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Critical Reviews in Food Science and Nutrition Volume 59, 2019 - Issue 17
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Reviews

Connection of inherent structure with nutrient profiles and bioavailability of different co-products and by-products after processing using advanced grading and vibrational molecular spectroscopy

Aya IsmaelCollege of Agriculture and Bioresources, the University of Saskatchewan, Saskatoon, Canada, and College of Life Science and Engineering, Foshan University, Guangdong
,
Victor H. Guevara-OquendoCollege of Agriculture and Bioresources, the University of Saskatchewan, Saskatoon, Canada, and College of Life Science and Engineering, Foshan University, Guangdong
,
Basim RefatCollege of Agriculture and Bioresources, the University of Saskatchewan, Saskatoon, Canada, and College of Life Science and Engineering, Foshan University, Guangdong
,
Huihua ZhangCollege of Agriculture and Bioresources, the University of Saskatchewan, Saskatoon, Canada, and College of Life Science and Engineering, Foshan University, Guangdong
&
Peiqiang YuCollege of Agriculture and Bioresources, the University of Saskatchewan, Saskatoon, Canada, and College of Life Science and Engineering, Foshan University, GuangdongCorrespondence[email protected]
Pages 2796-2806 | Published online: 11 Jun 2018

References

  • Abdelgadir, I. E. O., J. L. Morrill, and J. J. Higgins. 1996. Effect of Roasted Soybeans and Corn on Performance and Ruminal and Blood Metabolites of Dairy Calves. Journal of Dairy Science 79:465–74. doi:10.3168/jds.S0022-0302(96)76387-7.
  • Abdollahi, M. R., V. Ravindran, and B. Svihus. 2013. Pelleting of broiler diets: An overview with emphasis on pellet quality and nutritional value. Animal Feed Science and Technology 179:1–23. doi:10.1016/j.anifeedsci.2012.10.011.
  • Abeysekara, S., D. A. Christensen, Z. Niu, K. Theodoridou, and P. Yu. 2013. Molecular structure, chemical and nutrient profiles, and metabolic characteristics of the proteins and energy in new cool-season corn varieties harvested as fresh forage for dairy cattle. Journal of Dairy Science 96:6631–43. doi:10.3168/jds.2013-6841.
  • ANAC. 2013. Proceedings of the 34th Western Nutrition Conference – Processing, Performance & Profit, Saskatoon, SK, Canada, September 24–26.
  • Ban, Y. 2016. Molecular structural, physiochemical and nutritional characterization of new lines of brassica carinata and the co-products. MSc thesis, University of Saskatchewan.
  • Ban, Y., and P. Yu. 2016. Structural and nutritional characterization of macromolecular complexes in new bioenergy feedstock by infrared radiation with advanced molecular spectroscopy and spectral chemometrics. Applied Spectroscopy Reviews 51:822–38. doi:10.1080/05704928.2016.1191017.
  • Ban, Y., N. A. Khan, and P. Yu. 2017. Nutritional and metabolic characteristics of Brassica carinata Co-products from Biofuel Processing in Dairy Cows. Journal of Agricultural and Food Chemistry 65:5994–6001. doi:10.1021/acs.jafc.7b02330.
  • Brito, A. F., and G. A. Broderick. 2007. Effects of different protein supplements on milk production and nutrient utilization in lactating dairy cows. Journal of Dairy Science 90:1816–27. doi:10.3168/jds.2006-558.
  • Brito, A. F., G. A. Broderick, J. J. Olmos Colmenero, and S. M. Reynal. 2007. Effects of feeding formate-treated alfalfa silage or red clover silage on omasal nutrient flow and microbial protein synthesis in lactating dairy cows. Journal of Dairy Science 90:1392–404. doi:10.3168/jds.S0022-0302(07)71625-9.
  • Broderick, G. A., R. J. Wallace, and E. R. Ørskov. 1991. Control of rate and extent of protein degradation. London, UK: Elsevier.
  • Canola Council of Canada. 2015. Canola meal feeding guide. Feed industry guide, 5th Edition. Winnipeg, MB, Canada: Canola Council of Canada.
  • Cardone, M., M. Mazzoncini, S. Menini, V. Rocco, A. Senatore, M. Seggiani, and S. Vitolo. 2003. Brassica carinata as an alternative oil crop for the production of biodiesel in Italy: Agronomic evaluation, fuel production by transesterification and characterization. Biomass and Bioenergy 25:623–36. doi:10.1016/S0961-9534(03)00058-8.
