Section A. Physiology. Part 1. The Physiology of the rumen. Part 2. Rumen microbiology

R. N. B. Kay; P. N. Hobson

doi:10.1017/S0022029900011468

Abou Akkada, A. R. & Blackburn, T. H. (1963). J. gen. Microbiol. 31 (in the Press).Google Scholar

Abou Akkada, A. R. & Howard, B. H. (1962). Biochem. J. 82, 313.Google Scholar

Ackerman, R. A. & Fike, J. E. (1955). J. Dairy Sci. 38, 607.Google Scholar

Adler, J. H., Dye, J. A., Boggs, D. E. & Williams, H. H. (1958). Cornell Vet. 48, 53.Google Scholar

Allison, M. J. & Bryant, M. P. (1962). VIII Int. Cong. Microbiol., Montreal, Abs. p. 42.Google Scholar

Allison, M. J., Bryant, M. P. & Doetsch, R. N. (1962). J. Bact. 83, 523.CrossRef Google Scholar

Allison, M. J., Bryant, M. P., Katz, I. & Keeney, M. (1962). J. Bact. 83, 1084.Google Scholar

Anand, B. K. (1961). Physiol. Rev. 41, 677.CrossRef Google Scholar

Anderson, C. M. (1956). N.Z. J. Sci. Tech. 37 A, 379.Google Scholar

Andersson, B. & McCann, S. M. (1955). Acta physiol. scand. 35, 191.CrossRef Google Scholar

Annison, E. F. (1954). Biochem. J. 58, 670.Google Scholar

Annison, E. F. (1956). Biochem J. 64, 705.Google Scholar

Annison, E. F. & Lewis, D. (1959). Metabolism in the Rumen. London: Methuen.Google Scholar

Appleby, J. C. (1955). J. gen. Microbiol. 12, 526.CrossRef Google Scholar

Arnold, G. W. (1960). Aust. J. agric. Res. 11, 1026.Google Scholar

Ash, R. W. (1959). J. Physiol. 147, 58.Google Scholar

Ash, R. W. (1961). J. Physiol. 156, 93.Google Scholar

Ash, R. W. (1962 a). J. Physiol. 164, 25P.Google Scholar

Ash, R. W. (1962 b). Anim. Prod. 4, 309.Google Scholar

Ash, R. W. & Dobson, A. (1963). J. Physiol. (in the Press).Google Scholar

Ash, R. W. & Kay, R. N. B. (1959). J. Physiol. 149, 43.CrossRef Google Scholar

Ayers, W. A. (1958). J. Bact. 76, 504.Google Scholar

Badawy, A. M., Campbell, R. M., Cuthbertson, D. P. & Fell, B. F. (1957). Nature, Lond., 180, 756.Google Scholar

Badawy, A. M., Campbell, R. M., Cuthbertson, D. P., Fell, B. F. & Mackie, W. S. (1958). Brit. J. Nutr. 12, 367.Google Scholar

Bailey, C. B. (1961 a). Brit. J. Nutr. 15, 443.Google Scholar

Bailey, C. B. (1961 b). Brit. J. Nutr. 15, 489.CrossRef Google Scholar

Bailey, C. B. (1962). Canad. J. Anim. Sci. 42, 49.Google Scholar

Bailey, C. B. & Balch, C. C. (1961 a). Brit. J. Nutr. 15, 371.Google Scholar

Bailey, C. B. & Balch, C. C. (1961 b). Brit. J. Nutr. 15, 383.Google Scholar

Balch, C. C. (1958). Brit. J. Nutr. 12, 330.Google Scholar

Balch, C. C. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 23, ed. Lewis, D.London: Butterworths.Google Scholar

Balch, C. C, Balch, D. A., Johnson, V. W. & Turner, J. (1953). Brit. J. Nutr. 7, 212.Google Scholar

