Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)

This study assessed the capacity of non-transgenic (NTG) and growth-hormone transgenic (TG; gene construct EO-1α) Atlantic salmon (. Salmo salar L.), comprised of conventional diploid (DIP) and reproductively-sterile triploid (TRIP) fish, to utilize a diet containing relatively high amounts of plant...

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Published in:Aquaculture
Main Authors: Ganga, R., Tibbetts, S. M., Wall, C. L., Plouffe, D. A., Bryenton, M. D., Peters, A. R., Runighan, C. D., Buchanan, J. T., Lall, S. P.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2015
Subjects:
artificial diet
digestibility
feeding
genetically modified organism
growth rate
hormone
ploidy
protein
salmonid culture
weight
Salmo salar
Atlantic salmon
Online Access:https://doi.org/10.1016/j.aquaculture.2015.05.010
https://nrc-publications.canada.ca/eng/view/object/?id=ddfcedd2-eb57-437a-8a8c-ecfb86346ed4
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spelling ftnrccanada:oai:cisti-icist.nrc-cnrc.ca:cistinparc:21275779 2023-05-15T15:30:54+02:00 Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.) Ganga, R. Tibbetts, S. M. Wall, C. L. Plouffe, D. A. Bryenton, M. D. Peters, A. R. Runighan, C. D. Buchanan, J. T. Lall, S. P. 2015 text https://doi.org/10.1016/j.aquaculture.2015.05.010 https://nrc-publications.canada.ca/eng/view/object/?id=ddfcedd2-eb57-437a-8a8c-ecfb86346ed4 https://nrc-publications.canada.ca/fra/voir/objet/?id=ddfcedd2-eb57-437a-8a8c-ecfb86346ed4 eng eng Elsevier issn:0044-8486 Aquaculture, Volume: 446, Publication date: 2015, Pages: 272–282 doi:10.1016/j.aquaculture.2015.05.010 artificial diet digestibility feeding genetically modified organism growth rate hormone ploidy protein salmonid culture weight Salmo salar article 2015 ftnrccanada https://doi.org/10.1016/j.aquaculture.2015.05.010 2021-09-01T06:28:39Z This study assessed the capacity of non-transgenic (NTG) and growth-hormone transgenic (TG; gene construct EO-1α) Atlantic salmon (. Salmo salar L.), comprised of conventional diploid (DIP) and reproductively-sterile triploid (TRIP) fish, to utilize a diet containing relatively high amounts of plant protein (PP) concomitant with lower levels of fish meal (FM) protein. Triplicate groups of full-sibling NTG/DIP, NTG/TRIP, TG/DIP and TG/TRIP salmon (initial weight, 27-35. g) were held in freshwater and fed two experimental diets until they exceeded 400% growth. Two isonitrogenous (50% crude protein), isolipidic (21% lipid) and isoenergetic (22. MJ/kg gross energy) experimental diets were tested. The control diet (FM) contained 64 and 36%, while PP diet contained 32 and 68% of total dietary protein from FM and PP, respectively. TG and NTG fish achieved the target (>. 150. g) weight in 89 and 206. days, respectively. TG fish exhibited significantly higher specific growth rates (SGR) (2.48 vs 0.7%/day) and thermal growth coefficient (TGC) (3.04 vs 0.79) than NTG, regardless of ploidy or diet. TG/TRIP fish had significantly lower growth rates than DIP due to lower feed intake, while no ploidy effect was observed within the NTG group. Feed conversion ratio (FCR) was significantly better in TG/DIP and TG/TRIP fish having achieved the same target weight with 20-25% less feed due to improved protein utilization and retention efficiency compared to NTG fish. NTG fish had higher digestibility of protein (93% vs 89%), lipid (95% vs 94%) and energy (89% vs 85%) relative to their TG siblings, and was similar between DIP and TRIP fish. Nutrients' digestibility was significantly lower in TG fish fed PP diet than those fed FM diet, regardless of ploidy. At the end of the study, TG fish had significantly lower whole-body protein (56% vs 59%) and higher lipid (36% vs 34%) and energy (2746 vs 2694. kJ/100. g) content than NTG fish. However, as a result of the rapid growth rate and efficient feed utilization, nutrient gain and retention efficiencies were significantly higher in TG than NTG fish. DIP and TRIP TG Atlantic salmon have the ability to maintain accelerated growth even when fed a high PP diet (68% of dietary protein), which may have important benefits for the production of growth hormone transgenic Atlantic salmon. Statement of relevance: The results from the present study are innovative and may have important benefits for the optimization and production of growth hormone transgenic Atlantic salmon using sustainable feed ingredients. Peer reviewed: Yes NRC publication: Yes Article in Journal/Newspaper Atlantic salmon Salmo salar National Research Council Canada: NRC Publications Archive Aquaculture 446 272 282
institution Open Polar
collection National Research Council Canada: NRC Publications Archive
op_collection_id ftnrccanada
language English
topic artificial diet
digestibility
feeding
genetically modified organism
growth rate
hormone
ploidy
protein
salmonid culture
weight
Salmo salar
spellingShingle artificial diet
digestibility
feeding
genetically modified organism
growth rate
hormone
ploidy
protein
salmonid culture
weight
Salmo salar
Ganga, R.