  • Chalupa, W. 1975. Rumen bypass and protection of proteins and amino acids. Journal of Dairy Science 58:1198–218. doi:10.3168/jds.S0022-0302(75)84697-2.
  • Chung, Y. H., E. J. Mc Geough, S. Acharya, T. A. McAllister, S. M. McGinn, O. M. Harstad, and K. A. Beauchemin. 2013. Enteric methane emission, diet digestibility, and nitrogen excretion from beef heifers fed sainfoin or alfalfa. Journal of Animal Science 91:4861–74. doi:10.2527/jas.2013-6498.
  • Corey, A. M., K. G. S. Wamsley, T. S. Winowiski, and J. S. Moritz. 2014. Effects of calcium lignosulfonate, mixer-added fat, and feed form on feed manufacture and broiler performance. Journal of Applied Poultry Research 23:418–28. doi:10.3382/japr.2013-00916.
  • Cramer, K. R., K. J. Wilson, J. S. Moritz, and R. S. Beyer. 2003. Effect of sorghum-based diets subjected to various manufacturing procedures on broiler performance. Journal of Applied Poultry Research 12:404–10. doi:10.1093/japr/12.4.404.
  • Crooker, B. A., J. H. Clark, and R. D. Shanks. 1983. Effects of formaldehyde treated soybean meal on milk yield, milk composition, and nutrient digestibility in the dairy cow. Journal of Dairy Science 66:492–504. doi:10.3168/jds.S0022-0302(83)81817-7.
  • Cros, P., R. Moncoulon, C. Bayourthe, M. Vernayl, L. De Zootechnie, P. Animales, and D. Muret. 1992. Effect of extrusion on ruminal and intestinal disappearance of amino acids in white lupin seed. Canadian Journal of Animal Science 96:89–96. doi:10.4141/cjas92-010.
  • Dhiman, T. R., A. C. Korevaar, and L. D. Satter. 1997. Particle size of roasted soybeans and the effect on milk production of dairy cows. Journal of Dairy Science 80:1722–27. doi:10.3168/jds.S0022-0302(97)76104-6.
  • Dixon, R., and D. Coates. 2009. Review: Near infrared spectroscopy of faeces to evaluate the nutrition and physiology of herbivores. Journal of Near Infrared Spectroscopy 17:1–31. doi:10.1255/jnirs.822.
  • Doiron, K. J., and P. Yu. 2015. Recent research in flaxseed (oil seed) on molecular structure and metabolic characteristics of protein, heat processing-induced effect and nutrition with advanced synchrotron-based molecular techniques. Critical Reviews in Food Science and Nutrition 57:8–17. doi:10.1080/10408398.2013.764513.
  • Edwards, D., J. Batley, I. Parkin, and C. Kole. (Eds.). 2011. Genetics, genomics and breeding of oilseed brassicas. Boca Raton, FL, USA: CRC Press.
  • Faldet, M. A., V. L. Voss, G. A. Broderick, and L. D. Satter. 1991. Chemical, in vitro, and in situ evaluation of heat-treated soybean protein. Journal of Dairy Science 74:2548. doi:10.3168/jds.S0022-0302(91)78432-4.
  • Falk, D. 1985. Pelleting cost centre. In Feed manufacturing technology III, ed. R. R. Mcellhiney, 167–90. Arlington, VA, United States: American Feed Manufacturers Association.
  • Fonnesbeck, P. V., H. Lloyd, R. Obray, and S. Romsberg. 1984. Tables of feed composition. Utah, United States: International Feedstuffs Institute (IFI), Utah State University.
  • Frutos, P., G. Hervás, F. J. Giráldez, and A. R. Mantecón. 2004. Review. Tannins and ruminant nutrition Tannins: structure and chemical. Spanish Journal of Agricultural Research 2:191–202. doi:10.5424/sjar/2004022-73.
  • Frutos, P., G. Hervas, F. J. Giráldez, M. Fernandez, and A. R. Mantecón. 2000. Digestive utilization of quebracho-treated soya bean meals in sheep. Journal of Agricultural Science 134:101–108. doi:10.1017/S0021859699007261.