Balch, C. C. & Campling, R. C. (1961). J. Dairy Res. 28, 157.Google Scholar

Balch, C. C. & Campling, R. C. (1962). Nutr. Abstr. Rev. 32, 669.Google Scholar

Balch, C. C. & Line, C. (1957). J. Dairy Res. 24, 11.Google Scholar

Balch, D. A. (1958). Brit. J. Nutr. 12, 18.Google Scholar

Balch, D. A. & Rowland, S. J. (1957). Brit. J. Nutr. 11, 288.Google Scholar

Baldwin, R. L. & Emery, R. S. (1959). J. Dairy Sci. 42, 914.Google Scholar

Baldwin, R. L., Wood, W. A. & Emery, R. S. (1962. J. Bact. 83, 907.Google Scholar

Barnett, A. J. G. & Reid, R. L. (1961). Reactions in the Rumen. London: Edward Arnold.Google Scholar

Bartley, E. E. & Bassette, R. (1961). J. Dairy Sci. 44, 1365.Google Scholar

Bartley, E. E. & Fina, L. R. (1961). Proc. 6th Conf. Rumen Function, Chicago, p. 15.Google Scholar

Bauchop, T. & Elsden, S. F. (1960). J. gen. Microbiol. 23, 457.Google Scholar

Beames, R. M. (1959). Queensland J. agric. Sci. 16, 223.Google Scholar

Beilharz, S., Denton, D. A. & Sabine, J. R. (1962). J. Physiol. 163, 378.Google Scholar

Beilharz, S. & Kay, R. N. B. (1963). J. Physiol. 165, 468.CrossRef Google Scholar

Beijer, W. H. (1952). Nature, Lond., 170, 576.Google Scholar

Belasco, I. J. (1954). J. Anim. Sci. 13, 601.Google Scholar

Bell, F. R. & Williams, H. L. (1960). J. Physiol. 151, 42P.Google Scholar

Bellows, R. T. (1939). Amer. J. Physiol. 125, 87.CrossRef Google Scholar

Bentley, O. G., Johnson, R. R., Hershberger, T. V., Cline, J. H. & Moxon, A. L. (1955). J. Nutr. 57, 389.Google Scholar

Blackburn, T. H. & Hobson, P. N. (1960 a). Brit. J. Nutr. 14, 445.CrossRef Google Scholar

Blackburn, T. H. & Hobson, P. N. (1960 b). J. gen. Microbiol. 22, 272.Google Scholar

Blackburn, T. H. & Hobson, P. N. (1962). J. gen. Microbiol. 29, 69.Google Scholar

Bladen, H. A., Bryant, M. P. & Doetsch, R. N. (1961). Appl. Microbiol. 9, 175.Google Scholar

Blake, J. T., Allen, R. S. & Jacobson, N. L. (1957). J. Anim. Sci. 16, 190.CrossRef Google Scholar

Blaxter, K. L. (1950). Nutr. Abstr. Rev. 20, 1.Google Scholar

Blaxter, K. L. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 183, ed. Lewis, D.London: Butterworths.Google Scholar

Blaxter, K. L. (1962). The Energy Metabolism of Ruminants. London: Hutchinson.Google Scholar

Blaxter, K. L., Graham, N. McC. & Wainman, F. W. (1956). Brit. J. Nutr. 10, 69.Google Scholar

Blaxter, K. L., Wainman, F. W. & Wilson, R. S. (1961). Anim. Prod. 3, 51.Google Scholar

Blaxter, K. L. & Wilson, R. S. (1962). Anim. Prod. 4, 351.Google Scholar

Block, R. J., Stekol, J. A. & Loosli, J. K. (1951). Arch. Biochem. 33, 353.Google Scholar

Blokh, E. L. (1939). Sechenov J. Physiol. 27, 200.Google Scholar

Boyne, A. W., Campbell, R. M., Davidson, J. & Cuthbertson, D. P. (1956). Brit. J. Nutr. 10, 325.Google Scholar

Briggs, P. K., Franklin, M. C. & McClymont, G. L. (1957). Aust. J. agric. Res. 8, 75.Google Scholar

