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Grain quality traits important in feed barley Cover

Grain quality traits important in feed barley

Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences.
Volume 66 (2012): Issue 1-2 (April 2012)
By: Māra Bleidere and  Zinta Gaile  
Open Access
|Jun 2012

References

  1. Aman, P., Hesselman, K., Tilly, A.C. (1985). The variation in chemical composition of Swedish barleys. J. Cereal Sci., 3, 73-77.10.1016/S0733-5210(85)80035-7
    Search in Google Scholar
  2. Aman, P., Newman, C.W. (1986). Chemical composition of some different types of barley grown in Montana USA. J. Cereal Sci., 4, 133-141.10.1016/S0733-5210(86)80016-9
    Search in Google Scholar
  3. Andersson, A.A.M., Andersson, R., Autio, K., Aman, P. (1999a). Chemical composition and microstructure of two naked waxy barleys. J. Cereal Sci., 30, 183-191.10.1006/jcrs.1999.0267
    Search in Google Scholar
  4. Andersson, A.A.M., Elferson, C., Andersson, R., Regner, S., Aman, P. (1999b). Chemical and physical characteristics of different barley samples. J. Sci. Food Agr., 79, 979-986.10.1002/(SICI)1097-0010(19990515)79:7<;979::AID-JSFA313>3.0.CO;2-L
    Search in Google Scholar
  5. Anonymous (2012). Barley Export and Market Forecasts, 2012. See: http://www.reportlinker.com/report/search/theme/barley_export
    Search in Google Scholar
  6. Ao, Z., Jane, J. (2007). Characterisation and modeling of the A- and B-granule starches of wheat, triticale and barley. Carbonhydrate Polymers, 67, 46-55.10.1016/j.carbpol.2006.04.013
    Search in Google Scholar
  7. Arganosa, G.C., Rossnagel, B.G., Legge B.G., Zatorski T., Tucker J. (2003). Prediction of Deoxynivalenol (DON) in Feed Barley using Near-Infrared Spectroscopy. In: 3rd Canadian Barley Symposium (19-20 June 2003), pp. 96. Red Deer, Alberta.
    Search in Google Scholar
  8. Bacic, A., Stone, B.A. (1981). Chemistry and organization of aleirone cell wall components from wheat and barley. Austral. J. Plant Physiol., 8, 475-495.
    Search in Google Scholar
  9. Barneveld, S.L. (1999). Chemical and physical characteristics of grains related to variability in energy and amino acid availability in ruminants: A review. Austral. J. Agr. Res., 50, 651-666.10.1071/AR98159
    Search in Google Scholar
  10. Beecher, B., Bowman, J., Martin, J.M., Bettge, A.D., Morris, C.F., Blake, T.K., Giroux, M.J. (2002). Hordoindolines are associated with a major endosperm-texture QTL in Barley (Hordeum vulgare L.). Genome, 45, 584-591.10.1139/g02-008
    Search in Google Scholar
  11. Bell, J.M., Shires, A., Keith, M.O. (1983). Effect of hull and protein content of barley on protein and energy digestibility and feeding value of pigs. Canad. J. Animal Sci., 63, 201.10.4141/cjas83-023
    Search in Google Scholar
  12. Bhatty, R.S., Christison, G.I., Sosulski, F.W., Harwey, B.L., Hughes, G.R., Berdahl, J.D. (1974). Relationships various physical and chemical characters to digestable energy of wheat and barley cultivars. Can. J. Animal Sci., 54, 419-427.10.4141/cjas74-057
    Search in Google Scholar
  13. Bhatty, R.S., Christison, G.I. (1975). Chemical composition and digestable energy of barley. Can. J. Animal Sci., 55, 759-764.10.4141/cjas75-091