  • Getinet, A., G. Rakow, J. P. Raney, and R. K. Downey. 1994. Development of zero erucic acid Ethiopian mustard through an interspecific cross with zero erucic acid Oriental mustard. Canadian Journal of Plant Science 74:793–95. doi:10.4141/cjps94-141.
  • Güçlü, K. B. 1999. Effect of treatment of cottonseed tubers with tannic acid and lignosufonate on nutrient digestibility and ruminal degradation properties in coats. Ankara: University Health Sciences.
  • Guevara, V. 2017. Evaluation of pelleted products based on combination of new coproducts from bio-fuel or bio-oil processing, pea screenings and lignosulfonate chemical compound for ruminant diets. MSc thesis, University of Saskatchewan.
  • Goelema, J. O., A. Smits, L. M. Vaessen, and A. Wemmers. 1999. Effects of pressure toasting, expander treatment and pelleting on in vitro and in situ parameters of protein and starch in a mixture of broken peas, lupins and faba beans. Animal Feed Science and Technology 78:109–26. doi:10.1016/S0377-8401(98)00266-1.
  • Heimann, M. 1999. Steam flaking – focus on conditioning steam flaking systems. Waterloo, Iowa, USA: Roskamp Champion.
  • Hervas, G., P. Frutos, E. Serrano, A. R. Mantecon, and F. J. Giraldez. 2000. Effect of tannic acid on rumen degradation and intestinal digestion of treated soya bean meals in sheep. Journal of Agricultural Science 135:305–10. doi:10.1017/S0021859699008151.
  • Hickling, D. 2003. Canadian feed peas industry guide, 3th Edition. 1–36. Winnipeg, MB, Canada: Pulse Canada.
  • Hsu, C. P. S. 1997. Infrared Spectroscopy. In Handbook of Instrumental Techniques for Analytical Chemistry. p. 247–283. Edited by: Settle F.A. Prentice Hall PTR, Upper Saddle River, NJ.
  • Huang, X. 2015. Improvements in nutritive value of canola meal with pelleting. MSc thesis, University of Saskatchewan.
  • Huang, X., H. Zhang, and P. Yu. 2017. Structural changes on a molecular basis of canola meal by conditioning temperature and time during pelleting process in relation to physiochemical (energy and protein) properties relevant to ruminants. Plos One 12:1–19.
  • Ingalls, J. R. and B. P. Grumpelt. 1987. Unextracted canola seed in rations for ram lambs and dairy cows. Pages 263–273 in Progress report: Research on canola seed, oil meal and meal fractions. Vol. 8.
  • Jancewicz, L. J. 2016. Using near infrared spectroscopy of feces to predict growth. PhD Thesis. University of Saskatchewan.
  • Jansen, H. D. 1991. Extrusion cooking for mixed feed processing. Advanced Feed Technology 5:58–66.
  • Karunakaran, C., C. Gaillard, B. Bouchet, H. Gnaegi, A. Buleon, J. Wang and A. P. Hitchcock. 2009. Characterization of wheat grain tissues by soft X-ray spectromicroscopy. Canadian Light Source 2010:50–51.
  • Kaufmann, W. and W. Liipping. 1982. Protected proteins and protected amino acids for ruminants. In Protein contribution of feedstuffs for ruminants: Application to feed formulation, eds. E. L. Miller, I. H. Pike and A. J. H Van Es, 36–75. London, UK: Butterworth Scientific.
  • Khanbabaee, K., and T. van Ree. 2001. Tannins: Classification and definition. Natural Product Reports 18:641–49. doi:10.1039/b101061l.
  • Khorasani, G. R., E. K. Okine, R. R. Corbett, and J. J. Kennelly. 2001. Nutritive value of peas for lactating dairy cattle. Canadian Journal of Animal Science 81:541–51. doi:10.4141/A01-019.
  • Kudlinskiene, I., R. Gružauskas, R. Stankevicius, G. Stanyte, J. Klementaviciute, G. Dovidaitiene, J. Cernauskiene, A. Miezeliene, and G. Alencikiene. 2016. Effects of extruded peas (pisum sativum) on dairy cows' performance, milk composition and sensory properties. Veterinarija Ir Zootechnika 73:54–61.
  • Kumar, S., R. Kumari, K. Kumar, and T. K. Walli. 2015. Roasting and formaldehyde method to make bypass protein for ruminants and its importance: A review. The Indian Journal of Animal Sciences 85:223–30.