Briggs, P. K., Hogan, J. P. & Reid, R. L. (1957). Aust. J. agric. Res. 8, 674.Google Scholar

Broberg, G. (1958). Nord. Vet.-Med. 10, 263.Google Scholar

Brownlee, A. (1956). Brit. vet. J. 112, 369.Google Scholar

Bruno, C. F. & Moore, W. E. C. (1962). J. Dairy Sci. 45, 109.Google Scholar

Bryant, M. P. (1952). J. Bact. 64, 325.Google Scholar

Bryant, M. P. (1956). J. Bact. 72, 162.Google Scholar

Bryant, M. P. (1959). Bact. Rev. 23, 125.Google Scholar

Bryant, M. P. & Burkey, L. A. (1953). J. Dairy Sci. 36, 205.Google Scholar

Bryant, M. P. & Robinson, I. M. (1961 a). J. Dairy Sci. 44, 1446.Google Scholar

Bryant, M. P. & Robinson, I. M. (1961 b). Appl. Microbiol. 9, 96.Google Scholar

Bryant, M. P. & Robinson, I. M. (1962 a). J. Bact. 84, 605.CrossRef Google Scholar

Bryant, M. P. & Robinson, I. M. (1962 b). VIII Int. Cong. Microbiol., Montreal, Abs. p. 42.Google Scholar

Bryant, M. P. & Small, N. (1960). J. Dairy Sci. 43, 654.Google Scholar

Bryant, M. P., Small, N., Bouma, C. & Robinson, I. M. (1958 a). J. Dairy Sci. 41, 1747.Google Scholar

Bryant, M. P., Small, N., Bouma, C. & Chu, H. (1958 b). J. Bact. 76, 15.Google Scholar

Bullen, J. J., Scarisbrick, R. & Maddock, A. (1953). J. Path. Bact. 65, 209.Google Scholar

Campling, R. C. & Balch, C. C. (1961). Brit. J. Nutr. 15, 523.Google Scholar

Campling, R. C., Freer, M. & Balch, C. C. (1961). Brit. J. Nutr. 15, 531.CrossRef Google Scholar

Campling, R. C., Freer, M. & Balch, C. C. (1962). Brit. J. Nutr. 16, 115.Google Scholar

Carroll, E. J. & Hungate, R. E. (1955). Arch. Biochem. Biophys. 56, 525.Google Scholar

Church, D. C., Jessup, G. L. & Bogart, R. (1962). Amer. J. vet. Res. 23, 220.Google Scholar

Clark, R. & Weiss, K. E. (1952). J. S. Afr. vet. med. Ass. 23, 163.Google Scholar

Coats, D. A., Denton, D. A., Goding, J. R. & Wright, R. D. (1956). J. Physiol. 131, 13.Google Scholar

Coats, D. A. & Wright, R. D. (1957). J. Physiol. 135, 611.Google Scholar

Cole, H. H. & Boda, J. M. (1960). J. Dairy Sci. 43, 1585.CrossRef Google Scholar

Cole, H. H., Huffman, C. F., Kleiber, M., Olson, T. M. & Schalk, A. F. (1945). J. Anim. Sci. 4, 183.Google Scholar

Cole, H. H., Mead, S. W. & Kleiber, M. (1942). Bull. Calif, agric. Exp. sta. no. 662.Google Scholar

Coleman, G. S. (1960). J. gen. Microbiol. 22, 423.Google Scholar

Colvin, H. W., Wheat, J. D., Rhode, E. A. & Boda, J. M. (1957). J. Dairy Sci. 40, 492.Google Scholar

Comline, R. S. & Titchen, D. A. (1957). J. Physiol. 139, 24P.Google Scholar

Comline, R. S. & Titchen, D. A. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 10, ed. Lewis, D.London: Butterworths.Google Scholar

Conrad, H. R. & Hibbs, J. W. (1953). J. Dairy Sci. 36, 1326.Google Scholar

Coombe, J. B., Tribe, D. E. & Morrison, J. W. C. (1960). Aust. J. agric. Res. 11, 247.Google Scholar