    Search in Google Scholar
  14. Bhatty, R.S. (1986). The potential of hull-less barley-a review. Cereal Chem., 63, 97 - 103.
    Search in Google Scholar
  15. Bhatty, R.S. (1987). Relationship between acid extract viscosity and total soluble and insoluble β-glucan content of hulled and hulless barley. Can. J. Plant Sci., 67, 997-1008.10.4141/cjps87-136
    Search in Google Scholar
  16. Bowen, D.E. Guttieri, M.J., Peterson, K., Peterson, K., Raboy, V., Souza, E.J. (2006). Phosphorus fractions in developing seeds of four low phytate barley (Hordeum vulgare L.) genotypes. Crop Sci., 46, 2468-2473.10.2135/cropsci2005.12.0459
    Search in Google Scholar
  17. Bowman, J.G.P., Blake, T.K., Surber, L.M.M., Habernicht, D.K., Bockelman, H. (2001). Feed-quality variation in barley core collection of the USDA National small grain collection. Crop Sci., 41, 863-870.10.2135/cropsci2001.413863x
    Search in Google Scholar
  18. Camm, J.P., Ellis, R.P., Morrison, W.R. (2005). Milling energy. An investigation into the biochemical basis of hardness in cereals. Aspects Appl. Biol., 25, 121-131.
    Search in Google Scholar
  19. Campbell, G.L., Rossnagel, B.G., Classen, H.L., Thacker, P.A. (1989). Genotypic and environmental differences in extract viscosity of barley and their relationship to its nutritive value for broiler chickes. Animal Feed Sci. Technol., 26, 221-230.10.1016/0377-8401(89)90036-9
    Search in Google Scholar
  20. Christison, G.I., Bell, J.M. (1975). An assesment of bulk weight and other simple criteria for predicting the digestable energy values of feed grains. Can. J. Plant Sci., 55, 515-528.10.4141/cjps75-078
    Search in Google Scholar
  21. Dai, F., Wang, J., Zhang, S., Xu, Z., Zhang, G. (2007). Genotypic and environmental variation in phytic acid content and its relation to protein content and malt quality in barley. Food Chem., 105, 606-611.10.1016/j.foodchem.2007.04.019
    Search in Google Scholar
  22. Darlington, H.F., Tesci, L., Harris, N., Griggs, D.L., Cantrell, I.C., Shewry, P.R. (2000). Starch granule associated proteins in barley and wheat. J. Cereal Sci., 32, 21-29.10.1006/jcrs.2000.0312
    Search in Google Scholar
  23. Darroch, C.S., Aherne, F.X., Helm, J., Sauer, W.C., Jaikaran, S. (1996). Effect of dietary level of barley hulls and fibre type on protein and energy digestibilities of Condor hulless barley in growing swine. Animal Feed Sci. Technol., 61, 173-182.10.1016/0377-8401(95)00935-3
    Search in Google Scholar
  24. Degola, L. Belicka, I. (2005). Hulless-barley for nutrition of high breeding value pig. In: Proceedings of XI Baltic Animal Breeding and Genetics Conference, May 2005, Palanga, Lithuania, pp. 202-206.
    Search in Google Scholar
  25. Doll, H. (1973). Inheritance of high lysin character of a barley mutant. Hereditas, 74, 293-294.10.1111/j.1601-5223.1973.tb01131.x
    Search in Google Scholar
  26. Edney, M.J. (1996). Barley. In: Cereal Grain Quality (pp. 113-146). Henry, R.J., Kettlewell, P.S. (eds.). Cambridge: Chapman and Hall, The University Press.