Tibbetts, S. M.
Wall, C. L.
Plouffe, D. A.
Bryenton, M. D.
Peters, A. R.
Runighan, C. D.
Buchanan, J. T.
Lall, S. P.
Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
topic_facet artificial diet
digestibility
feeding
genetically modified organism
growth rate
hormone
ploidy
protein
salmonid culture
weight
Salmo salar
description This study assessed the capacity of non-transgenic (NTG) and growth-hormone transgenic (TG; gene construct EO-1α) Atlantic salmon (. Salmo salar L.), comprised of conventional diploid (DIP) and reproductively-sterile triploid (TRIP) fish, to utilize a diet containing relatively high amounts of plant protein (PP) concomitant with lower levels of fish meal (FM) protein. Triplicate groups of full-sibling NTG/DIP, NTG/TRIP, TG/DIP and TG/TRIP salmon (initial weight, 27-35. g) were held in freshwater and fed two experimental diets until they exceeded 400% growth. Two isonitrogenous (50% crude protein), isolipidic (21% lipid) and isoenergetic (22. MJ/kg gross energy) experimental diets were tested. The control diet (FM) contained 64 and 36%, while PP diet contained 32 and 68% of total dietary protein from FM and PP, respectively. TG and NTG fish achieved the target (>. 150. g) weight in 89 and 206. days, respectively. TG fish exhibited significantly higher specific growth rates (SGR) (2.48 vs 0.7%/day) and thermal growth coefficient (TGC) (3.04 vs 0.79) than NTG, regardless of ploidy or diet. TG/TRIP fish had significantly lower growth rates than DIP due to lower feed intake, while no ploidy effect was observed within the NTG group. Feed conversion ratio (FCR) was significantly better in TG/DIP and TG/TRIP fish having achieved the same target weight with 20-25% less feed due to improved protein utilization and retention efficiency compared to NTG fish. NTG fish had higher digestibility of protein (93% vs 89%), lipid (95% vs 94%) and energy (89% vs 85%) relative to their TG siblings, and was similar between DIP and TRIP fish. Nutrients' digestibility was significantly lower in TG fish fed PP diet than those fed FM diet, regardless of ploidy. At the end of the study, TG fish had significantly lower whole-body protein (56% vs 59%) and higher lipid (36% vs 34%) and energy (2746 vs 2694. kJ/100. g) content than NTG fish. However, as a result of the rapid growth rate and efficient feed utilization, nutrient gain and retention efficiencies were significantly higher in TG than NTG fish. DIP and TRIP TG Atlantic salmon have the ability to maintain accelerated growth even when fed a high PP diet (68% of dietary protein), which may have important benefits for the production of growth hormone transgenic Atlantic salmon. Statement of relevance: The results from the present study are innovative and may have important benefits for the optimization and production of growth hormone transgenic Atlantic salmon using sustainable feed ingredients. Peer reviewed: Yes NRC publication: Yes
format Article in Journal/Newspaper
author Ganga, R.
Tibbetts, S. M.
Wall, C. L.
Plouffe, D. A.
Bryenton, M. D.
Peters, A. R.
Runighan, C. D.
Buchanan, J. T.
Lall, S. P.
author_facet Ganga, R.
Tibbetts, S. M.
Wall, C. L.
Plouffe, D. A.
Bryenton, M. D.
Peters, A. R.
Runighan, C. D.
Buchanan, J. T.
Lall, S. P.
author_sort Ganga, R.
title Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
title_short Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
title_full Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
title_fullStr Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
title_full_unstemmed Influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid Atlantic salmon (Salmo salar L.)
title_sort influence of feeding a high plant protein diet on growth and nutrient utilization to combined 'all-fish' growth-hormone transgenic diploid and triploid atlantic salmon (salmo salar l.)
publisher Elsevier
publishDate 2015
url https://doi.org/10.1016/j.aquaculture.2015.05.010
https://nrc-publications.canada.ca/eng/view/object/?id=ddfcedd2-eb57-437a-8a8c-ecfb86346ed4
https://nrc-publications.canada.ca/fra/voir/objet/?id=ddfcedd2-eb57-437a-8a8c-ecfb86346ed4
genre Atlantic salmon
Salmo salar
genre_facet Atlantic salmon
Salmo salar
op_relation issn:0044-8486
Aquaculture, Volume: 446, Publication date: 2015, Pages: 272–282
doi:10.1016/j.aquaculture.2015.05.010
op_doi https://doi.org/10.1016/j.aquaculture.2015.05.010
container_title Aquaculture
container_volume 446
container_start_page 272
op_container_end_page 282
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