Corbett, J. L. (1961). J. R. agric. Soc. 122, 175.Google Scholar

Crampton, E. W. (1957). J. Anim. Sci. 16, 546.Google Scholar

Crampton, E. W., Donefer, E. & Lloyd, L. E. (1960). J. Anim. Sci. 19, 538.Google Scholar

Cresswell, E. (1960). Nature, Lond., 186, 560.Google Scholar

Cunningham, H. M. (1958). Canad. J. Anim. Sci. 38, 84.Google Scholar

Cuthbertson, D. P. & Hobson, P. N. (1961). World Rev. Nutr. Diet. 2, 67.Google Scholar

Danielli, J. F., Hitchcock, M. W. S., Marshall, R. A. & Phillipson, A. T. (1945). J. exp. Biol. 22, 75.Google Scholar

Davey, L. A., Cheeseman, G. C. & Briggs, C. A. E. (1960). J. agric. Sci. 55, 155.Google Scholar

Dawson, R. M. C. (1959). Nature, Lond., 183, 1822.Google Scholar

Denton, D. A. (1956). J. Physiol. 131, 516.Google Scholar

Denton, D. A. (1957 a). Quart. J. exp. Physiol. 42, 72.Google Scholar

Denton, D. A. (1957 b). Nature, Lond., 179, 341.Google Scholar

Denton, D. A., Goding, J. R., Sabine, R. & Wright, R. D. (1961). Proceedings of the Teheran symposium on salinity problems in the arid zones. Arid zone Research 14, UNESCO.Google Scholar

Denton, D. A., Goding, J. R. & Wright, R. D. (1960). Clinical Endocrinology, 1, 373.Google Scholar

Denton, D. A. & Sabine, J. R. (1961). J. Physiol. 157, 97.Google Scholar

Dinda, P. K. (1960). Ph.D. thesis, University of Aberdeen.Google Scholar

Dobson, A. (1959). J. Physiol. 146, 235.Google Scholar

Dobson, A. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 68, ed. Lewis, D.London: Butterworths.Google Scholar

Dobson, A. (1963). Res. vet. Sci. (in the Press).Google Scholar

Dobson, A. & McDonald, I. (1963). Res. vet. Sci. (in the Press).Google Scholar

Dobson, A. & Phillipson, A. T. (1956). J. Physiol. 133, 76P.Google Scholar

Dobson, A. & Phillipson, A. T. (1958). J. Physiol. 140, 94.Google Scholar

Dobson, M. J., Brown, W. C. B., Dobson, A. & Phillipson, A. T. (1956). Quart. J. exp. Physiol. 41, 247.Google Scholar

Doetsch, R. N., Howard, B. H., Mann, S. O. & Oxford, A. E. (1957). J. gen. Microbiol. 16, 156.Google Scholar

Dougherty, R. W., Habel, R. E. & Bond, H. E. (1958). Amer. J. vet. Res. 19, 115.Google Scholar

Dougherty, R. W., Hill, K. J., Campeti, F. L., McClure, R. C. & Habel, R. E. (1962). Amer. J. vet. Res. 23, 213.Google Scholar

Dougherty, R. W., Stewart, W. E., Nold, M. M., Lindahl, I. L., Mullenax, C. H. & Leek, B. F. (1962). Amer. J. vet. Res. 23, 205.Google Scholar

Eadie, J. M. (1962 a). J. gen. Microbiol. 29, 563.Google Scholar

Eadie, J. M. (1962 b). J. gen. Microbiol. 29, 579.Google Scholar

Eadie, J. M. & Hobson, P. N. (1962). Nature, Lond., 193, 503.Google Scholar

Eadie, J. M., Hobson, P. N. & Mann, S. O. (1959). Nature, Lond., 183, 624.Google Scholar

Eckhard, C. (1893). Zbl. Physiol. 7, 365.Google Scholar

Edlefsen, J. L., Cook, C. W. & Blake, J. T. (1960). J. Anim. Sci. 19, 560.Google Scholar