    Search in Google Scholar
  27. Eggum, B.O., Braunsgaard, G., Jensen, J. (1995). The nutritive value of new high-lysine barley mutants. J. Cereal Sci., 22, 171-176.10.1016/0733-5210(95)90047-0
    Search in Google Scholar
  28. Elfverson, C., Andersson, A.A., Aman, P., Regner, S. (1999). Chemical composition of barley cultivars fractionated by weighing, pneumatic classification, sieving, and sorting on a specific gravity tabele. Cereal Chem., 76(3), 434-438.10.1094/CCHEM.1999.76.3.434
    Search in Google Scholar
  29. Engstrom, D.F., Mathison, G.W., Goonewardene, L.A. (1992). Effect of beta-glucan, starch, and fibre content and steam vs. dry rolling of barley grain on its degradability and utilisation by steers. Animal Feed Sci. Technol., 37, 33-46.10.1016/0377-8401(92)90118-P
    Search in Google Scholar
  30. Evers, A.D., Blakeney, A.B., Brien, L.O. (1999). Cereal structure and composition. Austral. J. Agr. Res., 50, 629-650.10.1071/AR98158
    Search in Google Scholar
  31. Fairbairn, S.L., Patience, J.F., Classen, H.L., Zijlstra, R.T. (1999). The energy content of barley fed to growing pigs: Charcterizing the nature of its variability and developing prediction equitions for its estimation. J. Animal Sci., 77, 1502-1512.10.2527/1999.7761502x10375227
    Search in Google Scholar
  32. Fastnaught, C.F., Berglund, P.T., Holm, E.T., Fox, G.J. (1996). Genetic and environmental variation in β-glucan content and quality parameters of barley for food. Crop Sci., 36, 941-946.10.2135/cropsci1996.0011183X003600040021x
    Search in Google Scholar
  33. Fox, G.P., Kelly A., Poulsen D., Inkerman A., Henry R. (2006). Selecting for increased barley grain size. J. Cereal Sci., 43, 198-208.10.1016/j.jcs.2005.08.004
    Search in Google Scholar
  34. Fox, G.P., Nguyen, L., Bowman, J., Poulsen, D., Inkerman, A., Henry, R. (2007). Relationships between hardness genes and quality in barley (Hordeum vulgare L.). J. Inst. Brew., 113 (1), 87-95.10.1002/j.2050-0416.2007.tb00261.x
    Search in Google Scholar
  35. Fregeau-Reid, J., Thin-Meiw, C., Ho, K., Martin, R.A., Konishi, T. (2001). Comparison of two-row and six-row barley for chemical composition using doubled-haploid lines. Crop Sci., 41, 1737-1743.10.2135/cropsci2001.1737
    Search in Google Scholar
  36. Gabert, V.M., Jorgensen, H., Brunsgaard, G., Eggum, B.O., Jensen, J. (1996). The nutritional value of new high-lysine barley varieties determined with rat and young pigs. Can. J. Animal Sci., 76, 443-450.10.4141/cjas96-064
    Search in Google Scholar
  37. Gaines, C.S., Finney, P.F., Fleege, L.M., Andrews, L.C. (1996). Predicting a hardness measurements using the Single Kernel Characterisation System. Cereal Chem., 73, 278-283.
    Search in Google Scholar
  38. Grausgruber, H., Schoenlechner, R., Zahlner, V., Berghofer, E., Ruckenbauer, P. (2004). Beta-glucan content of old and modern spring barleys, In: 9th International Barley Genetic Symposium, Brno, Czech Republic, 20-26 June (pp. 442-448). Brno.
    Search in Google Scholar
  39. Greenwell, P., Schofield, J.D. (1986). A starch granule protein associated with endosperm softness in wheat. Cereal Chem., 63, 379-380.
