Biofuel co-products as livestock feed - Opportunities and challenges

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Hydrogen sulphide in cattle fed co-products of the ethanol industry 111Domby, E.M., Neuhold, K.L., Wagner, J.J., Engle, T.E. &Braninez, M. 2011. The effect of feed additive programand dietary sulfur concentration in steam-flaked corn dietscontaining wet distillers grains on feedlot performance andcarcass merit in yearling feedlot steers. Journal of AnimalScience, 89(E. Suppl. 1): 361.Dougherty, R.W., Mullenax, C.H. & Allison, M.J. 1965.Physiological phenomena associated with eructation inruminants. p. 159, in: R.W. Dougherty (editor). Physiologyof Digestion in the Ruminant. Butterworths, Washington,D.C., USA.Drewnoski, M., Beitz, D., Loy, D., Hansen, S. & Ensley,S. 2011. Factors affecting ruminal hydrogen sulfideconcentration of cattle. Iowa State University AnimalIndustry Report: AS Leaflet R2587.Drewnoski, M., Richter, E. & Hansen, S. 2011. Days on feedand dietary sulfur content affect rumen hydrogen sulfideconcentrations in feedlot steers. Iowa State UniversityAnimal Industry Report: AS Leaflet R2588.Drewnoski, M.E., Doane, P.H. & Hansen, S.L. 2011. Ferriccitrate decreases ruminal hydrogen sulfide production infeedlot cattle fed diets high in sulfate. Journal of AnimalScience, 89(E. Suppl. 1): iii.Evans, C.L. 1967. Sulphur toxicity in ruminants. Physiologicalchanges in tissues of lambs. Queensland Journal ofExperimental Physiology, 52: 231–240.Felix, T.L. & Loerch, S.C. 2011. Effects of haylage andmonensin supplementation on performance, carcasscharacteristics, and ruminal metabolism of feedlot cattlefed diets containing 60% dried distillers grains. Journal ofAnimal Science, 89(8): 2614–2623.Florin, T., Neale, G., Gibson, G.R., Christl, J.J. & Cummings,J.H. 1991. Metabolism of dietary sulphate: Absorption andexcretion in humans. Gut, 32: 766–773.Ganther, H.E. & Bauman, C.A. 1962. Selenium metabolism. II.Modifying effects of sulfate. Journal of Nutrition, 77: 408–412.Goetsch, A.L. & Owens, F.N. 1987. Effect of supplementsulfate (Dynamate) and thiamine-HCl on passage of thiamineto duodenum and site of digestion in steers. Archive ofAnimal Nutrition, 37: 1075.Gould, D.H. 1998. Polioencephalomalacia. Journal of AnimalScience, 76:309-314.Gould, D.H., Cummings, B.A. & Hamar, D.W. 1997. Invivo indicators of pathologic ruminal sulfide production insteers with diet-induced polioencephalomalacia. Journal ofVeterinary Diagnostic Investigation, 9(1): 72–76.Gould, D.H., McAllister, M.M., Savage, J.C. & Hamar, D.W.1991. High sulfide concentrations in rumen fluid associatedwith nutritionally induced polioencephalomalacia in calves.American Journal of Veterinary Research, 52: 1164–1169.Huisingh, J., McNeill, J.J. & Matrone, G. 1974. Sulphatereduction by a Desulfovibrio species isolated from sheeprumen. Applied Microbiology, 28: 489–497.Ivancic, J. Jr. & Weiss, W.P. 2001. Effect of dietary sulfur andselenium concentrations on selenium balance of lactatingHolstein cows. Journal of Dairy Science, 84: 225–232.Kabil, O. & Banerjee, R. 2010. Redox biochemistry of hydrogensulfide. Journal of Biological Chemistry, 285: 21903–21907.Kandylis, K. 1984. Toxicology of sulfur in ruminants: Review.Journal of Dairy Science, 67: 2179–2187.Kelzer, J.M., Maddock, T.D., Ruiz-Moreno, M., DiCostanzo,A., Crawford, G.I. & Lamb, G.C. 2010. Effects ofsupplemental manganese on ruminal pH and hydrogensulfide concentrations in beef steers fed high-sulfur dietscontaining distillers grains plus solubles. Journal of AnimalScience, 88(E. Suppl 2): 512.Kerr, B.J., Ziemer, C.J., Weber, T.E., Trabue, S.L., Bearson,B.L., Shurson, G.C. & Whitney, M.H. 2008. Comparativesulfur analysis using thermal combustion or inductivelycoupled plasma methodology and mineral composition ofcommon livestock feedstuffs. Journal of Animal Science,86: 2377–2384.Kung, L., Bracht, J.P. & Tavares, J.Y. 2000. Effects of variouscompounds on in vitro ruminal fermentation and productionof sulfide. Animal Feed Science and Technology, 84(1-2): 69–81.Kung, L. Jr, Bracht, J.P., Hession, A.O. & Tavares, J.Y.1998. High sulfate induced polioencephalomalacia (PEM)in cattle – burping can be dangerous if you are a ruminant.Proceedings of the Chr. Hansen Technical Symposium. PacificNorthwest Nutrition Conference. 13–15 October 1998.Vancouver, BC, Canada. Available at: http://ag.udel.edu/anfs/faculty/kung/H2S.htm. Accessed 9 November 2011.Lagoutte, E., Mimoun, S., Andriamihaja, M., Chaumontet,C., Blachier, F. & Bouillaud, F. 2010. Oxidation of hydrogensulfide remains a priority in mammalian cells and causesreverse electron transfer in colonocytes. Biochimica etBiophysica Acta – Bioenergetics, 1797(8): 1500–1511.Leschelle, X., Goubern, M., Andriamihaja, M., Blottiere,H.M., Couplan, E., Gonzalez–Barroso, M.D., Petit, C.,Pagniez, A., Chaumontet, C., Mignotte, B., Bouillaud,F. & Blachier, F. 2005. 