  • Kumar, S., and R. Vaithiyanathan. 1990. Occurrence, nutritional significance and effect on animal productivity of tannins in tree leaves. Animal Feed Science and Technology 30:21–38. doi:10.1016/0377-8401(90)90049-E.
  • Levic, J. and S. Sredanovic. 2010. Heat treatment in Animal feed processing. In Extrusion technology on feed and food processing, eds. J. Levic, O. Duragic, and S. Sredanovic, 14. Novi Sad: Institue for Food Technology.
  • Liu, N. 2009. Ruminal nutrient availability and inherent structural features of six barley varieties using in situ technique and Mid-IR spectroscopy. MSc thesis, University of Saskatchewan.
  • Mansfield, H. R., and M. D. Stern. 1994. Effects of soybean hulls and lignosulfonate-treated soybean meal on ruminal fermentation in lactating dairy cows. Journal of Dairy Science 77:1070–83. doi:10.3168/jds.S0022-0302(94)77042-9.
  • Marinkovic, N. S., R. Huang, P. Bromberg, M. Sullivan, J. Toomey, L. M. Miller, E. Sperber, S. Moshe, K. W. Jones, E. Chouparova, S. Lappi, S. Franzen, and M. R. Chance. 2002. Center for synchrotron biosciences' U2B beamline: An international resource for biological infrared spectroscopy. Journal of Synchrotron Radiation 9:189–97. doi:10.1107/S0909049502008543.
  • McAllister, T. A., K. J. Cheng, K. A. Beauchemin, D. R. C. Bailey, M. D. Pickard, and R. P. Gilbert. 1993. Use of lignosulfonate to decrease the rumen degtadability of canola meal protein. Canadian Journal of Animal Science 73:211–15. doi:10.4141/cjas93-022.
  • McKinnon, J. J. 2015. The facts on grain screening pellets. Canadian Cattlemen. Retrieved on september 18, 2017 from: https://www.canadiancattlemen.ca/2015/12/02/the-facts-on-grain-screening-pellets/.
  • McNiven, M. A., R. M. G. Hamilton, P. H. Robinson, and J. W. de Leeuw. 1994. Effect of grain roasting on the nutritional quality of common cereal grains for ruminants and non-ruminants. Animal Feed Science and Technology 47:31. doi:10.1016/0377-8401(94)90157-0.
  • Mueller-Harvey, I. 2006. Unravelling the conundrum of tannins in animal nutrition and health. Journal of the Science of Food and Agriculture 86:2010–37.
  • Mustafa, A. F., C. Gonthier, and D. R. Ouellet. 2003. Effects of extrusion of flaxseed on ruminal and postruminal nutrient digestibilities. Archives of Animal Nutrition 57:455–63. doi:10.1080/0003942032000161036.
  • Mustafa, A. F., D. A. Christensen, and J. J. McKinnon. 1996. Chemical characterization and nutrient availability of high and low fiber canola meal. Canadian Journal of Animal Science 76:579–86. doi:10.4141/cjas96-086.
  • Newkirk, R. 2009. Canola meal. Feed industries guide, 4th edition. Winnipeg, Manitoba: Canadian International Grains Institute.
  • NRC. 2001. Nutrient requirement of dairy cattle, 7th edition. Washington, DC: The national academies Press.
  • Palić, D., O. Lević, S. Sredanović and O. Duragić. 2008. Quality control of full-fat soybean using urease activity: critical assessment of the method. Acta. Peri. Techno 39:49–55.
  • Peng, Q., N. A. Khan, Z. Wang, X. Zhang, and P. Yu. 2014. Effect of thermal processing on estimated metabolizable protein supply to dairy cattle from camelina seeds: Relationship with protein molecular structural changes. Journal of Agricultural and Food Chemistry 62:8263–73. doi:10.1021/jf5013049.
  • Petit, H. V., G. F. Tremblay, M. Marcotte, and R. Audy. 1999. Degradability and digestibility of full-fat soybeans treated with different sugar and heat combinations. Canadian Journal of Animal Science 79:213–20. doi:10.4141/A98-106.
  • Piepenbrink, M. S., and D. J. Schingoethe. 1998. Ruminal degradation, amino acid composition, and estimated intestinal digestibilities of four protein supplements. Journal of Dairy Science 81:454–61. doi:10.3168/jds.S0022-0302(98)75597-3.