    Search in Google Scholar
  40. Helm, J.H., Metzer, R.J., Kronstad, W.E. (1974). Inheritance of high lysine in Hiproly barley and its association with the Hiproly endosperm gene. Crop Sci., 14, 637-640.10.2135/cropsci1974.0011183X001400050008x
    Search in Google Scholar
  41. Henry, R.J., Cowe, I. (1990). Factors influencing the hardness (milling energy) and malting quality of barley. J. Inst. Brew., 96, 135-136.10.1002/j.2050-0416.1990.tb01024.x
    Search in Google Scholar
  42. Hogan J.P., Flinn P.C. (1999). An assessment by in vivo methods of grain quality for ruminants. Austral. J. Agr. Res., 50, 843-854.10.1071/AR98170
    Search in Google Scholar
  43. Holopainen, U.P., Wilhelmson, A., Salmenkallio-Marttila, M., Peltonen-Sainio, P., Reinikainen, P., Kotaviita, E., Simolin, H., Home, S. (2005). Endosperm effects the malting quality of barley (Hordeum vulgare L.). J. Agr. Food Chem., 53, 7279-7287.10.1021/jf050349b
    Search in Google Scholar
  44. Hunt, C.W. (1996). Factors affecting the feeding quality of barley for ruminats. Animal Feed Sci. Technol., 62, 37-48.10.1016/S0377-8401(96)01004-8
    Search in Google Scholar
  45. Huntington, G.B. (1997). Starch utilization by ruminats: From basics to the bunk. J. Animal Sci., 75, 852-867.10.2527/1997.753852x
    Search in Google Scholar
  46. Izydorczyk, M.S., Storslay, J., Labossiere, D., MacGregor, A.W., Rossnagel, B.G. (2000). Variation in total and solube β-glucan content in hulless barley: Effects of thermal, physical and enzimatic treatments. J. Agr. Food Chem., 48, 982-989. Jagtab, S.S., Beardsley, A., Forrest, J., Ellis (1993). Protein composition and grain quality in barley. Aspects Appl. Biol., 36, 51-59.
    Search in Google Scholar
  47. Kang, M.Y., Sugimoto, Y., Kato, I., Sakamoto, S., Fuwa, H. (1985). Some properties of large and small starch granules of barley (Hordeum vulgare L.) endosperm. Agr. Biol. Chem., 49, 1291-1297.10.1271/bbb1961.49.1291
    Search in Google Scholar
  48. Kies, A.K., Van Hemert, K.H.F., Sauer, W.C. (2001). Effect of phytase on protein and amino acid digestibility and energy utilization. World's Poultry Sci. J., 57, 109-126.10.1079/WPS20010009
    Search in Google Scholar
  49. Klemsdal, S.S., Olsen, O.A., Rorvik, K.A. (1987). The barley high lysine genes of mutants 1508 and 527 alter hordein polypeptide composition quantitatively, but not qualitatively. Hereditas, 107(1), 107-114.10.1111/j.1601-5223.1987.tb00274.x
    Search in Google Scholar
  50. Klopfenstein, C.F. (1988). The role of cereal beta-glucans in nutrition and health. Cereal Foods World, 33, 865-869.
    Search in Google Scholar
  51. Lange, M., Vincze, E., Wieser, E., Holm, H. (2006). Developing a feed barley with improved amino acid composition to meet environmental and nutritional demands. In: Proceedings of Eucarpia Conference. Cereal Science and technology for feeding ten billion people: Genomics era and beyond 13-17 November 2006, Lleida, Spain (pp. 305-308).
    Search in Google Scholar
  52. Legzdina, L., Buerstmayr, H. (2004). Comparison of infection with Fusarium head blight and acumulation of micotoxins in grain of hulless and covered barley. J. Cereal Sci., 40(1), 61-67.10.1016/j.jcs.2004.03.002
    Search in Google Scholar
  53. Li, J.H., Vasanthan, T., Rossnagel, B., Hoover, R. (2001). Starch from hull-less barley: I Granule morphology, composition and amylopectin structure. Food Chem., 74, 395-405.10.1016/S0308-8146(01)00246-1
    Search in Google Scholar
  54. Linares, L.B., Broomhead, J.N., Guaiume, E.A., Ledoux, D.R., T. L. Veum, T.L., Raboy, V. (2007). Effects of low phytate barley (Hordeum vulgare L.) on zinc utilization in young broiler chicks. Poultry Sci., 86, 299-308.10.1093/ps/86.2.29917234843
