Rumen Fermentation of Feed Mixtures Supplemented with Clay Minerals in a Semicontinuous In Vitro System.

Zahia Amanzougarene,Manuel Fondevila

doi:10.3390/ani12030345

Abstract

Simple SummaryMineral clays are included in the diets of ruminants to maintain health and improve productive performances. The inclusion of several types of mineral clay (zeolite, Z; bentonite, B; and sepiolite, S) in diets with different concentrate-to-forage proportions (65:35, HC, and 35:65, HF) was tested in vitro. In HC diets, the effect of Z manifested in a higher pH in the first part of fermentation, which can be related to a more stable rumen environment. The extent of substrate fermentation was lowest with S when added to the HC diet but was lowest with B when added to the HF diet. The response of the rumen environmental conditions and the extent of fermentation depends on the interaction between the type of clay and the proportion of concentrate and forage in an animal’s diet.Interest in using clays in the diets of ruminants to improve health and performance is increasing. The microbial fermentation of 65:35 (HC) or 35:65 (HF) concentrate:forage feeds, alone or with zeolite (Z), bentonite (B), or sepiolite (S), was studied in an in vitro semicontinuous culture system. The medium pH was allowed to drop for the first 6 h and was gradually buffered thereafter. For the HC diet, the medium pH was higher with Z throughout incubation (p < 0.05). Similar results were observed for the HF diet, but with lower differences between the additives. Throughout incubation, the volume of gas produced was higher with HC than HF (p < 0.05). The gas volume with S was the lowest (p < 0.05) for HC, whereas for HF it was lowest with B from 8 h onwards (p < 0.05). No treatment differences (p > 0.05) were observed in dry matter disappearance, microbial mass, or volatile fatty acids. However, the inclusion of B in HC reduced the ammonia concentration at 6 and 12 h with respect to C (p < 0.05). The inclusion of zeolite as an additive in the diets of ruminants stabilizes the rumen environment during the first stages of fermentation in terms of pH and ammonia concentration, especially in high-concentrate diets. The buffering effect of bentonite and sepiolite was lower, and both might reduce ruminal microbial fermentation, depending on the concentrate proportion.

Highlights

Several clays are commonly used as technological additives in feed manufacturing as binder and anticaking agents [1], as well as mycotoxin binders [2,3], for improving feed quality, and for enhancing the nutritive value of animal diets
Feed mixtures were supplemented with three different clay sources, which were added at a proportion of 10 mg/g of total substrate
The results obtained in this work with natural zeolite agree with those observed in the in vivo study realized by Khachlouf et al [9], who found that the inclusion of zeolite at a moderate level in the diets of dairy cows increased the ruminal pH, this effect was reversed with a higher supplementation level

Summary

Introduction

Several clays are commonly used as technological additives in feed manufacturing as binder and anticaking agents [1], as well as mycotoxin binders [2,3], for improving feed quality, and for enhancing the nutritive value of animal diets In ruminants, these natural feed additives have been proposed as buffers and osmoregulators to minimize the risk of impaired rumen fermentation promoted by high-energy, grainbased diets that may cause digestive disorders that would negatively affect animal health and productivity [4,5,6]. Among these clays, the most widely used are natural zeolite (clinoptilolite), bentonite, and sepiolite. Some studies have concluded that it has negative or no effects on milk yield, and the lower milk performance has been associated with a decrease in intake and digestibility [10,11]

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