In vitro evaluation of the fermentation characteristics of the carbohydrate fractions of hulless barley and other cereals in the gastrointestinal tract of pigs

Jha, Rajesh; Bindelle, Jérôme; Rossnagel, Brian; Van Kessel, Andrew; Leterme, Pascal

doi:10.1016/j.anifeedsci.2010.10.006

Article (Scientific journals)

In vitro evaluation of the fermentation characteristics of the carbohydrate fractions of hulless barley and other cereals in the gastrointestinal tract of pigs

Jha, Rajesh; Bindelle, Jérôme; Rossnagel, Brian et al.

2011 • In Animal Feed Science and Technology, 163, p. 185-193

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/76552

DOI
10.1016/j.anifeedsci.2010.10.006

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Keywords :

Hulless barley; NSP; β-glucan; In vitro fermentation; pig intestines

Abstract :

[en] An in vitro model was used to study the fermentation characteristics of carbohydrate fractions of hulless barley (hB), in comparison to hulled barley (HB), hulled oat and oat groats (OG) in the pig intestine. For this purpose, 6 hulless barley cultivars (hB), varying in β-glucan content (36-99 g/kg DM), were compared to 3 HB cultivars, 2 oat groat samples (OG), 3 oat varieties and a reference sample of wheat. The residue of a pepsin-pancreatin hydrolysis was incubated in a buffered mineral solution inoculated with pig faeces. Gas production, proportional to the amount of fermented carbohydrates, was measured for 48 h and kinetics modelled. The fermented solution was subsequently analyzed for microbial production of short-chain fatty acids (SCFA) and ammonia. In vitro dry matter degradability varied according to ingredient (P<0.001). Higher values were observed for OG, ranging from 0.88 to 0.99 as compared to oat, hB and HB, for which degradability ranged from 0.63 to 0.73, 0.68 to 0.80 and 0.69 to 0.71, respectively. A “cereal type” effect (P<0.05) was observed on fermentation kinetics parameters. Total gas production was higher (P<0.05) with hB (224 ml/g DM incubated) than with HB and oat (188 and 55 ml/g DM incubated, respectively). No difference was observed between hB cultivars (P>0.05) for total gas production but differences (P<0.001) were found for lag time and the fractional rate of degradation. Hulless barley cultivar CDC Fibar (waxy starch) and CDC McGwire (normal starch) started to ferment sooner (lag time of 0.7 and 0.9 h, respectively) than SH99250 (high amylose starch; 1.7 h). The fractional rate of degradation was similar in both hB and OG (0.15/h on average), which was higher than that of HB (0.12/h). The production of SCFA was also higher (P<0.05) with hB (6.1 mmol/g DM incubated, on average) than with HB and oat (4.9 and 2.9 mmol/g DM incubated, respectively). Similar trends were found for SCFA production expressed per g fermented carbohydrates, with higher butyrate and lower acetate ratio. In contrast, oat fermentation generated higher (P<0.05) ammonia concentration (1.4 mmol/g DM incubated, on average) than hB (1.0 mmol/g DM incubated). In summary, hulless barleys, irrespective of cultivar type had higher in vitro fermentability and produced more SCFA and less ammonia than hulled barley and oat. Thus, hulless barleys have a better potential to be used in pig nutrition to manipulate the fermentation activity in the intestine of pigs.

Disciplines :

Microbiology
Animal production & animal husbandry

Author, co-author :

Jha, Rajesh; University of Saskatchewan

Bindelle, Jérôme ; Université de Liège - ULiège > Sciences agronomiques > Zootechnie

Rossnagel, Brian; University of Saskatchewan

Van Kessel, Andrew; University of Saskatchewan

Leterme, Pascal; Prairie Swine Centre

Language :

English

Title :

In vitro evaluation of the fermentation characteristics of the carbohydrate fractions of hulless barley and other cereals in the gastrointestinal tract of pigs

Publication date :

2011

Journal title :

Animal Feed Science and Technology

ISSN :

0377-8401

Publisher :

Elsevier Science, Amsterdam, Netherlands

Volume :

163

Pages :