    Search in Google Scholar
  55. Manner, D.J. (1985). Some aspects of the structure of starch. Cereal Food World, 30, 461-467.
    Search in Google Scholar
  56. Mauro, D.J. (1996). An update on Starch. Cereal Food World, 41, 776-780.
    Search in Google Scholar
  57. McNab, J.M., Smithard, R.R. (1992). Barley β-glucan: An antinutritional factor in poultry feeding. Nutr. Res. Rev., 5, 45-60.10.1079/NRR1992000619094312
    Search in Google Scholar
  58. Molina-Cano, J.L., Voltas, J., Irta, U. de L. (1996). β-glucan and hordein contents of developing grain in Spain and Scotland. In: Proceedings of V International Oat conference & VII Barley genetic Symposium, 30 July - 6 August 1993, Saskatoon (pp. 132-133). Saskatoon.
    Search in Google Scholar
  59. Molina-Cano, J.K., Swanston, J.S., Ulrich, S.E. (2000). Genetic and environmental effects on malting and feed quality of barley: A dynamic field of study. In: 8th International Barley Genetics Symposium, Barley Genetics VIII.22-27 October 2000, Adelaide (pp. 127-134). Adelaide.
    Search in Google Scholar
  60. Morrison, W.R., Scott, D.C., Karkalas, J. (1986). Variation in the composition and physical properties of barley starch. Starke, 38(11), 374-379.10.1002/star.19860381104
    Search in Google Scholar
  61. Morrison, W.R. (1995). Starch lipids and how they relate to starch granules structure and functionality. Cereal Food World, 40, 437-446.
    Search in Google Scholar
  62. Munk, L., Karlson, K.E., Hagberg, A., Eggum, B.O. (1970). Gene for improved nutritional value in barley seed protein. Science, 168, 985-987.10.1126/science.168.3934.9854909621
    Search in Google Scholar
  63. Munk, L. (1981). Barley for food, feed and industry. In: Cereals.A Renewable Resource, Theory and Practice (pp. 427-459). Pomeranz, Y., Munk, L. (eds.). St. Paul, MN: American Association of Cereal Chemists.
    Search in Google Scholar
  64. Newman, R.K., Newman, C.W., Graham, H. (1989). The hypocholesterolemic function of barley β-glukans. Cereal Food World. 34, 883-886.
    Search in Google Scholar
  65. Newman, C.W., Newman, R.K. (1989). Nutritional aspects of barley as a livestock feed. In: Proceedings of the Prairie Barley Symposium.20-22 March 1989 Saskatoon (pp. 99-107). Saskatoon.
    Search in Google Scholar
  66. Newman, C.W., Newman, R.K. (1992a). Characteristics of the ideal barley for feed, Barley research reviews 1986-91. In: Barley Genetics VI Session and Workshops Summaries, II (pp. 925-939). Munksgaard International Publishers.
    Search in Google Scholar
  67. Newman, C.W., Newman, R.K. (1992b). Nutritional aspects of barley seed structure and composition. In: Barley: Genetics, Biochemistry, Molecular Biology and Biotechnology (pp. 351-368). Shewry, P.R. (ed.). CAB International.
    Search in Google Scholar
  68. Olkku, J., Kotaviita, E., Salmenkallio-Martilla, M., Sweins, H., Holm, S. (2005). Connection between structure and quality of barley husk. J. Amer. Soc. Brew. Chem., 63, 17-22.10.1094/ASBCJ-63-0017
    Search in Google Scholar
  69. Oscarsson, M., Parkkoen, T., Auto, K., Aman, P. (1997). Composition and microstructure of normal, waxy and high-amylose barley samples. J. Cereal Sci., 26, 259-264.10.1006/jcrs.1997.0118
    Search in Google Scholar
  70. Osītis U. (1998). Barības līdzeklu novertēšana atgremotāju ēdināšanā metodiskais materiāls [Evalution of feeding materials for ruminants].