Edwards, D. C. (1955). J. Dairy Res. 22, 232.Google Scholar

Elam, C. J. (1961). J. Anim. Sci. 20, 931.Google Scholar

Elovskikh, A. S. (1937 a). Sechenov J. Physiol. 23, 366.Google Scholar

Elovskikh, A. S. (1937 b). Sechenov J. Physiol. 23, 377.Google Scholar

Elsden, S. R., Volcani, B. E., Gilchrist, F. M. C. & Lewis, D. (1956). J. Bact. 72, 681.Google Scholar

Emery, R. S. & Brown, L. D. (1961). J. Dairy Sci. 44, 1899.Google Scholar

Emery, R. S., Smith, C. K. & Fai To, L. (1957). Appl. Microbiol. 5, 363.Google Scholar

Emery, R. S., Smith, C. K., Grimes, R. M., Huffman, C. F. & Duncan, C. W. (1960). J. Dairy Sci. 43, 76.Google Scholar

Emery, R. S., Smith, C. K. & Huffman, C. F. (1957). Appl. Microbiol. 5, 360.Google Scholar

Fábry, P., Petrásek, R., Kujalová, V. & Holečková, E. (1962). Adaptace na změněný príjem potravy (Adaptation to changed pattern of food intake). Babákova sbírka, 29. Prague: S. Zd. N.Google Scholar

Fels, F. E. (1959). J. Agric., W. Aust. 8, 739.Google Scholar

Ferguson, W. S. & Terry, R. A. (1953). Nature, Lond., 172, 346.Google Scholar

Ferguson, W. S. & Terry, R. A. (1955). J. agric. Sci. 46, 257.Google Scholar

Flatt, W. P., Warner, R. G. & Loosli, J. K. (1958). J. Dairy Sci. 41, 1593.Google Scholar

Fraser, J. G. (1961). N.Z. J. agric. Res. 4, 224.Google Scholar

Freer, M., Campling, R. C. & Balch, C. C. (1962). Brit. J. Nutr. 16, 279.Google Scholar

French, M. H. (1956). Emp. J. exp. Agric. 24, 128.Google Scholar

Garton, G. A. (1960). Nutr. Abstr. Rev. 30, 1.Google Scholar

Garton, G. A. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 140, ed. Lewis, D.London: Butterworths.Google Scholar

Garton, G. A., Hobson, P. N. & Lough, A. K. (1958). Nature, Lond., 182, 1511.Google Scholar

Garton, G. A., Lough, A. K. & Vioque, E. (1961). J. gen. Microbiol. 25, 215.Google Scholar

Gibbons, R. J., Doetsch, R. N. & Shaw, J. C. (1955). J. Dairy Sci. 38, 1147.Google Scholar

Gilchrist, F. M. C. & Kistner, A. (1962). J. agric. Sci. 59, 77.Google Scholar

Gill, J. W. & King, K. W. (1958). J. Bact. 75, 666.Google Scholar

Gordon, G. R. & Moore, W. E. C. (1961). J. Dairy Sci. 44, 1772.Google Scholar

Gray, F. V. (1958). J. Bact. 76, 535.Google Scholar

Gray, F. V., Pilgrim, A. F., Rodda, H. J. & Weller, R. A. (1952). J. exp. Biol. 29, 57.Google Scholar

Gray, F. V., Pilgrim, A. F. & Weller, R. A. (1954). J. exp. Biol. 31, 49.Google Scholar

Gray, F. V., Pilgrim, A. F. & Weller, R. A. (1958). Brit. J. Nutr. 12, 413.Google Scholar

Gutiterrez, J. (1953). J. Bact. 66, 123.Google Scholar

Gutiterrez, J. (1958). J. Protozool. 5, 122.Google Scholar

Gutiterrez, J. & Davis, R. E. (1959). J. Protozool. 6, 222.Google Scholar

Gutiterrez, J., Davis, R. E. & Lindahl, I. L. (1958). Science, 127, 335.Google Scholar