185-193

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 23 November 2010

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Bibliography

Anguita M., Gasa M., Martín-Orúe S.M., Pérez J.F. Study of the effect of technological processes on starch hydrolysis, non-starch polysaccharides solubilization and physicochemical properties of different ingredients using a two-step in vitro system. Anim. Feed Sci. Technol. 2006, 129:99-115.
Anguita M., Gasa J., Nofrarias M., Martín-Orúe S.M., Pérez J.F. Effect of coarse ground corn, sugar beet pulp and wheat bran on the voluntary intake and physicochemical characteristics of digesta of growing pigs. Livest. Sci. 2007, 107:182-191.
AOAC Official Methods of Analysis 2007, Association of Official Analytical Chemists, Arlington, VA, USA. 18th ed.
Awati A., Williams B.A., Bosch M.W., Gerrits W.J.J., Verstegen M.W.A. Effect of inclusion of fermentable carbohydrates in the diet on fermentation end-product profile in feces of weanling piglets. J. Anim. Sci. 2006, 84:2133-2140.
Bach Knudsen K.E. The nutritional significance of " dietary fibre" analysis. Anim. Feed Sci. Technol. 2001, 90:3-20.
Bindelle J., Buldgen A., Boudry C., Leterme P. Effect of inoculum and pepsin-pancreatin hydrolysis on fibre fermentation measured by the gas production technique in pigs. Anim. Feed Sci. Technol. 2007, 132:111-122.
Bindelle J., Pieper R., Leterme P., Rossnagel B., Van Kessel A.G. Changes in intestinal microbial ecophysiology as related to the carbohydrate composition of barleys and oats cultivars in an in vitro model of the pig gastrointestinal tract. Livest. Sci. 2010, 133:151-153.
Boisen S., Fernandez J.A. Prediction of the total tract digestibility of energy in feedstuffs and pig diets by in vitro analyses. Anim. Feed Sci. Technol. 1997, 68:277-286.
Brøbech Mortensen P., Nordgaard-Andersen I. The dependence of the in vitro fermentation of dietary fibre to short-chain fatty acids on the contents of soluble non-starch polysaccharides. Scand. J. Gastroenterol. 1993, 28:418-422.
Charalampopoulos D., Wang R., Pandiella S.S., Webb C. Application of cereals and cereal components in functional foods: a review. Int. J. Food Mircobiol. 2002, 79:131-141.
Coles L.T., Moughan P.J., Darragh A.J. In vitro digestion and fermentation methods, including gas production techniques, as applied to nutritive evaluation of foods in the hindgut of humans and other simple-stomached animals. Anim. Feed Sci. Technol. 2005, 123-124:421-444.
Dongowski G., Huth M., Gebhardt E., Flamme W. Dietary fiber-rich barley products beneficially affect the intestinal tract of rats. J. Nutr. 2002, 132:3704-3714.
Englyst H.N., Quigley M.E., Hudson G.J. Determination of dietary fibre as non-starch polysaccharides with gas-liquid chromatographic, high-performance liquid chromatographic or spectrophotometric measurement of constituent sugars. Analyst 1994, 119:1497-1509.
France J., Dhanoa M.S., Theodorou M.K., Lister S.J., Davies D.R., Isac D. A model to interpret gas accumulation profiles associated with in vitro degradation of ruminant feeds. J. Theor. Biol. 1993, 163:99-111.
Groot J.C.J., Cone J.W., Williams B.A., Debersaques F.M.A., Lantinga E.A. Multiphasic analysis of gas production kinetics for in vitro fermentation of ruminant feeds. Anim. Feed Sci. Technol. 1996, 64:77-89.
Izydorczyk M.S., Storsley J., Labossiere D., MacGregor A.W., Rossnagel B.G. Variation in total and soluble beta-glucan content in hulless barley: effects of thermal, physical, and enzymatic treatments. J. Agr. Food Chem. 2000, 48:982-989.
Jha R., Rossnagel B., Pieper R., Van Kessel A.G., Leterme P. Barley and oat cultivars with diverse carbohydrate composition alter ileal and total tract nutrient digestibility and fermentation metabolites in weaned piglets. Animal 2010, 4:724-731.