    Search in Google Scholar
  71. Jelgava, LLU. 48 lpp. (in Latvian). Pasarella, V.S., Savin, R., Slafer, G.A. (2005). Breeding effects on sensitivity barley grain weight and quality to events of high temeprature during grain filling. Euphytica, 141, 41-48.10.1007/s10681-005-5068-4
    Search in Google Scholar
  72. Peltonen, J., Rita, H., Aikasalo, R., Home, S. (1994). Hordein and malting quality in northen barleys. Hereditas, 120, 231-239.10.1111/j.1601-5223.1994.00231.x
    Search in Google Scholar
  73. Poulsen, H.D., Johansen, K.S., Hatzack, F., Boisen, S., Rasmussen, S.K. (2001). Nutritional value of low-phytate barley evaluated in rats. Acta Agriculturae Scandinavica, 51(1), 53-58.10.1080/090647001300004790a
    Search in Google Scholar
  74. Pryma, J., Ehrenbergerova, J., Belcrediova, N., Vaculova, K. (2007). Tocol content in barley. Acta Chim. Slovenia, 54, 102-105.
    Search in Google Scholar
  75. Raboy, V., Cook, A., Wesenberg, D., Rossnagel, G. (2000). Low phytate barleys. In: Proceedings of 8th Intrenational Barley Genetic Symposium. 22-27 October 2000, Adelaide, Australia (pp. 147-153). Adelaide.
    Search in Google Scholar
  76. Rodomiro, O., Nurminiemi, M., Madsen, S., Rognli, O.A., Bjornstad, A. (2002). Genetic gains of Nordic spring barley breeding over sixty years. Euphytica, 126, 283-289.10.1023/A:1016302626527
    Search in Google Scholar
  77. Rossnagel B.G. (2000) Hulless barley—Western Canada corn. Proceedings of the 8th International Barley Genetics Symposium, Vol. 1 (pp. 135-142). Adelaide.
    Search in Google Scholar
  78. Salomonsson, A.C., Theander, O., Aman, P. (1980) Composition of normal and high-lysine barleys. Swedish J. Agr. Res., 10, 11- 16.
    Search in Google Scholar
  79. Selle, P.H., Ravindran, V., Caldwell, R.A., Bryden, W.L. (2000). Phytate and phytase: Consequences for protein utilization. Nutr. Res. Rev., 13, 255-278.10.1079/095442200108729098
    Search in Google Scholar
  80. Shewry, P.R., Morell, M. (2001). Manipulating cereal endosperm structure, development and composition to improve end-use properties. Adv. Bot. Res., 34,165-234.10.1016/S0065-2296(01)34009-0
    Search in Google Scholar
  81. Shewry, P.R., Halford, N.G. (2002). Cereal seed storage proteins: Structures, properties and role in grain utilization. J. Exper. Bot., 53. 947-958.10.1093/jexbot/53.370.947
    Search in Google Scholar
  82. Shirley, B.W. (1998). Flavonoids in seeds and grains: Physiological function, agronomic importance and the genetics of biosynthesis. Seed Sci. Res., 8, 415-422.10.1017/S0960258500004372
    Search in Google Scholar
  83. Song, Y., Jane, J. (2000). Characterisation of barley starches of waxy, normal and high amilose varieties. Carbohydr. Polym., 41, 365-377.10.1016/S0144-8617(99)00098-3
    Search in Google Scholar
  84. Stewart, A., Nield, H., Lott, J.N.A. (1988). An investigation of the mineral content of barley grains and seedlings. Plant Physiol., 89, 93-97.10.1104/pp.86.1.93
    Search in Google Scholar
  85. Svihus, B., Gullord, M. (2002). Effect of chemical content and physical characteristics on nutritional value of wheat, barley and oat for poultry. Animal Feed Sci. Technol., 102 (1-4), 71-92.10.1016/S0377-8401(02)00254-7
    Search in Google Scholar
  86. Svihus, B., Uhlen, A.K., Harstad, O.M. (2005). Effect of starch granule structure, associated components and processing on nutritive value of cereal starch: A review. Animal Feed Sci. Technol., 122, 303-320.10.1016/j.anifeedsci.2005.02.025
    Search in Google Scholar
  87. Swantston, J.S. (1997). Waxy starch barley genotypes with reduced β-glucan content. Cereal Chem., 74, 452-455.10.1094/CCHEM.1997.74.4.452
    Search in Google Scholar
  88. Turuspekov, Y., Beecher, B., Darlington, Y., Bowman, J., Blake, T.K., Giroux, M.J. (2008). Hardness locus sequence variation and endosperm texture in spring Barley. Crop Sci., 48, 1007-1019.10.2135/cropsci2007.08.0424
    Search in Google Scholar
  89. Ullrich, S.E., Han, F., Froseth, J.A., Jones, B.L., Newman, C.W., Wesenberg, D.M. (1996). Mapping of loci affect carbonhydrate content in barley grain. In: Proceedings of V International Oat Conference&VII Barley Genetic Symposium, Saskatoon, 30 July - 6 August 1993 (pp. 141-143). Saskatoon.
