A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds

A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds

The human population is growing and, globally, we must meet the challenge of increased protein needs required to feed this population. Single cell proteins (SCP), when coupled to aquaculture production, offer a means to ensure future protein needs can be met without direct competition with food for...

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Bibliographic Details
Main Authors: Michael Tlusty, Andrew Rhyne, Joseph T. Szczebak, Bradford Bourque, Jennifer L. Bowen, Gary Burr, Christopher J. Marx, Lawrence Feinberg
Format: Article
Language:English
Published: PeerJ Inc. 2017-04-01
Series:PeerJ
Subjects:
Biotechnology
Aquaculture
Single cell protein
Shrimp
Salmon
Methylotrophs
Online Access:https://peerj.com/articles/3170.pdf
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spelling doaj-3df5df3573364e6c8ac7804f22991be02020-11-25T00:30:05ZengPeerJ Inc.PeerJ2167-83592017-04-015e317010.7717/peerj.3170A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeedsMichael Tlusty0Andrew Rhyne1Joseph T. Szczebak2Bradford Bourque3Jennifer L. Bowen4Gary Burr5Christopher J. Marx6Lawrence Feinberg7Anderson Cabot Center for Ocean Life at the New England Aquarium, New England Aquarium, Boston, MA, United StatesAnderson Cabot Center for Ocean Life at the New England Aquarium, New England Aquarium, Boston, MA, United StatesDepartment of Biology and Marine Biology, Roger Williams University, Bristol, Rhode Island, United StatesDepartment of Arts and Sciences, Roger Williams University, Bristol, RI, United StatesNortheastern University, Nahant, MA, United StatesNational Cold Water Marine Aquaculture Center, USDA ARS, Franklin, ME, United StatesKnipBio Inc., Lowell, MA, United StatesKnipBio Inc., Lowell, MA, United StatesThe human population is growing and, globally, we must meet the challenge of increased protein needs required to feed this population. Single cell proteins (SCP), when coupled to aquaculture production, offer a means to ensure future protein needs can be met without direct competition with food for people. To demonstrate a given type of SCP has potential as a protein source for use in aquaculture feed, a number of steps need to be validated including demonstrating that the SCP is accepted by the species in question, leads to equivalent survival and growth, does not result in illness or other maladies, is palatable to the consumer, is cost effective to produce and can easily be incorporated into diets using existing technology. Here we examine white shrimp (Litopenaeus vannamei) growth and consumer taste preference, smallmouth grunt (Haemulon chrysargyreum) growth, survival, health and gut microbiota, and Atlantic salmon (Salmo salar) digestibility when fed diets that substitute the bacterium Methylobacterium extorquens at a level of 30% (grunts), 100% (shrimp), or 55% (salmon) of the fishmeal in a compound feed. In each of these tests, animals performed equivalently when fed diets containing M. extorquens as when fed a standard aquaculture diet. This transdisciplinary approach is a first validation of this bacterium as a potential SCP protein substitute in aquafeeds. Given the ease to produce this SCP through an aerobic fermentation process, the broad applicability for use in aquaculture indicates the promise of M. extorquens in leading toward greater food security in the future.https://peerj.com/articles/3170.pdfBiotechnologyAquacultureSingle cell proteinShrimpSalmonMethylotrophs
collection DOAJ
language English
format Article
sources DOAJ
author Michael Tlusty
Andrew Rhyne
Joseph T. Szczebak
Bradford Bourque
Jennifer L. Bowen
Gary Burr
Christopher J. Marx
Lawrence Feinberg
spellingShingle Michael Tlusty
Andrew Rhyne
Joseph T. Szczebak
Bradford Bourque
Jennifer L. Bowen
Gary Burr
Christopher J. Marx
Lawrence Feinberg
A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
PeerJ
Biotechnology
Aquaculture
Single cell protein
Shrimp
Salmon
Methylotrophs
author_facet Michael Tlusty
Andrew Rhyne
Joseph T. Szczebak
Bradford Bourque
Jennifer L. Bowen
Gary Burr
Christopher J. Marx
Lawrence Feinberg
author_sort Michael Tlusty
title A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
title_short A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
title_full A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
title_fullStr A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
title_full_unstemmed A transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
title_sort transdisciplinary approach to the initial validation of a single cell protein as an alternative protein source for use in aquafeeds
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2017-04-01
description The human population is growing and, globally, we must meet the challenge of increased protein needs required to feed this population. Single cell proteins (SCP), when coupled to aquaculture production, offer a means to ensure future protein needs can be met without direct competition with food for people. To demonstrate a given type of SCP has potential as a protein source for use in aquaculture feed, a number of steps need to be validated including demonstrating that the SCP is accepted by the species in question, leads to equivalent survival and growth, does not result in illness or other maladies, is palatable to the consumer, is cost effective to produce and can easily be incorporated into diets using existing technology. Here we examine white shrimp (Litopenaeus vannamei) growth and consumer taste preference, smallmouth grunt (Haemulon chrysargyreum) growth, survival, health and gut microbiota, and Atlantic salmon (Salmo salar) digestibility when fed diets that substitute the bacterium Methylobacterium extorquens at a level of 30% (grunts), 100% (shrimp), or 55% (salmon) of the fishmeal in a compound feed. In each of these tests, animals performed equivalently when fed diets containing M. extorquens as when fed a standard aquaculture diet. This transdisciplinary approach is a first validation of this bacterium as a potential SCP protein substitute in aquafeeds. Given the ease to produce this SCP through an aerobic fermentation process, the broad applicability for use in aquaculture indicates the promise of M. extorquens in leading toward greater food security in the future.
topic Biotechnology
Aquaculture
Single cell protein
Shrimp
Salmon
Methylotrophs
url https://peerj.com/articles/3170.pdf
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