon-nitrogen ratio manipulation in biofloc culture
publishDate 2020
url http://hdl.handle.net/1834/41831
work_keys_str_mv AT tanaydennisd microbialcommunityresponsetocarbonnitrogenratiomanipulationinbioflocculture
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AT sacechitof microbialcommunityresponsetocarbonnitrogenratiomanipulationinbioflocculture
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