Combined Dietary Supplementation of Tenebrio molitor Larvae and Chitosan in Growing Pigs: A Pilot Study

Nowadays, the global animal industry faces considerable challenges in securing sufficient feed resources. Responding to consumer demands for reduced use of antibiotics in animal nutrition, better animal welfare status, and reduced impact on the environment, there is an increased urgency to develop i...

Full description

Saved in:
Bibliographic Details
Published in:Veterinary sciences 2024-02, Vol.11 (2), p.73
Main Authors: Zacharis, Christos, Bonos, Eleftherios, Voidarou, Chrysoula Chrysa, Magklaras, Georgios, Fotou, Konstantina, Giannenas, Ilias, Giavasis, Ioannis, Mitsagga, Chrysanthi, Athanassiou, Christos, Antonopoulou, Efthimia, Grigoriadou, Katerina, Tzora, Athina, Skoufos, Ioannis
Format: Article
Language:English
Subjects:
Amino acids
Animal nutrition
Animal welfare
Animals
Antibiotics
Cell number
chitin
Chitosan
Color
Crustaceans
Diet
Erythrocytes
Fatty acid composition
Fatty acids
Fecal microflora
Feed additives
Feeds
Food
health
Hogs
insect meal
insects
Intestinal microflora
Larvae
Livestock
Lymphocytes
Meals
Meat
Microbiota
Nutrition research
Phenolic compounds
Prebiotics
Proteins
Soybeans
swine
Tenebrio molitor
Weaning
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Nowadays, the global animal industry faces considerable challenges in securing sufficient feed resources. Responding to consumer demands for reduced use of antibiotics in animal nutrition, better animal welfare status, and reduced impact on the environment, there is an increased urgency to develop innovative functional feeds with a reduced environmental footprint and the ability to improve meat quality and safety. In an effort to explore innovative feed ingredients for growing pig diets, the combined dietary supplementation of larvae and chitosan was investigated. An experimental trial was performed with 48 weaned pigs (34 days of life; mixed sex) that were randomly assigned to four treatment groups (with six males and six females each): Group A (control), Group B (supplemented with larvae at 10%), Group C (supplemented with chitosan at 0.05%), and Group D (supplemented with both ingredients at 10% and 0.05%, respectively). On the 42nd day of the experimental trial, samples of blood, feces, and carcass parts were taken for analysis. The results indicated that the insect larvae meal significantly improved ( < 0.05) overall performance, increased ( < 0.05) blood red blood cell content, increased meat phenolic content ( < 0.05), improved meat oxidative stability ( < 0.05), and affected meat fatty acid profile ( < 0.05). On the other hand, chitosan had no significant effect on overall performance ( > 0.05), but it significantly increased blood lymphocyte content ( < 0.05), affected the fecal microbiota ( < 0.05), improved meat oxidative stability ( < 0.05), increased meat phenolic content ( < 0.05), and affected meat fatty acid composition ( < 0.05) and ( < 0.05) meat color. Finally, the combined use of both and chitosan significantly affected some important zootechnical parameters ( < 0.05), fecal microbial populations ( < 0.05), meat color ( < 0.05), and fatty acid profile ( < 0.05). Further investigation into the potential interaction between insect larvae meals and chitosan in pig diets is advised.
ISSN:2306-7381
2306-7381
DOI:10.3390/vetsci11020073