Gutiterrez, J., Davis, R. E., Lindahl, I. L. & Warwick, E. J. (1959). Appl. Microbiol. 7, 16.Google Scholar

Hale, W. H. (1956). J. agric. Fd Chem. 4, 948.Google Scholar

Hale, W. H. & Garrigus, V. S. (1953). J. Anim. Sci. 12, 492.CrossRef Google Scholar

Hall, O. G., Baxter, H. D. & Hobbs, C. S. (1961). J. Anim. Sci. 20, 817.Google Scholar

Halley, R. J. & Dougall, B. M. (1962). J. Dairy Res. 29, 241.Google Scholar

Hansen, A. & Schmidt-Nielsen, K. (1957). Acta anat. 31, 353.Google Scholar

Hansen, R. P., Shorland, F. B. & Cooke, N. J. (1955). Biochem. J. 61, 547.Google Scholar

Hansen, R. P., Shorland, F. B. & Cooke, N. J. (1956). Chem. & Ind. p.1149Google Scholar

Hardison, W. A., Miller, G. A. & Graf, G. C. (1957). J. Dairy Sci. 40, 363.Google Scholar

Harris, L. E. & Phillipson, A. T. (1962). Anim. Prod. 4, 97.Google Scholar

Head, M. J. (1959). Nature, Lond., 183, 757.Google Scholar

Herbert, D., Elsworth, R. & Telling, R. C. (1956). J. gen. Microbiol. 14, 601.Google Scholar

Hibbs, J. W. & Conrad, H. R. (1958). J. Dairy Sci. 41, 1230.Google Scholar

Hill, K. J. (1959). Quart. J. exp. Physiol. 44, 222.Google Scholar

Hix, E. L., Evans, L. E. & Underbjerg, G. K. L. (1953). J. Anim. Sci. 12, 459.Google Scholar

Hobson, P. N. (1959). In Oklahoma Conference—Radioisotopes in Agriculture, p. 203. Washington: U.S. Government Printing Office.Google Scholar

Hobson, P. N. & Mann, S. O. (1955). J. gen. Microbiol. 13, 420.Google Scholar

Hobson, P. N. & Mann, S. O. (1961 a). J. gen. Microbiol., 24, i.Google Scholar

Hobson, P. N. & Mann, S. O. (1961 b). J. gen. Microbiol. 25, 227.Google Scholar

Hobson, P. N., Mann, S. O. & Oxford, A. E. (1958). J. gen. Microbiol. 19, 462.Google Scholar

Hogan, J. P. (1961). Aust. J. biol. Sci. 14, 448.Google Scholar

Hogan, J. P. & Phillipson, A. T. (1960). Brit. J. Nutr. 14, 147.Google Scholar

Houpt, T. R. (1959). Amer. J. Physiol. 197, 115.Google Scholar

Howard, B. H. (1961). Proc. Nutr. Soc. 20, xxix.Google Scholar

Hubbert, F., Cheng, E. & Burroughs, W. (1958). J. Anim. Sci. 17, 576.Google Scholar

Hueter, F. G., Gibbons, R. J., Shaw, J. C. & Doetsch, R. N. (1958). J. Dairy Sci. 41, 651.Google Scholar

Hueter, F. G., Shaw, J. C. & Doetsch, R. N. (1956). J. Dairy Sci. 39, 1430.Google Scholar

Huhtanen, C. N. (1955). Proc. Soc. exp. Biol. Med. 88, 311.Google Scholar

Huhtanen, C. N., Carleton, T. S. & Roberts, H. R. (1954). J. Bact. 68, 749.Google Scholar

Humphrey, K. (1956). Rhodesia agric. J. 53, 241.Google Scholar

Hungate, R. E. (1960). Bact. Rev. 24, 353.Google Scholar

Hungate, R. E., Dougherty, R. W., Bryant, M. P. & Cello, R. M. (1952). Cornell Vet. 42, 423.Google Scholar

Hungate, R. E., Fletcher, D. W., Dougherty, R. W. & Barrentine, B. F. (1955). Appl. Microbiol. 3, 161.Google Scholar

