Bioconversion of fish-wastes biomass into a fish meal alternate for European seabass (Dicentrarchus labrax) diets
The effect of replacing fish meal (FM) in juvenile European seabass (Dicentrarchus labrax) diets with fish wastes (FW) and fermented FW (FFW) by marine fungus Beauveria bassiana was investigated. Seven diets were prepared: control (CTRL) and six diets containing either FW or FFW to substitute FM at...
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| Veröffentlicht in: | International aquatic research 2020-03, Vol.12 (1), p.40 |
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| description | The effect of replacing fish meal (FM) in juvenile European seabass (Dicentrarchus labrax) diets with fish wastes (FW) and fermented FW (FFW) by marine fungus Beauveria bassiana was investigated. Seven diets were prepared: control (CTRL) and six diets containing either FW or FFW to substitute FM at 15, 30 and 45% (FW15/FFW15, FW30/FFW30 and FW45/FFW45 each in turn). Fish (initial weight Ca. 30 g) were reared for 90 days in 21 PVC tanks (3 m3) and fed to apparent visual satiation. The recorded values for growth, feed utilization efficiency, survival rate and amino acids composition of fish fed either FW or FFW diets, at all tested levels, are not significantly different relative to those values of control group. Carcass protein content was not influenced by diet, but lipid content of FW45 and FFW45-fed fish showed a significant elevation relative to that of other fish groups. Blood parameters indicate an improvement in general health status and both liver and kidney function of FW-fed fish up to 30% FM replacement level, relative to those of CTRL and FFW-fish. Fish fed the FW-diets showed higher fungal and acid fermentative bacterial counts and lower count of Vibrio spp. and coliform, suggesting better gut health as compared to FFW-fed fish. These results indicate that 30% of dietary FM can be replaced with FW meal without adverse effects on fish growth performance, feed utilization, general health status or intestinal microbiome and fermentation with B. bassiana has some negative influence on gut integrity at 45% FM substitution level. |
| doi_str_mv | 10.22034/iar(20).2020.671145 |
| format | Article |
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Seven diets were prepared: control (CTRL) and six diets containing either FW or FFW to substitute FM at 15, 30 and 45% (FW15/FFW15, FW30/FFW30 and FW45/FFW45 each in turn). Fish (initial weight Ca. 30 g) were reared for 90 days in 21 PVC tanks (3 m3) and fed to apparent visual satiation. The recorded values for growth, feed utilization efficiency, survival rate and amino acids composition of fish fed either FW or FFW diets, at all tested levels, are not significantly different relative to those values of control group. Carcass protein content was not influenced by diet, but lipid content of FW45 and FFW45-fed fish showed a significant elevation relative to that of other fish groups. Blood parameters indicate an improvement in general health status and both liver and kidney function of FW-fed fish up to 30% FM replacement level, relative to those of CTRL and FFW-fish. Fish fed the FW-diets showed higher fungal and acid fermentative bacterial counts and lower count of Vibrio spp. and coliform, suggesting better gut health as compared to FFW-fed fish. These results indicate that 30% of dietary FM can be replaced with FW meal without adverse effects on fish growth performance, feed utilization, general health status or intestinal microbiome and fermentation with B. bassiana has some negative influence on gut integrity at 45% FM substitution level.</description><identifier>ISSN: 2008-4935</identifier><identifier>EISSN: 2008-6970</identifier><identifier>DOI: 10.22034/iar(20).2020.671145</identifier><language>eng</language><publisher>Tonekabon: Islamic Azad University, Tonekabon Branch, Vali abad</publisher><subject>Amino acids ; Bioconversion ; Biomass ; Carcasses ; Coliforms ; Dicentrarchus labrax ; Diet ; Digestive system ; Enzymes ; Fatty acids ; Feed conversion ; Feeds ; Fermentation ; Fish ; Fish hatcheries ; Fish meal ; Fish wastes ; Fisheries ; Fishmeal ; Fungi ; Gastrointestinal tract ; Intestinal flora ; Juveniles ; Laboratories ; Lipids ; Marine fishes ; Meals ; Microbiomes ; Nutrition research ; Oceanography ; Peptides ; Proteins ; Replacement level ; Satiety ; Survival ; Tanks ; Tilapia ; Wastes</subject><ispartof>International aquatic research, 2020-03, Vol.12 (1), p.40</ispartof><rights>2020. 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Seven diets were prepared: control (CTRL) and six diets containing either FW or FFW to substitute FM at 15, 30 and 45% (FW15/FFW15, FW30/FFW30 and FW45/FFW45 each in turn). Fish (initial weight Ca. 30 g) were reared for 90 days in 21 PVC tanks (3 m3) and fed to apparent visual satiation. The recorded values for growth, feed utilization efficiency, survival rate and amino acids composition of fish fed either FW or FFW diets, at all tested levels, are not significantly different relative to those values of control group. Carcass protein content was not influenced by diet, but lipid content of FW45 and FFW45-fed fish showed a significant elevation relative to that of other fish groups. Blood parameters indicate an improvement in general health status and both liver and kidney function of FW-fed fish up to 30% FM replacement level, relative to those of CTRL and FFW-fish. Fish fed the FW-diets showed higher fungal and acid fermentative bacterial counts and lower count of Vibrio spp. and coliform, suggesting better gut health as compared to FFW-fed fish. 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Seven diets were prepared: control (CTRL) and six diets containing either FW or FFW to substitute FM at 15, 30 and 45% (FW15/FFW15, FW30/FFW30 and FW45/FFW45 each in turn). Fish (initial weight Ca. 30 g) were reared for 90 days in 21 PVC tanks (3 m3) and fed to apparent visual satiation. The recorded values for growth, feed utilization efficiency, survival rate and amino acids composition of fish fed either FW or FFW diets, at all tested levels, are not significantly different relative to those values of control group. Carcass protein content was not influenced by diet, but lipid content of FW45 and FFW45-fed fish showed a significant elevation relative to that of other fish groups. Blood parameters indicate an improvement in general health status and both liver and kidney function of FW-fed fish up to 30% FM replacement level, relative to those of CTRL and FFW-fish. Fish fed the FW-diets showed higher fungal and acid fermentative bacterial counts and lower count of Vibrio spp. and coliform, suggesting better gut health as compared to FFW-fed fish. These results indicate that 30% of dietary FM can be replaced with FW meal without adverse effects on fish growth performance, feed utilization, general health status or intestinal microbiome and fermentation with B. bassiana has some negative influence on gut integrity at 45% FM substitution level.</abstract><cop>Tonekabon</cop><pub>Islamic Azad University, Tonekabon Branch, Vali abad</pub><doi>10.22034/iar(20).2020.671145</doi><oa>free_for_read</oa></addata></record> |
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| identifier | ISSN: 2008-4935 |
| ispartof | International aquatic research, 2020-03, Vol.12 (1), p.40 |
| issn | 2008-4935 2008-6970 |
| language | eng |
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| source | EZB-FREE-00999 freely available EZB journals |
| subjects | Amino acids Bioconversion Biomass Carcasses Coliforms Dicentrarchus labrax Diet Digestive system Enzymes Fatty acids Feed conversion Feeds Fermentation Fish Fish hatcheries Fish meal Fish wastes Fisheries Fishmeal Fungi Gastrointestinal tract Intestinal flora Juveniles Laboratories Lipids Marine fishes Meals Microbiomes Nutrition research Oceanography Peptides Proteins Replacement level Satiety Survival Tanks Tilapia Wastes |
| title | Bioconversion of fish-wastes biomass into a fish meal alternate for European seabass (Dicentrarchus labrax) diets |
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