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112Biofuel co-products as livestock feed – Opportunities and challengespolioencephalomalacia. Journal of the American VeterinaryMedicine Association, 213: 1599–1604.Loneragan, G.H., Gould, D.H., Wagner, J.J., Garry, F.B. &Thoren, M.A. 2005. The magnitude and patterns of ruminalhydrogen sulfide production, blood thiamine concentration,and mean pulmonary arterial pressure in feedlot steersconsuming water of different sulfate concentrations. BovinePractise, 39: 16–23.Loneragan, G.H., Wagner, J.J., Gould, D.H., Garry, F.B. &Thoren, M A. 2001. Effects of water sulfate concentrationon performance, water intake, and carcass characteristics offeedlot steers. Journal of Animal Science, 79: 2941–2948.Low, J.C., Scott, P.R., Howie, F., Lewis, M., FitzSimmons, J. &Spence, J.A. 1996. Sulphur-induced polioencephalomalaciain lambs. Veterinary Record, 138: 327–329.McAloon, A., Taylor, F., Yee, W., Ibsen, K. & Wooley,R. 2000. 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BIOFUEL CO-PRODUCTS AS LIVESTOCK FE
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Recommended citationFAO. 2012. Biof
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vco-products to swine - Feeding cru
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viiCHAPTER 22Use of Pongamia glabra
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ixPrefaceHumans are faced with majo
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xiiCBMCBSCCDSCCKCDOCDSCFCFBCFRCGECI
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xivHCHOHClHCNHisH-JPKMHMCHPDDGHPDDG
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xviPPbPCVPDPEMPFADPhePJPKCPKEPKMPKO
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xviiiWBPWCGFWDGWDGSWDGSHWPCWTWWWNSK
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2Biofuel co-products as livestock f
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10Biofuel co-products as livestock
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35Chapter 3Impact of United States
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Impact of United States biofuels co
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Utilization of crude glycerin in be
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209Chapter 11Co-products from biofu
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Co-products from biofuel production
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275Chapter 15Sustainable and compet
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Sustainable and competitive use of
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291Chapter 16Scope for utilizing su
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Scope for utilizing sugar cane baga
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303Chapter 17Camelina sativa in pou
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Camelina sativa in poultry diets: o
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311Chapter 18Utilization of lipid c
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Utilization of lipid co-products of
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351Chapter 21Use of detoxified jatr
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Use of detoxified jatropha kernel m
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379Chapter 22Use of Pongamia glabra
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Use of Pongamia glabra (karanj) and
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403Chapter 23Co-products of the Uni
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Co-products of the United States bi
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467Chapter 26An assessment of the p
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An assessment of the potential dema
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483Chapter 27Biofuels: their co-pro
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Biofuels: their co-products and wat
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501Chapter 28Utilization of co-prod
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523Contributing authorsSouheila Abb
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Contributing authors 525for the Fee
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Contributing authors 527Friederike
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Contributing authors 529Sustainable
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Contributing authors 531During the
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Contributing authors 533(Hons.) and
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Biofuel co-products as livestock feed - Opportunities and challenges

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