    Search in Google Scholar
  90. Vasanthan, T., Bhatty, R.S. (1996). Physicochemical prpoperties of smalland large-granule starches of waxy, regular and high amilose barleys. Cereal Chem, 73, 199-207.
    Search in Google Scholar
  91. Veum, T.L., Ledoux, D.R., Bollinger, D.W., Raboi, V., Cook, A. (2002). Low phytic acid barley improves calcium and phosphorus utilisation and growth performance in growing pigs. J. Animal Sci., 80, 2663-2670.
    Search in Google Scholar
  92. Washington, J.M., Box, A., Karakousis, A., Barr, A.R. (2000). Developing Waxy Barley cultivars for food, feed and malt. In: Proceedings of the 8th International Barley Genetic Symposium, Barley Genetics, VIII, Vol. II (pp. 303-306).
    Search in Google Scholar
  93. Welch, R.W. (1978). Genotypic variation of oil and protein barley grain. J. Sci. Fod Agr., 29, 953-958.10.1002/jsfa.2740291109
    Search in Google Scholar
  94. Wrigley, C.W. (1999). Potential methodologies and strategies for a rapid assessment of feed grain quality. Austral. J. Agr. Res., 50, 789-805.10.1071/AR98167
    Search in Google Scholar
  95. Xue, Q.L., Newman, C.W., Graham, H. (1997). Influence of the hulless, waxy starch and short-awn genes on the composition of barleys. J. Cereal Sci., 26, 251-257.10.1006/jcrs.1996.0114
    Search in Google Scholar
  96. Zhang, W.J., Campbell, L.D., Stothers, S.C. (1994). An investigation of the feasibility of predicting nitrogen corrected true metabolizable energy (TMEn) content in barley from chemical composition and physical characteristics. Can. J. Animal Sci., 74, 355-359.10.4141/cjas94-048
    Search in Google Scholar
  97. Zheng, G.H., Rossnagel, B.G., Tyler, R.T., Bhatty, R.S. (2000). Distribution of β-glucan in the grain of hull-less barley. Cereal Chem., 77, 140-144.10.1094/CCHEM.2000.77.2.140
    Search in Google Scholar
DOI: https://doi.org/10.2478/v10046-011-0039-8 | Journal eISSN: 2255-890X | Journal ISSN: 1407-009X
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Language: English
Page range: 1 - 9
Published on: Jun 28, 2012
Published by: Latvian Academy of Sciences
In partnership with: Paradigm Publishing Services
Publication frequency: 6 issues per year
Keywords:
spring barley,
traits of feed grain quality,
breeding
Related subjects:
General interest,
Mathematics,
General mathematics

© 2012 Māra Bleidere, Zinta Gaile, published by Latvian Academy of Sciences
This work is licensed under the Creative Commons License.

Volume 66 (2012): Issue 1-2 (April 2012)