2018 journal article

Apparent metabolizable energy of by-products from the soybean oil industry for broilers: acidulated soapstock, glycerin, lecithin, and their mixture

POULTRY SCIENCE, 97(1), 124–130.

By: L. Borsatti*, S. Vieira*, C. Stefanello*, L. Kindlein*, E. Oviedo-Rondon n & C. Angel*

co-author countries: Brazil 🇧🇷 United States of America 🇺🇸
author keywords: acidulated soybean soapstock; broiler; glycerol; lecithin; metabolizable energy
MeSH headings : Animal Feed / analysis; Animal Nutritional Physiological Phenomena / drug effects; Animals; Chickens / physiology; Diet / veterinary; Energy Intake; Energy Metabolism; Food Industry; Glycerol / metabolism; Lecithins / metabolism; Male; Random Allocation; Soybean Oil / metabolism
Source: Web Of Science
Added: August 6, 2018

A study was conducted to determine the AMEn contents of fat by-products from the soybean oil industry for broiler chickens. A total of 390 slow-feathering Cobb × Cobb 500 male broilers were randomly distributed into 13 treatments having 6 replicates of 5 birds each. Birds were fed a common starter diet from placement to 21 d. Experimental corn-soy diets were composed of four fat sources, added at 3 increasing levels each, and were fed from 21 to 28 d. Fat sources utilized were acidulated soybean soapstock (ASS), glycerol (GLY), lecithin (LEC), and a mixture (MIX) containing 85% ASS, 10% GLY and 5% LEC. A 4 × 3 + 1 factorial arrangement was used with 4 by-products (ASS, GLY, LEC, or MIX), 3 inclusion levels and 1 basal diet. Each of the four fat by-product sources was included in the diets as follow: 2% of by-products (98% basal + 2% by-product), 4% (96% basal + 4% by-product), or 6% (94% basal + 6% by-product). Birds were submitted to 94, 96, 98, and 100% of ad libitum feed intake; therefore, the differences in AMEn consumption were only due to the added by-product. Total excreta were collected twice daily for 72 h to determine apparent metabolizable energy contents starting at 25 d. The AMEn intake was regressed against feed intake and the slope was used to estimate AMEn values for each fat source. Linear regression equations (P < 0.05) estimated for each by-product were as follow: 7,153X – 451.9 for ASS; 3,916X – 68.2 for GLY; 7,051X – 448.3 for LEC, and 8,515X – 622.3 for MIX. Values of AMEn were 7,153, 3,916, 7,051, and 8,515 kcal/kg DM for ASS, GLY, LEC, and MIX, respectively. The present study generated AMEn for fat by-products data that can be used in poultry feed formulation. It also provides indications that, by adding the 3 by-products in the proportions present in the MIX, considerable economic advantage can be attained.