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http://dx.doi.org/10.5713/ajas.16.0429

Partial dehulling increases the energy content and nutrient digestibility of barley in growing pigs  

Wang, Hong Liang (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Shi, Meng (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Xu, Xiao (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Pan, Long (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Liu, Ling (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Piao, Xiang Shu (State Key Laboratory of Animal Nutrition, Ministry of Agriculture Feed Industry Centre, China Agricultural University)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.30, no.4, 2017 , pp. 562-568 More about this Journal
Abstract
Objective: The 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. Methods: Two 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 $BW=31.5{\pm}3.2kg$) 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. Results: The 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. Conclusion: The 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.
Keywords
Barley; Dehulling; Digestible Energy; Metabolizable Energy; Nutrient Digestibility; Pigs;
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1 Adeola O, Bedford MR. Exogenous dietary xylanase ameliorates viscosity-induced anti-nutritional effects in wheat based diets for White Pekin ducks (Anas platyrinchos domesticus). Br J Nutr 2004;92:87-94.   DOI
2 Patience JF, Thacker PA, de Lange CFM. Swine nutrition guide (2nd Ed.). Saskatoon, SK, Canada: Prairie Swine Centre; 1995. pp 65-67.
3 Wiseman J, Cole DJA, Lewis D. Energy values in pig nutrition. III. The digestible and metabolizable energy content of barley, wheat, maize, oats, and rye. J Agric Sci 1982;98:89-102.   DOI
4 Kennelly JJ, Aherne FX. The effect of fibre addition to diets formulated to contain different levels of energy and protein on growth and carcass quality of swine. Can J Anim Sci 1980;60:385-93.   DOI
5 Lawrence TLJ. Manipulation of the gut environment of pigs. In: Haresign W, Cole DJA, editors. Recent advances in animal nutrition. London: Butterworths; 1984. pp. 97-109.
6 NRC. Committee on Nutrient Requirements of Swine. Nutrient requirements of swine. 11th ed. Washington, DC: National Academy Press; 2012.
7 Newman CW, Newman RK. Nutritional aspects of barley as a livestock feed. Proc West Sec Am Soc Anim Sci 1990;41:99-107.
8 Bach Knudsen KE. Carbohydrate and lignin contents of plant materials used in animal feeding. Anim Feed Sci Technol 1997;67:319-38.   DOI
9 Fairbairn SL, Patience JF, Classen HL, Zijlstra RT. The energy content of barley fed to growing pigs: Characterizing the nature of its variability and developing prediction equations for its estimation. J Anim Sci 1999;77:1502-12.   DOI
10 Woyengo TA, Beltranena E, Zijlstra RT. Controlling feed cost by including alternative ingredients into pig diets: A review. J Anim Sci 2014;92:1293-305.   DOI
11 Statista. Global Grain Production from 2008/2009 to 2014/2015. 2015 [cited 2015 Nov 29]. Available from: http://www.statista.com/statistics/271943/total-world-grain-production-since-2008-2009
12 Xiong Y, Bartle SJ, Preston RL. Improved enzymatic method to measure processing effects and starch availability in sorghum grain. J Anim Sci 1990;68:3861-70.   DOI
13 Baik BK, Ullrich SE. Barley for food: Characteristics, improvement, and renewed interest. J Cereal Sci 2008;48:233-42.   DOI
14 Li P, Li DF, Zhang HY, et al. Determination and prediction of energy values in corn distillers dried grains with solubles sources with varying oil content for growing pigs. J Anim Sci 2015;93:3458-70.   DOI
15 Van Soest PJ, Robertson JB, Lewis BA. Methods for dietary fiber, neutral detergent fiber, and nonstarch polysaccharides in relation to animal nutrition. J Dairy Sci 1991;74:3583-97.   DOI
16 Prandini A, Sigolo S, Morlacchini M, Marocco A, Lo Pinto M. High-protein maize in diets for growing pigs. Anim Feed Sci Technol 2011;165:105-10.   DOI
17 Juskiw PE, Helm JH, Salmon DF. Breeding of feed grains for Western Canada. Am J Plant Sci Biotech 2011;5(Special Issue 1):64-77.
18 Henry RJ. A comparison of the non-starch carbohydrates in cereal grains. J Sci Food Agric 1985;36:1243-53.   DOI
19 Noblet J, Le Goff G. Effect of dietary fibre on the energy value of feeds for pigs. Anim Feed Sci Technol 2001;90:35-52.   DOI
20 Lynch MB, Sweeney I, Callan IJ, O'Doherty IV. Effects of increasing the intake of dietary ${\beta}$-glucans by exchanging wheat for barley on nutrient digestibility, nitrogen excretion, intestinal microflora, volatile fatty acid concentration and manure ammonia emissions in finishing pigs. Animal 2007;1:812-9.   DOI
21 Thacker PA, Rossnagel BG. Performance and carcass traits of finishing pigs fed low phosphorus containing diets based on normal hulled or hulless barley or a low-phytate hulless barley with and without phytase. J Anim Vet Adv 2006;5:401-7.
22 Jorgensen H, Gabert VM, Eggum BO. The nutritional value of high-lysine barley determined in rats, young pigs and growing pigs. J Sci Food Agric 1997;73:287-95.   DOI
23 Pedersen C, Boersma MG, Stein HH. Energy and nutrient digestibility in Nutri Dense corn and other cereal grains fed to growing pigs. J Anim Sci 2007;85:2473-83.   DOI
24 Cervantes-Pahm SK, Liu Y, Stein HH. Comparative digestibility of energy and nutrients and fermentability of dietary fiber in eight cereal grains fed to pigs. J Sci Food Agric 2014;94:841-9.   DOI
25 Lin FD, Knabe DA, Tanksley Jr TD. Apparent digestibility of amino acids, gross energy and starch in corn, sorghum, wheat, barley, oat groats and wheat middlings for growing pigs. J Anim Sci 1987;64:1655-63.   DOI
26 Qiao SY, Thacker PA. A comparison of washed and unwashed bags to determine the apparent fecal digestibility of dry matter, energy and crude protein in feeds for swine using the mobile nylon bag technique. Can J Anim Sci 2001;81:371-8.   DOI
27 Thacker PA. Effect of micronization on the performance of growing/finishing pigs fed diets based on hulled and hulless barley. Anim Feed Sci Technol 1999;79:29-41.   DOI
28 Hennig U, Kuhla S, Souffrant WB, Tuchscherer A, Metges CC. Partial dehulling of barley effects the concentrations of both gross and ileal digestible amino acids in pigs. Livest Sci 2007;109:129-31.   DOI
29 Thacker PA, Bell JM, Classen HL, Campbell GL, Rossnagel BG. The nutritive value of hulless barley for swine. Anim Feed Sci Technol 1988;19:191-6.   DOI
30 Bolarinwa OA, Adeola O. Regression and direct methods do not give different estimates of digestible and metabolizable energy values of barley, sorghum, and wheat for pigs. J Anim Sci 2016; 94:610-8.