Lambo A.M., Oste R., Nyman M.E.G.L. Dietary fibre in fermented oat and barley beta-glucan rich concentrates. Food Chem. 2005, 89:283-293.
Le P.D., Aarnink A.J.A., Ogink N.W.M., Becker P.M., Verstegen M.W.A. Odour from animal production facilities: its relationship to diet. Nutr. Res. Rev. 2005, 18:3-30.
Lebet V., Jorger F., Arrigoni E., Wenk C., Amado R. Influence of a simulated digestion procedure on in vitro colonic fermentation patterns. Dietary Fibre and Fermentation in the Human Colon 1996, 101-109. Proceedings of the COST Action 92 Workshop, Brussels. Y. Malkki, J.H. Cummings (Eds.).
Li J.H., Vasanthan T., Rossnagel B., Hoover R. Starch from hull-less barley: I Granule morphology, composition and amylopectin structure. Food Chem. 2001, 74:395-405.
Macfarlane S., Macfarlane G.T. Regulation of short-chain fatty acid production. P. Nutr. Soc. 2003, 62:67-72.
Mauricio R.M., Moulda F.L., Dhanoab M.S., Owena E., Channaa K.S., Theodorou M.K. A semi-automated in vitro gas production technique for ruminant feedstuff evaluation. Anim. Feed Sci. Technol. 1999, 79:321-330.
Menke K.H., Steingass H. Estimation of the energetic feed value obtained from chemical analysis and in vitro gas production using rumen fluid. Anim. Res. Dev. 1988, 28:7-55.
Novozamsky I., van Eck R., van Schouwenburg J.C., Walinga I. Total nitrogen determination in plant material by means of the indophenolblue method. Neth. J. Agr. Sci. 1974, 22:3-5.
Pieper R., Bindelle J., Rossnagel B., Van Kessel A.G., Leterme P. Effect of carbohydrate composition in barley and oat cultivars on microbial ecophysiology and proliferation of Salmonella enterica in an in vitro model of the porcine gastrointestinal tract. Appl. Environ. Microbiol. 2009, 75:7006-7016.
Pieper R., Jha R., Rossnagel B., Van Kessel A.G., Souffrant W.B., Leterme P. Effect of barley and oat cultivars with different carbohydrate compositions on the intestinal bacterial communities in weaned piglets. FEMS Microbiol. Ecol. 2008, 66:556-566.
Pierce J., Stevenson Z. Nutrition and gut microbiology: redirecting nutrients from the microbes to the host animal with SSF. Gut Efficiency; The Key Ingredient in Pig and Poultry Production 2008, 167-182. Wageningen Academic Publishers, Pays-Bas. J.A. Taylor-Pickard, P. Spring (Eds.).
Rossnagel B.G., Zatorski T., Arganosa G. Food barley development at the Crop Development Centre, University of Saskatchewan. Proceedings of 18th Triennial North American Barley Researchers Workshop and 4th Canadian Barley Symposium 2005, 15-18.
SAS SAS User's Guide: Statistics, Version 9.1 2003, SAS Institute Inc., Cary, NC.
Servin A.L. Antagonistic activities of lactobacilli and bifidobacteria against microbial pathogens. FEMS Microbiol. Rev. 2004, 28:405-440.
Topping D.L., Clifton P.M. Short-chain fatty acids and human colonic function: roles of resistant starch and nonstarch polysaccharides. Physiol. Rev. 2001, 81:1031-1064.
Verstegen M., Williams B. Alternatives to the use of antibiotics as growth promoters for monogastric animals. Anim. Biotechnol. 2002, 13:113-127.
Wellock I.J., Houdijk J.G.M., Kyriazakis I. Effect of dietary non-starch polysaccharide solubility and inclusion level on gut health and the risk of post weaning enteric disorders in newly weaned piglets. Livest. Sci. 10th International Symposium on Digestive Physiology in Pigs 2007, 186-189.
Williams B.A., Verstegen M.W.A., Tamminga S. Fermentation in the large intestine of single-stomached animals and its relationship to animal health. Nutr. Res. Rev. 2001, 14:207-227.
Wisker E., Daniel M., Rave G., Feldheim W. Fermentation of non-starch polysaccharides in mixed diets and single fibre sources: comparative studies in human subjects and in vitro. Br. J. Nutr. 1998, 80:253-261.