Palatability Enhancement Potential of Hermetia illucens Larvae Protein Hydrolysate in Litopenaeus vannamei Diets

Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydro...

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Published inMolecules (Basel, Switzerland) Vol. 26; no. 6; p. 1582
Main Authors Terrey, David, James, Jack, Tankovski, Ivan, Dalim, Monika, van Spankeren, Michel, Chakraborty, Arpita, Schmitt, Eric, Paul, Aman
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 13.03.2021
MDPI
Subjects
Amino acids
Amino Acids, Essential - analysis
Animal Feed - analysis
Animals
Aquaculture
Aquaculture - methods
Arthropod Proteins - chemistry
Communication
Conservation of Natural Resources
Crustaceans
Decapodiformes - chemistry
Diet
Dietary Proteins - chemistry
Diptera - chemistry
Euphausiacea - chemistry
Fatty acids
Food Preferences
free amino acids
Humans
insect
Insect Proteins - chemistry
Larva - chemistry
Litopenaeus vannamei
Omega-3 fatty acids
palatability
Penaeidae - growth & development
Penaeidae - physiology
Peptides
protein hydrolysate
Protein Hydrolysates - chemistry
Proteins
Shellfish
short chain peptides
Solubility
insect
Litopenaeus vannamei
protein hydrolysate
free amino acids
short chain peptides
palatability
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Abstract Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in Litopenaeus vannamei. Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A (p < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.
AbstractList Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in . Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A ( < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.
Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in Litopenaeus vannamei. Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A (p < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in Litopenaeus vannamei. Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A (p < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.
Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in Litopenaeus vannamei. Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A (p < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.
Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets. Increase in global demand for shrimps has resulted in overfishing of these marine organisms and is a matter of concern. Insect protein hydrolysate could be a sustainable alternative for the possible replacement of these marine feed ingredients. During this study, four formulations: diet A (control: not containing any palatability enhancer), diet B (containing squid meal and krill oil), diet C (containing 1% insect protein hydrolysate), and diet D (containing 2% insect protein hydrolysate) were tested for (1) time required by first subject to begin feeding (time to strike) and (2) palatability in Litopenaeus vannamei . Additionally, the chemical composition of all four diet formulations was also analyzed. Results indicate that all diets had similar crude composition. The major essential amino acids in all diets were leucine and lysine, whereas eicosapentaenoic acid was the major omega-3 fatty acid in all diets. There were no significant differences between the mean time to strike for all the tested formulations. Palatability of tested formulations was found in the following order: diet D > diet C > diet B = diet A ( p < 0.05), indicating that addition of squid meal and krill oil has no effect on palatability in comparison to control, whereas inclusion of insect protein hydrolysates significantly improves the palatability of formulations. Palatability enhancement potential of insect protein hydrolysate could be attributed to the high free amino acid content and water solubility in comparison to squid meal.
Author Dalim, Monika
Chakraborty, Arpita
Tankovski, Ivan
van Spankeren, Michel
James, Jack
Paul, Aman
Terrey, David
Schmitt, Eric
AuthorAffiliation 2 Protix B.V., 5107 NC Dongen, The Netherlands; monika.dalim@protix.eu (M.D.); Michel.vanspankeren@protix.eu (M.v.S.); arpita.chakraborty@protix.eu (A.C.); eric.schmitt@protix.eu (E.S.)
1 Pontus Research Limited, Hirwaun CF44 9UP, UK; det@pontusresearch.com (D.T.); jmj@pontusaqua.com (J.J.); ivt@pontusresearch.com (I.T.)
AuthorAffiliation_xml – name: 1 Pontus Research Limited, Hirwaun CF44 9UP, UK; det@pontusresearch.com (D.T.); jmj@pontusaqua.com (J.J.); ivt@pontusresearch.com (I.T.)
– name: 2 Protix B.V., 5107 NC Dongen, The Netherlands; monika.dalim@protix.eu (M.D.); Michel.vanspankeren@protix.eu (M.v.S.); arpita.chakraborty@protix.eu (A.C.); eric.schmitt@protix.eu (E.S.)
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– sequence: 3
  givenname: Ivan
  surname: Tankovski
  fullname: Tankovski, Ivan
– sequence: 4
  givenname: Monika
  surname: Dalim
  fullname: Dalim, Monika
– sequence: 5
  givenname: Michel
  surname: van Spankeren
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  surname: Chakraborty
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  fullname: Schmitt, Eric
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  givenname: Aman
  orcidid: 0000-0002-2720-8368
  surname: Paul
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/33805599$$D View this record in MEDLINE/PubMed
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Keywords insect
Litopenaeus vannamei
protein hydrolysate
free amino acids
short chain peptides
palatability
Language English
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Snippet Marine feed ingredients derived from cephalopods (e.g., squid) and crustaceans (e.g., krill) are commercially used to improve the palatability of shrimp diets....
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StartPage 1582
SubjectTerms Amino acids
Amino Acids, Essential - analysis
Animal Feed - analysis
Animals
Aquaculture
Aquaculture - methods
Arthropod Proteins - chemistry
Communication
Conservation of Natural Resources
Crustaceans
Decapodiformes - chemistry
Diet
Dietary Proteins - chemistry
Diptera - chemistry
Euphausiacea - chemistry
Fatty acids
Food Preferences
free amino acids
Humans
insect
Insect Proteins - chemistry
Larva - chemistry
Litopenaeus vannamei
Omega-3 fatty acids
palatability
Penaeidae - growth & development
Penaeidae - physiology
Peptides
protein hydrolysate
Protein Hydrolysates - chemistry
Proteins
Shellfish
short chain peptides
Solubility
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Title Palatability Enhancement Potential of Hermetia illucens Larvae Protein Hydrolysate in Litopenaeus vannamei Diets
URI https://www.ncbi.nlm.nih.gov/pubmed/33805599
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Volume 26
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