  • Raab, T. K., and M. C. Martin. 2001. Visualizing rhizosphere chemistry of legumes with mid-infrared synchrotron radiation. Planta 213:881–87. doi:10.1007/s004250100554.
  • Rakow, G., and A. Getinet. 1998. Brassica carinata an oilseed crop for Canada. In Proceedings of the international symposium on Brassicas, eds. T. Grégoire and A. A. Monteiro, Acta Horticulturae, 459, 419–26. Belgium: International Society for Horticultural Science.
  • Rakow, G. 2004. Species origin and economic importance of Brassica. In Brassica and legumes: From genome structure to breeding, eds. T. Nagata, H. Lorz, and J. M. Widholm, 3–12. Berlin, Germany: Springer.
  • Resonance carinata production. 2012. A guide to best management practices. Saskatoon, SK, CA: Agrisoma Biosciences Inc..
  • Riaz, M. N. 2007. Extruders and expanders in pet food, aquatic and livestock feeds. Clenze, Germany: Agrimedia.
  • Saskatchewan Pulse Growers. 2015. Retrieved on May 26, 2015 from: http://www.saskpulse.com.
  • Schwab, C. G. 1995. Protected proteins and amino acids for ruminants. In: Biotechnology in animal feeds and animal feeding, Eds. R. J. Wallace and A. Chesson, 115–41. Weinheim, Germany: V. C. H. Press.
  • Scott, T. A., D. K. Combs, and R. R. Grummer. 1991. Effects of roasting, extrusion, and particle size on the feeding value of soybeans for dairy cows. Journal of Dairy Science 74:2555–62. doi:10.3168/jds.S0022-0302(91)78433-6.
  • Shenk, J. S. and M. O. Westerhaus. 1993. Analysis of agriculture and food products by near infrared reflectance spectroscopy. Port Matilda, PA: Infrasoft International.
  • Shi, H., and P. Yu. 2017. Advanced synchrotron-based and globar-sourced molecular (micro) spectroscopy contributions to advances in food and feed research on molecular structure, mycotoxin determination, and molecular nutrition. Critical Reviews in Food Science and Nutrition 1–12. doi:10.1080/10408398.2017.1303769.
  • Simbaya, J., B. A. Slominski, G. Rakow, L. D. Campbell, R. K. Downey, and J. M. Bell. 1995. Quality characteristics of yellow-seeded brassica seed meals: Protein, carbohydrates, and dietary fiber components. Journal of Agricultural and Food Chemistry 43:2062–66. doi:10.1021/jf00056a020.
  • Sinclair, L. A., P. C. Garnsworth, J. R. Newbold, and P. J. Buttery. 1993. Effect of synchronizing the rate of dietary energy and nitrogen release on rumen fermentation and microbial protein synthesis in sheep. Journal of Agricultural Science 120:251. doi:10.1017/S002185960007430X.
  • Smith, B. C. 2011. Fundamentals of fourier transform infrared spectroscopy. Boca Raton, FL, USA: CRC Press.
  • Smoje, I., D. Ereg, S. Sadžakov, and S. Predin. 1996. New aspects of the production and application of extruded nutrients. Proceedings: Production technology in quality service, Budva, 69–81.
  • Sredanović, S., J. Lević, O. Duragić, and M. Petkova. 2008. Sustainable production of animal feed. PTEP 12 (3):175–79.
  • Stanford, K., T. A. McAllister, Z. Xu, K.-J. Cheng, and M. Pickard. 1995. Comparison of lignosulfonate-treated canola meal and soybean meal as rumen undegradable protein supplements for lambs. Canadian Journal of Animal Science 75:371–77. doi:10.4141/cjas95-056.
  • Stuart, B. 2004. Infrared spectroscopy: fundamentals and applications. Chichester, Hoboken, NJ, West Sussex, England: J. Wiley.
  • Swanepoel, N., P. H. Robinson, and L. J. Erasmus. 2014. Determining the optimal ratio of canola meal and high protein dried distillers grain protein in diets of high producing Holstein dairy cows. Animal Feed Science and Technology 189:41–53. doi:10.1016/j.anifeedsci.2013.12.007.
