Animals (Aug 2022)

Effects of Decreasing Fishmeal as Main Source of Protein on Growth, Digestive Physiology, and Gut Microbiota of Olive Flounder (<i>Paralichthys olivaceus</i>)

  • Bong-Seung Seo,
  • Su-Jin Park,
  • So-Yeon Hwang,
  • Ye-In Lee,
  • Seung-Han Lee,
  • Sang-Woo Hur,
  • Kyeong-Jun Lee,
  • Taek-Jeong Nam,
  • Jin-Woo Song,
  • Jae-Sig Kim,
  • Won-Je Jang,
  • Youn-Hee Choi

DOI
https://doi.org/10.3390/ani12162043
Journal volume & issue
Vol. 12, no. 16
p. 2043

Abstract

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In olive flounder (Paralichthys olivaceus), growth performance, expression of growth-related factors, digestive physiology, and gut microbiota were assessed under farm conditions in the fish fed diets with low levels of fishmeal. Four experimental diets were prepared, FM70 [control (CON), 70% fishmeal], FM45 (45% fishmeal), FM35A (35% fishmeal), and FM35B (35% fishmeal + insect meal), and fed to the fish for five months. The CON-fed fish had the highest plasma GH, but IGF-1 and hepatic IGF-1 mRNA expression of the olive flounder fed diets with low-fishmeal levels did not significantly differ among diets. The intestinal villus length, muscular thickness, and the number of goblet cells were statistically similar, and ocular examination of hepatopancreas showed no discernable difference in all experimental diets. The chymotrypsin content of FM35B-fed fish is significantly lower, but trypsin and lipase contents are similar. The diversity of gut microbiota did not differ among groups, although the FM35B group had a higher composition of Firmicutes. Thus, a diet with reduced fishmeal content and several alternative protein sources can be used as feed ingredients in feed formulation for olive flounder reared under typical aquaculture farm conditions.

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