Kinetic and in vitro ruminal fermentation characteristics of copra meal diets with different fat levels

Talma Jordana Lima ,Pablo De Souza Castagnino ,Talita Almeida De Paula ,Izabelle Auxiliadora Molina De Almeida Teixeira ,Roger Beelen ,Patrícia Mendes Guimarães Beelen

doi:10.21708/avb.2017.11.1.6515

Talma Jordana Lima , Pablo De Souza Castagnino + Show 4 more

Open Access

https://doi.org/10.21708/avb.2017.11.1.6515

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Abstract

This study aimed at evaluating the chemical composition and in vitro ruminal characteristics of diets using copra meal with different fat contents. Three levels of copra meal inclusion (10, 20 and 30%) and two levels of fat (high-fat copra meal – HFCM and low-fat copra meal – LFCM) were used in replacement of soybean meal. The addition of copra meal increased EE and reduced CP and NFC of diets, especially when HFCM was included. Treatments with the inclusion of 30% copra meal had a higher colonization time (L), independently of fat content. The maximum gas production was reduced from 59.06 to 39.21 mL/g DM with the addition of HFCM, but was not affected when diets contained LFCM. Digestibility was also reduced with the addition of copra meal, the highest reduction being with the addition of 30% copra meal. Copra meal inclusion has reduced the ammonia concentration from 29.75 mg/100 mL (control diet) to 17.05 mg/100 mL (30% copra meal) but did not affect significantly methane production. Copra meal impacts the chemical composition and ruminal fermentation characteristics of diets, especially when containing high oil content.

Highlights

Copra meal is a byproduct of the coconut industry that can be used as a cheap source of nutrients, compared to those normally used, to supply part of the requirements of animal diets.Meals obtained after oil extraction can have a varied nutritional composition based on the industrial process utilized for extraction
This study aimed at evaluating the chemical composition and in vitro ruminal characteristics of diets using copra meal with different fat contents
The objective of this study was to evaluate the chemical composition and estimate the kinetic and in vitro ruminal fermentation characteristics of diets where soybean meal was replaced by copra meals containing different levels of fat

Summary

Introduction

Copra meal is a byproduct of the coconut industry that can be used as a cheap source of nutrients, compared to those normally used, to supply part of the requirements of animal diets. Meals obtained after oil extraction can have a varied nutritional composition based on the industrial process utilized for extraction. If the industrial oil extraction process is not efficient, high quantities of coconut oil can stay in copra meal and influence the ruminal fermentation of this ingredient. A reduction in methane production can be obtained when refined coconut oil is used in diets (JORDAN et al, 2006; JORDAN et al, 2007; MACHMÜLLER; KREUZER, 1999). The objective of this study was to evaluate the chemical composition and estimate the kinetic and in vitro ruminal fermentation characteristics of diets where soybean meal was replaced by copra meals containing different levels of fat

Objectives

Methods

Results