  • Tamminga, S. and J. O. Goelema. 1995. The significance of rate and site of starch digestion in ruminants. Carbohydrates in feeds for ruminants. Proc. SCI, 28 February 1995, p. 7. London, UK.
  • Taylor, D. C., K. C. Falk, C. D. Palmer, J. Hammerlindl, V. Babic, E. Mietkiewska, A. Jadhav, E. F. Marillia, T. Francis, T. Hoffman, E. M. Giblin, V. Katavic, and W. A. Keller. 2010. Brassica carinata – A new molecular farming platform for delivering bio-industrial oil feedstocks: Case studies of genetic modifications to improve very long-chain fatty acid and oil content in seeds. Biofuels, Bioproducts and Biorefining 4:538–61. doi:10.1002/bbb.231.
  • Theodoridou, K., and P. Yu. 2013. Effect of processing conditions on the nutritive value of canola meal and presscake. Comparison of the yellow and brown-seeded canola meal with the brown-seeded canola presscake. Journal of the Science of Food and Agriculture 93:1986–95. doi:10.1002/jsfa.6004.
  • Theodoridou, K., and P. Yu. 2013b. Application potential of ATR-FT/IR molecular spectroscopy in animal nutrition: Revelation of protein molecular structures of canola meal and presscake, as affected by heat-processing methods, in relationship with their protein digestive behavior and utilization for dairy cattle. Journal of Agricultural and Food Chemistry 61 (23):5449–5458. doi:10.1021/jf400301y.
  • Theurer, C. B., J. T. Huber, A. Delgado-Elorduy, and R. Wanderley. 1999. Summary of steam-flaking corn or sorghum grain for lactating dairy cows. Journal of Dairy Science 82:1950–59. doi:10.3168/jds.S0022-0302(99)75431-7.
  • Thiyam-Hollaender, U., N. M. Neason, A. M. Eskin, and B. Matthaäus. 2013. Canola and rapeseed: production, processing, food quality, and nutrition. Boca Raton: CRC Press.
  • Thomas, M., and A. F. B. van der Poel. 1996. Physical quality of pelleted animal feed 1. Criteria for pellet quality. Animal Feed Science and Technology 61:89–112. doi:10.1016/0377-8401(96)00949-2.
  • Valentine, S. C. and B. D. Bartch. 1987. Fermentation of harmmermill barely, lupin, pea and faba bean grain in the rumen of dairy cows. Animal Feed Science and Technology 16:261–71. doi:10.1016/0377-8401(87)90015-0.
  • Van der Poel, A., F.B,.I. E. Liener, P. W. Mollee, and J. Huisman. 1990. Variations among species of animals in response to the feeding of heat-processed beans (Phaseolus vulgaris L.J. 2. Growth and organ weights of chickens and rats and digestibility for rats. Livestock Production Science 25:137–50. doi:10.1016/0301-6226(90)90047-A.
  • Waghorn, G. 2008. Beneficial and detrimental effects of dietary condensed tannins for sustainable sheep and goat production-Progress and challenges. Animal Feed Science and Technology 147:116–39. doi:10.1016/j.anifeedsci.2007.09.013.
  • Wang, W., and J. Paliwal. 2007. Near-infrared spectroscopy and imaging in food quality and safety. Sensing and Instrumentation for Food Quality and Safety 1:193–207. doi:10.1007/s11694-007-9022-0.
  • Warwick, S. I., R. K. Gugel, T. McDonald, and K. C. Falk. 2006. Genetic variation of Ethiopian mustard (Brassica carinata A. Braun) germplasm in western Canada. Genetic Resources and Crop Evolution 53:297–312. doi:10.1007/s10722-004-6108-y.
  • Whelan, D. R., and T. D. M. Bell. 2015. Correlative synchrotron fourier transform infrared spectroscopy and single molecule super resolution microscopy for the detection of composition and ultrastructure alterations in single cells. Acs Chemical Biology 10:2874–83. doi:10.1021/acschembio.5b00754.
  • Windschitl, P. M., and M. D. Stern. 1988. Evaluation of calcium lignosulfonate-treated soybean meal as a source of rumen protected protein for dairy cattle. Journal of Dairy Science 71:3310–22. doi:10.3168/jds.S0022-0302(88)79936-1.
