Mixed culture purple phototrophic bacteria is an effective fishmeal replacement in aquaculture

Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal derived from capture fisheries, which must be reduced for continued sustainable growth. Purple phototrophic bacteria (PPB) efficiently yield...

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Published inWater research X Vol. 4; p. 100031
Main Authors Delamare-Deboutteville, Jérôme, Batstone, Damien J, Kawasaki, Minami, Stegman, Samuel, Salini, Michael, Tabrett, Simon, Smullen, Richard, Barnes, Andrew C, Hülsen, Tim
Format Journal Article
LanguageEnglish
Published England Elsevier 01.08.2019
Subjects
Single cell protein
Fishmeal
Photobioreactor
Purple phototrophic bacteria
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Abstract Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal derived from capture fisheries, which must be reduced for continued sustainable growth. Purple phototrophic bacteria (PPB) efficiently yield biomass from wastewater with high product homogeneity, a relatively high protein fraction, and potential added value as an ingredient for fish feeds. Here we test bulk replacement of fishmeal with PPB microbial biomass in diets for Asian sea bass ( ), a high value carnivorous fish with high protein to energy requirement. Mixed culture PPB were grown in a novel 1 m attached photo-biofilm process using synthetic and real wastewater. Four experimental diets were formulated to commercial specifications but with the fishmeal substituted (0%, 33%, 66%, and 100%) with the synthetic grown PPB biomass and fed to a cohort of 540 juvenile fish divided amongst 12 tanks over 47 days. Weight and standard length were taken from individual fish at 18, 28, and 47d. No significant difference in survival was observed due to diet or other factors (94-100%). There was a negative correlation between PPB inclusion level and final weight (  = 5.94 × 10 ) with diet accounting for 4.1% of the variance over the trial (general linear model, R  = 0.96,  = 1 × 10 ). Feed conversion ratio was also significantly influenced by diet (  = 6 × 10 ) with this factor accounting for 89% of variance. Specifically, feed conversion ratio (FCR) rose to 1.5 for the 100% replacement diet during the last sample period, approximately 1.0 for the partial replacement, and 0.8 for the nil replacement diet. However, this study demonstrates that bulk replacement of fishmeal by PPB is feasible, and commercially viable at 33% and 66% replacement.
AbstractList Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal derived from capture fisheries, which must be reduced for continued sustainable growth. Purple phototrophic bacteria (PPB) efficiently yield biomass from wastewater with high product homogeneity, a relatively high protein fraction, and potential added value as an ingredient for fish feeds. Here we test bulk replacement of fishmeal with PPB microbial biomass in diets for Asian sea bass (Lates calcarifer), a high value carnivorous fish with high protein to energy requirement. Mixed culture PPB were grown in a novel 1 m3 attached photo-biofilm process using synthetic and real wastewater. Four experimental diets were formulated to commercial specifications but with the fishmeal substituted (0%, 33%, 66%, and 100%) with the synthetic grown PPB biomass and fed to a cohort of 540 juvenile fish divided amongst 12 tanks over 47 days. Weight and standard length were taken from individual fish at 18, 28, and 47d. No significant difference in survival was observed due to diet or other factors (94–100%). There was a negative correlation between PPB inclusion level and final weight (p = 5.94 × 10−5) with diet accounting for 4.1% of the variance over the trial (general linear model, R2 = 0.96, p = 1 × 10−6). Feed conversion ratio was also significantly influenced by diet (p = 6 × 10−7) with this factor accounting for 89% of variance. Specifically, feed conversion ratio (FCR) rose to 1.5 for the 100% replacement diet during the last sample period, approximately 1.0 for the partial replacement, and 0.8 for the nil replacement diet. However, this study demonstrates that bulk replacement of fishmeal by PPB is feasible, and commercially viable at 33% and 66% replacement. Keywords: Fishmeal, Photobioreactor, Purple phototrophic bacteria, Single cell protein
Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal derived from capture fisheries, which must be reduced for continued sustainable growth. Purple phototrophic bacteria (PPB) efficiently yield biomass from wastewater with high product homogeneity, a relatively high protein fraction, and potential added value as an ingredient for fish feeds. Here we test bulk replacement of fishmeal with PPB microbial biomass in diets for Asian sea bass ( ), a high value carnivorous fish with high protein to energy requirement. Mixed culture PPB were grown in a novel 1 m attached photo-biofilm process using synthetic and real wastewater. Four experimental diets were formulated to commercial specifications but with the fishmeal substituted (0%, 33%, 66%, and 100%) with the synthetic grown PPB biomass and fed to a cohort of 540 juvenile fish divided amongst 12 tanks over 47 days. Weight and standard length were taken from individual fish at 18, 28, and 47d. No significant difference in survival was observed due to diet or other factors (94-100%). There was a negative correlation between PPB inclusion level and final weight (  = 5.94 × 10 ) with diet accounting for 4.1% of the variance over the trial (general linear model, R  = 0.96,  = 1 × 10 ). Feed conversion ratio was also significantly influenced by diet (  = 6 × 10 ) with this factor accounting for 89% of variance. Specifically, feed conversion ratio (FCR) rose to 1.5 for the 100% replacement diet during the last sample period, approximately 1.0 for the partial replacement, and 0.8 for the nil replacement diet. However, this study demonstrates that bulk replacement of fishmeal by PPB is feasible, and commercially viable at 33% and 66% replacement.
Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal derived from capture fisheries, which must be reduced for continued sustainable growth. Purple phototrophic bacteria (PPB) efficiently yield biomass from wastewater with high product homogeneity, a relatively high protein fraction, and potential added value as an ingredient for fish feeds. Here we test bulk replacement of fishmeal with PPB microbial biomass in diets for Asian sea bass ( Lates calcarifer ), a high value carnivorous fish with high protein to energy requirement. Mixed culture PPB were grown in a novel 1 m 3 attached photo-biofilm process using synthetic and real wastewater. Four experimental diets were formulated to commercial specifications but with the fishmeal substituted (0%, 33%, 66%, and 100%) with the synthetic grown PPB biomass and fed to a cohort of 540 juvenile fish divided amongst 12 tanks over 47 days. Weight and standard length were taken from individual fish at 18, 28, and 47d. No significant difference in survival was observed due to diet or other factors (94–100%). There was a negative correlation between PPB inclusion level and final weight ( p  = 5.94 × 10 −5 ) with diet accounting for 4.1% of the variance over the trial (general linear model, R 2  = 0.96, p  = 1 × 10 −6 ). Feed conversion ratio was also significantly influenced by diet ( p  = 6 × 10 −7 ) with this factor accounting for 89% of variance. Specifically, feed conversion ratio (FCR) rose to 1.5 for the 100% replacement diet during the last sample period, approximately 1.0 for the partial replacement, and 0.8 for the nil replacement diet. However, this study demonstrates that bulk replacement of fishmeal by PPB is feasible, and commercially viable at 33% and 66% replacement. Image 1 • Purple phototrophic bacteria (PPB) were produced as a biofilm for harvesting and consistency. • PPB an effective bulk replacement for fishmeal for Barramundi at 66% substitution. • No change in mortality at all substitution rates. • Dose-response decrease in fish weight and yield for increased substitution rate.
ArticleNumber 100031
Author Salini, Michael
Smullen, Richard
Batstone, Damien J
Tabrett, Simon
Delamare-Deboutteville, Jérôme
Stegman, Samuel
Hülsen, Tim
Kawasaki, Minami
Barnes, Andrew C
AuthorAffiliation c Ridley Aqua-Feed Pty Ltd, PO Box 187, Deception Bay, 4504, Queensland, Australia
a Advanced Water Management Centree, The University of Queensland, Brisbane, Queensland, 4072, Australia
b School of Biological Sciences and Centre for Marine Science, The University of Queensland, Brisbane, Queensland, 4072, Australia
AuthorAffiliation_xml – name: a Advanced Water Management Centree, The University of Queensland, Brisbane, Queensland, 4072, Australia
– name: c Ridley Aqua-Feed Pty Ltd, PO Box 187, Deception Bay, 4504, Queensland, Australia
– name: b School of Biological Sciences and Centre for Marine Science, The University of Queensland, Brisbane, Queensland, 4072, Australia
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  surname: Delamare-Deboutteville
  fullname: Delamare-Deboutteville, Jérôme
  organization: School of Biological Sciences and Centre for Marine Science, The University of Queensland, Brisbane, Queensland, 4072, Australia
– sequence: 2
  givenname: Damien J
  surname: Batstone
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  organization: Advanced Water Management Centree, The University of Queensland, Brisbane, Queensland, 4072, Australia
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  organization: School of Biological Sciences and Centre for Marine Science, The University of Queensland, Brisbane, Queensland, 4072, Australia
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  givenname: Samuel
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  fullname: Stegman, Samuel
  organization: Advanced Water Management Centree, The University of Queensland, Brisbane, Queensland, 4072, Australia
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  organization: Ridley Aqua-Feed Pty Ltd, PO Box 187, Deception Bay, 4504, Queensland, Australia
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  givenname: Richard
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  fullname: Smullen, Richard
  organization: Ridley Aqua-Feed Pty Ltd, PO Box 187, Deception Bay, 4504, Queensland, Australia
– sequence: 8
  givenname: Andrew C
  surname: Barnes
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  givenname: Tim
  surname: Hülsen
  fullname: Hülsen, Tim
  organization: Advanced Water Management Centree, The University of Queensland, Brisbane, Queensland, 4072, Australia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31334494$$D View this record in MEDLINE/PubMed
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Keywords Single cell protein
Fishmeal
Photobioreactor
Purple phototrophic bacteria
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Snippet Aquaculture is the fastest growing animal food production industry, now producing 50% of all food fish. However, aquaculture feeds remain dependent on fishmeal...
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Title Mixed culture purple phototrophic bacteria is an effective fishmeal replacement in aquaculture
URI https://www.ncbi.nlm.nih.gov/pubmed/31334494
https://search.proquest.com/docview/2264215531
https://pubmed.ncbi.nlm.nih.gov/PMC6614599
https://doaj.org/article/63117bfaf5d24d1eb6d2cece7ea90b2d
Volume 4
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