Abstract
ObjectiveThe hull attached to the barley kernel can be mechanically removed thus reducing the fiber content of the barley. This experiment was carried out to evaluate the effects of partial dehulling on the nutrient digestibility as well as the digestible energy (DE) and metabolizable energy (ME) content of barley in pigs.MethodsTwo hulled barley samples (high fiber barley [HF] and low fiber barley [LF]) with either high or low fiber contents were obtained from the Hubei and Jiangsu Provinces of China. A portion of the two barleys was mechanically dehulled (dehulled high fiber barley [DHF] and dehulled low fiber barley [DLF]). Thirty barrows (initial BW = 31.5±3.2 kg) were assigned to one of five diets in a randomized complete block design. The five diets consisted of 96.9% corn, HF, LF, DHF, or DLF supplemented with 3.1% minerals and vitamins. Each diet was fed to six barrows housed in individual metabolism crates for a 10-d acclimation period followed by a 5-day total but separate collection of feces and urine.ResultsThe daily loss of gross energy (GE) in feces was lower (p<0.01) for pigs fed DHF than for those fed HF. The daily N intake and fecal N loss were lowest (p<0.01) for pigs fed the corn diet. The DE and ME as well as the apparent total tract digestibility (ATTD) of dry matter, GE, organic matter, neutral detergent fiber (NDF) and acid detergent fiber (ADF) of DHF or DLF were higher (p<0.01) than the values in HF and LF, respectively while the values except the ATTD of NDF and ADF in DLF were higher (p<0.01) than the values in DHF and were comparable to corn.ConclusionThe DE and ME contents as well as the ATTD of nutrients in both DHF and DLF barley were improved compared with the HF and LF barley. Moreover, the nutritive value of DLF barley was comparable to the yellow-dent corn used in the study.
Highlights
Barley (Hordeum vulgare L.) is a common feedstuff used in many countries in Europe as well as Canada, the United States and Australia
Partial dehulling on chemical composition Analyzed dry matter (DM), total starch, neutral detergent fiber (NDF), acid detergent fiber (ADF), Total dietary fiber (TDF), insoluble dietary fiber (IDF), crude protein (CP), ether extract (EE), ash, calcium and total phosphorous of the corn used in this experiment were 87.73%, 73.22%, 9.34%, 2.05%, 11.99%, 9.45%, 11.44%, 3.97%, 1.51%, 0.02%, and 0.29%, respectively (Table 2)
Analyzed DM, total starch, NDF, ADF, TDF, IDF, CP, EE, ash, Ca and total phosphorous of the DHF barley used in the experiment were 89.71%, 51.90%, 24.80%, 4.15%, 19.00%, 10.13%, 16.28%, 2.79%, 2.16%, 0.02%, and 0.35%
Summary
Barley (Hordeum vulgare L.) is a common feedstuff used in many countries in Europe as well as Canada, the United States and Australia. Total global production is around 140 million tons per year [1], which ranks 4th in terms of volume after maize, rice, and wheat. Two-thirds of the global barley crop is used for animal feed, one third for malting and brewing of beer and whiskey and about 2% is used directly for food [2]. During the last few years, the high cost of ingredients such as corn has resulted in a significant increase in the cost of producing swine. Alternative ingredients are being evaluated and increasing amounts of barley are being incorporated into swine diets as a result of the price advantage of barley over corn and wheat. Barley is a suitable ingredient for inclusion in swine diets and is used primarily as an energy source [3]. Barley fiber contains mixed linked β-glucans in addition to arabinoxylans and cellulose and is more fermentable www.ajas.info
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