  • Xin, H., and P. Yu. 2013a. Chemical profile, energy values, and protein molecular structure characteristics of biofuel/bio-oil co-products (carinata meal) in comparison with canola meal. Journal of Agricultural and Food Chemistry 61:3926–33. doi:10.1021/jf400028n.
  • Xin, H., and P. Yu. 2013b. Detect changes in protein structure of carinata meal during rumen fermentation in relation to basic chemical profile and comparison with canola meal using ATR–FT/IR molecular spectroscopy with chemometrics. Spectrochimica Acta, Part A: Molecular and Biomolecular Spectroscopy 112:318–25. doi:10.1016/j.saa.2013.04.073.
  • Xin, H., and P. Yu. 2013c. Using ATR–FT/IR to detect carbohydrate-related molecular structure features of carinata meal and their in situ residues of ruminal fermentation in comparison with canola meal. Spectrochimica Acta, Part A: Molecular and Biomolecular Spectroscopy 114:599–606. doi:10.1016/j.saa.2013.05.056.
  • Xin, H., and P. Yu. 2014. Rumen degradation, intestinal and total digestion characteristics and metabolizable protein supply of carinata meal (a non-conventional feed resource) in comparison with canola meal. Animal Feed Science and Technology 191:106–10. doi:10.1016/j.anifeedsci.2014.01.013.
  • Xin, H., K. Theodoridou, and P. Yu. 2014. Implication of modified molecular structure of lipid through heat-related process to fatty acids supply in brassica carinata seed. Industrial Crops and Products 62:204–11. doi:10.1016/j.indcrop.2014.08.025.
  • Yang, H., and J. Irudayaraj. 2001. Comparison of near-infrared, fourier transform-infrared, and fourier transform-raman methods for determining olive pomace oil adulteration in extra virgin olive oil. Journal of the American Oil Chemists Society 78:889–95. doi:10.1007/s11746-001-0360-6.
  • Ying, Y. and P. Yu. 2016. Microprobing structural architecture using mid-infrared vibrational molecular spectroscopy, applications of molecular spectroscopy to current research in the chemical and biological sciences, Mark Stauffer, IntechOpen. doi:10.5772/64927. Available from: https://www.intechopen.com/books/applications-of-molecular-spectroscopy-to-current-research-in-the-chemical-and-biological-sciences/microprobing-structural-architecture-using-mid-infrared-vibrational-molecular-spectroscopy.
  • Yu, P., A. R. Egan, J. H. G. Holmes and B. J. Leury. 1998. Influence of dry roasting of whole faba beans (Vicia faba) on rumen degradation characteristics in dairy cows, II: starch. Asian-Australasian Journal of Animal Sciences 11:503–509. doi:10.5713/ajas.1998.503.
  • Yu, P., J. O. Goelema, B. J. Leury, S. Tamminga, and A. R. Egan. 2002. An analysis of the nutritive value of heat processed legume seeds for animal production using the DVE/OEB model: A review. Animal Feed Science and Technology 99:141–76. doi:10.1016/S0377-8401(02)00114-1.
  • Yu, P. 2004. Application of advanced synchrotron radiation-based Fourier transform infrared (SR-FTIR) microspectroscopy to animal nutrition and feed science: a novel approach. British Journal of Nutrition 92:869–85. doi:10.1079/BJN20041298.
  • Yu, P. 2005. Applications of hierarchical cluster analysis (CLA) and principal component analysis (PCA) in feed structure and feed molecular chemistry research, using synchrotron-based fourier transform infrared (FTIR) microspectroscopy. Journal of Agricultural and Food Chemistry 53:7115–27. doi:10.1021/jf050959b.
  • Yu, P., and W. G. Nuez-Ortín. 2010. Relationship of protein molecular structure to metabolisable proteins in different types of dried distillers grains with solubles: a novel approach. British Journal of Nutrition 104:1429–37. doi:10.1017/S0007114510002539.
  • Yu, P. 2012a. Synchrotron soft x-ray and infrared microspectroscopy contributions to advances in feed chemistry and feed science technology. In: Current microscopy contributions to advances in science and technology, Ed. A. Méndez-Vilas, 1504–10. Barcelona, Spain: Formatex Research Center.
  • Yu, P. 2012b. Short communication: Relationship of carbohydrate molecular spectroscopic features to carbohydrate nutrient profiles in co-products from bioethanol production. Journal of Dairy Science 95:2091–96. doi:10.3168/jds.2011-4885.

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