Evaluation of the Associative Effects of Rice Straw with Timothy Hay and Corn Grain Using an In Vitro Ruminal Gas Production Technique.

Ling Sun,Seoyoung Jeon,Seongwon Seo,Mingyung Lee

doi:10.3390/ani10020325

Ling Sun, Seoyoung Jeon + Show 2 more

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https://doi.org/10.3390/ani10020325

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Abstract

Simple SummaryRice straw is a widely used forage source for ruminants in most Asian countries; thus, it is important to accurately estimate its nutritional value. Rice straw is typically fed to the animals along with other ingredients, and the associative effects of the combined ingredients may alter the nutritional value of rice straw. We found associative effects on the ruminal fermentability (gas production kinetics and rumen parameters), especially when rice straw was co-fermented with timothy hay and corn grain. We conclude that the nutritional value of rice straw increases when used with timothy hay and corn grain, due to the associative effects among feeds, which should be considered in diet formulations.The objective of this study was to evaluate the associative effects of rice straw with timothy hay and corn grain. Using an automated gas production system, in vitro ruminal fermentation was studied for six substrates: 100% rice straw, 100% timothy hay, 100% corn grain, 50% rice straw and 50% timothy hay, 50% rice straw and 50% corn grain, and 50% rice straw, 25% timothy hay, and 25% corn grain. Incubation was performed in three batches with different rumen fluids to assess the in vitro ruminal gas production kinetics and rumen parameters (pH, NH3-N, volatile fatty acid (VFA), and true dry matter digestibility (TDMD)). The associated effects were tested by comparing the observed values of the composited feeds and the weighted means of individual feeds. There was a significant increase in NH3-N when rice straw was fermented with timothy hay, corn grain, or both (p < 0.05). TDMD increased when corn grain was co-fermented, and the total gas and VFA production increased when all three feeds were co-fermented. We conclude that the feed value of rice straw increases when fed to animals along with timothy hay and corn grain.

Highlights

Ration formulation is a mixture of individual feed ingredients, and the metabolizable energy (ME) and net energy (NE) of the ration are assumed to be the sum of the individual ingredients.This assumes that the ME and NE values of the individual ingredients do not change when mixed with other feed products
The true dry matter digestibility (TDMD) was highest for corn grain and higher for timothy hay than for rice straw (p < 0.05)
Sun et al [13] reported positive associative effects for the in vitro gas, total volatile fatty acid (VFA), and microbial protein production when alfalfa hay was fermented with corn silage. These results suggest that the combination of rice straw, timothy hay, and corn increases the NFCs from corn grain and the fermentable cellulose and hemicellulose from timothy hay, which influences the rumen microorganisms and fermentation environment and produces more fermentable substances to increase the total VFA

Summary

Introduction

Ration formulation is a mixture of individual feed ingredients, and the metabolizable energy (ME) and net energy (NE) of the ration are assumed to be the sum of the individual ingredients. This assumes that the ME and NE values of the individual ingredients do not change when mixed with other feed products. Some studies have documented associative effects among feed ingredients [1,2,3], defined as interactions between the ration components that alter the nutritional value of the individual ingredients [4]. Associative effects may be an important factor in ruminant rations, as interactions among these ingredients could

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