The effect of dietary protein source (fishmeal vs. plant protein) and non‐starch polysaccharide level on fat digestibility and faecal bile acid loss in rainbow trout (Oncorhynchus mykiss)

Thomas W O Staessen,Marc C J Verdegem,Johan W Schrama,Paraskevi Koletsi

doi:10.1111/are.14467

Thomas W O Staessen, Marc C J Verdegem + Show 2 more

Open Access

https://doi.org/10.1111/are.14467

Copy DOI

Journal: Aquaculture Research	Publication Date: Dec 29, 2019
Citations: 28	License type: CC BY 4.0

Affiliation: Wageningen University & Research

Abstract

This study investigated in rainbow trout (Oncorhynchus mykiss) if diet composition and feeding level affect faecal bile acid loss, and whether this reflects on the apparent digestibility coefficient (ADC) of fat. Six diets were formulated with either fishmeal or plant protein as main protein source. This created a contrast in the supply of bile acids, the bile acid precursor cholesterol, taurine and the taurine precursors (methionine + cysteine) involved in bile acid conjugation. For both protein sources, three diets were formulated with increasing inclusion of a non-starch polysaccharide (NSP)-rich ingredient mixture (0.0, 82.0 and 164.2 g/kg diet). This aimed at enhancing faecal bile acid loss. Fish were fed both restrictively (1.2% BW/day) and to satiation. A similar fat ADC was found when substituting fishmeal with a plant protein mixture, suggesting that the lower content of bile acids, cholesterol, taurine, methionine and cysteine in the plant-based diets did not limit fat digestion. Faecal bile acid loss increased alongside dietary NSP level, however, only during satiation feeding and most strongly for fish fed the fishmeal-based diets. Enhanced faecal bile acid loss was not caused by NSP-bile acid binding/entrapment, but by an increase in faeces production. During satiation feeding, fat ADC negatively correlated with faecal bile acid loss. From this it is concluded that bile acid availability/synthesis can become limiting for fat digestion in rainbow trout under conditions that enhance faecal bile acid loss (i.e. dietary NSP level and feeding level).

Highlights

Faecal non-starch polysaccharide (NSP) content increased alongside dietary NSP level (p < .001), and during satiation feeding this increase was more pronounced for fish fed the FM diets (p < .05)
The interaction effect between feeding level and NSP level indicates that the observed increase in faecal bile acid loss alongside dietary NSP level was stronger during satiation feeding compared to restricted feeding (p < .05)
protein source (PS) had an effect on faecal bile acid loss during satiation feeding, showing higher faecal bile acid losses for fish fed the FM diets compared with the PB diets (p < .01)

Summary

Methods

The Animal Welfare Body of Wageningen University approved this experiment and evaluated it as not being an animal experiment according to Dutch legislation (Act on Animal Experiments).All experimental diets were formulated to meet known nutrient requirements of rainbow trout (Oncorhynchus mykiss) according to the National Research Council (NRC, 2011). A small amount of salmon oil was added to the plant protein mixture to compensate for the fish oil present in fishmeal, and to meet n-3 LC-PUFA’s requirements in the PB diets. Three diets were formulated in which an increasing part of wheat feed flour was replaced with an NSP-rich ingredient mixture (0% NSP, 8% NSP and 16% NSP). This NSP-rich ingredient mixture was added to enhance faecal bile acid loss. After one week of acclimatization to ambient air in the laboratory, diets and faeces were analysed for dry matter content (DM), ash, minerals (calcium, phosphorous and yttrium), crude protein, crude fat, starch + sugars, energy, bile acid content and cholesterol content. Starch + sugars was measured as described above, leaving out the washing step with 40% ethanol

Results

Discussion

Conclusion