Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility

Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility

This study investigated the effect of extrusion on digestibility of different blends containing Hermetia illucens (HI) larvae or prepupae. Five blends of HI larvae or prepupae and wheat flour, in a ratio of 25:75, with or without sunflower oil addition, have been formulated as follows: prepupae + wh...

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Main Authors: Matteo Ottoboni, Thomas Spranghers, Luciano Pinotti, Antonella Baldi, Wesley De Jaeghere, Mia Eeckhout
Format: Article
Language:English
Published: Taylor & Francis Group 2018-04-01
Series:Italian Journal of Animal Science
Subjects:
extrusion
insect material
black soldier fly
digestibility
Online Access:http://dx.doi.org/10.1080/1828051X.2017.1372698
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spelling doaj-080e93a83cf641daa80f02c717697e542020-11-25T02:04:20ZengTaylor & Francis GroupItalian Journal of Animal Science1594-40771828-051X2018-04-0117241842710.1080/1828051X.2017.13726981372698Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibilityMatteo Ottoboni0Thomas Spranghers1Luciano Pinotti2Antonella Baldi3Wesley De Jaeghere4Mia Eeckhout5Università degli Studi di MilanoUniversiteit GentUniversità degli Studi di MilanoUniversità degli Studi di MilanoUniversiteit GentUniversiteit GentThis study investigated the effect of extrusion on digestibility of different blends containing Hermetia illucens (HI) larvae or prepupae. Five blends of HI larvae or prepupae and wheat flour, in a ratio of 25:75, with or without sunflower oil addition, have been formulated as follows: prepupae + wheat (no oil); prepupae + wheat (low oil); prepupae + wheat (medium oil); prepupae + wheat (high oil); larvae + wheat (no oil). Ether extract (EE) content in different blend was 31.5, 38.9, 46.3, 53.7 and 46.27 g kg−1 on wet basis (wb), respectively. Blends were homogeneous for moisture (238.9 g kg−1) and crude protein (112.6 g kg−1 wb). Feed blends were extruded by a co-rotating, conical twin-screw mini extruder and net torque value (NTV) was recorded as indicator of extrudability. The best performing blend was furtherly tested at four barrel temperatures (60, 70, 80 and 90 °C). In vitro organic matter digestibility (OMD) and in vitro crude protein digestibility (CPD) were measured to evaluate the effect of extrusion process on nutritional value. Increasing the blend EE content up to 53.74 g kg−1 wb, NTV was reduced by four times (<100 Ncm) compared to 31.5 and 38.9 g kg−1 wb EE blends. The best performing mixture was larvae + wheat (no oil). Extrusion process increased OMD but not CPD compared to unextruded control, while different extrusion temperature did not affect OMD nor CPD. Concluding, extrusion can contribute to increase OMD in insect containing feed blends. EE content in the blends is a key variable that should be defined in the process.http://dx.doi.org/10.1080/1828051X.2017.1372698extrusioninsect materialblack soldier flydigestibility
collection DOAJ
language English
format Article
sources DOAJ
author Matteo Ottoboni
Thomas Spranghers
Luciano Pinotti
Antonella Baldi
Wesley De Jaeghere
Mia Eeckhout
spellingShingle Matteo Ottoboni
Thomas Spranghers
Luciano Pinotti
Antonella Baldi
Wesley De Jaeghere
Mia Eeckhout
Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
Italian Journal of Animal Science
extrusion
insect material
black soldier fly
digestibility
author_facet Matteo Ottoboni
Thomas Spranghers
Luciano Pinotti
Antonella Baldi
Wesley De Jaeghere
Mia Eeckhout
author_sort Matteo Ottoboni
title Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
title_short Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
title_full Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
title_fullStr Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
title_full_unstemmed Inclusion of Hermetia Illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
title_sort inclusion of hermetia illucens larvae or prepupae in an experimental extruded feed: process optimisation and impact on in vitro digestibility
publisher Taylor & Francis Group
series Italian Journal of Animal Science
issn 1594-4077
1828-051X
publishDate 2018-04-01
description This study investigated the effect of extrusion on digestibility of different blends containing Hermetia illucens (HI) larvae or prepupae. Five blends of HI larvae or prepupae and wheat flour, in a ratio of 25:75, with or without sunflower oil addition, have been formulated as follows: prepupae + wheat (no oil); prepupae + wheat (low oil); prepupae + wheat (medium oil); prepupae + wheat (high oil); larvae + wheat (no oil). Ether extract (EE) content in different blend was 31.5, 38.9, 46.3, 53.7 and 46.27 g kg−1 on wet basis (wb), respectively. Blends were homogeneous for moisture (238.9 g kg−1) and crude protein (112.6 g kg−1 wb). Feed blends were extruded by a co-rotating, conical twin-screw mini extruder and net torque value (NTV) was recorded as indicator of extrudability. The best performing blend was furtherly tested at four barrel temperatures (60, 70, 80 and 90 °C). In vitro organic matter digestibility (OMD) and in vitro crude protein digestibility (CPD) were measured to evaluate the effect of extrusion process on nutritional value. Increasing the blend EE content up to 53.74 g kg−1 wb, NTV was reduced by four times (<100 Ncm) compared to 31.5 and 38.9 g kg−1 wb EE blends. The best performing mixture was larvae + wheat (no oil). Extrusion process increased OMD but not CPD compared to unextruded control, while different extrusion temperature did not affect OMD nor CPD. Concluding, extrusion can contribute to increase OMD in insect containing feed blends. EE content in the blends is a key variable that should be defined in the process.
topic extrusion
insect material
black soldier fly
digestibility
url http://dx.doi.org/10.1080/1828051X.2017.1372698
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AT thomasspranghers inclusionofhermetiaillucenslarvaeorprepupaeinanexperimentalextrudedfeedprocessoptimisationandimpactoninvitrodigestibility
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AT wesleydejaeghere inclusionofhermetiaillucenslarvaeorprepupaeinanexperimentalextrudedfeedprocessoptimisationandimpactoninvitrodigestibility
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