Hungate, R. E., Phillips, G. D., McGregor, A., Hungate, D. P. & Buechner, H. K. (1959). Science, 130, 1192.Google Scholar

Hydén, S. (1958). Kungl. LantbrHögsk. Ann. 24, 55.Google Scholar

Hydén, S. (1961 a). In Digestive physiology and nutrition of the ruminant, p. 35, ed. Lewis, D.London: Butterworths.Google Scholar

Hydén, S. (1961 b). Kungl. LantbrHögsk. Ann. 27, 51.Google Scholar

Hydén, S. (1961 c). Kungl. LantbrHögsk. Ann. 27, 273.Google Scholar

Iggo, A. (1955). J. Physiol. 128, 593.Google Scholar

Jayasuriya, G. C. N. & Hungate, R. E. (1959). Arch. Biochem. Biophys. 82, 274.Google Scholar

Johns, A. T. (1951 a). J. gen. Microbiol. 5, 326.Google Scholar

Johns, A. T. (1951 b). J. gen. Microbiol. 5, 337.Google Scholar

Johns, A. T. (1951 c). J. gen. Microbiol. 5, 317.Google Scholar

Johns, A. T. (1958). Vet. Rev. Annot. 4, 17.Google Scholar

Jurtshuk, P. J., Doetsch, R. N. & Shaw, J. C. (1958). J. Dairy Sci. 41, 190.Google Scholar

Kameoka, K. & Morimoto, H. (1959). J. Dairy Sci. 42, 1187.Google Scholar

Kay, R. N. B. (1958). J. Physiol. 144, 463.Google Scholar

Kay, R. N. B. (1960 a). J. Physiol. 150, 515.Google Scholar

Kay, R. N. B. (1960 b). J. Physiol. 150, 538.Google Scholar

Kay, R. N. B. & Phillipson, A. T. (1959). J. Physiol. 148, 507.Google Scholar

Kay, R. N. B. & Phillipson, A. T. (1962). J. Physiol. 164, 2P.Google Scholar

Keeney, M., Katz, I. & Allison, M. J. (1962). J. Amer. Oil Chem. Soc. 39, 198.Google Scholar

Krasuskii, V. K. & Krymskaia, M. K. (1940). Sechenov J. Physiol. 28, 372.Google Scholar

Krinitsin, D. Ya. (1940). Sechenov J. Physiol. 28, 384.Google Scholar

Krogh, N. (1959). Acta vet. scand. 1, 74.Google Scholar

Krogh, N. (1960). Acta vet. scand. 1, 383.Google Scholar

Krogh, N. (1961). Acta vet. scand. 2, 103.Google Scholar

Ladd, J. N. & Walker, D. J. (1959). Biochem. J. 71, 364.Google Scholar

Larsson, S. (1954). Acta physiol. scand. 32, Suppl. 115, Pt. 1.Google Scholar

Lassaigne, J.-L. (1852). J. Chim. Mèd., Ser. 3, 8, 393.Google Scholar

Le Bars, H. & Simonnet, H. (1959). Ann. Zootech. 8, 81.Google Scholar

Lee, H. C. & Moore, W. E. C. (1959). J. Bact. 77, 741.Google Scholar

Leitch, I. & Thompson, J. S. (1944). Nutr. Abstr. Rev. 14, 197.Google Scholar

Lewis, D. (1954). Biochem. J. 56, 391.Google Scholar

Lewis, D. (1960). J. agric. Sci. 55, 111.Google Scholar

Lewis, D. (1961). In Digestive Physiology and Nutrition of the Ruminant, p. 127, ed. Lewis, D.London: Butterworths.Google Scholar

Lewis, D. & Elsden, S. R. (1955). Biochem. J. 60, 683.Google Scholar

Lewis, D., Hill, K. J. & Annison, E. F. (1957). Biochem. J. 66, 587.Google Scholar

Lewis, D. & McDonald, I. W. (1958). J. agric. Sci. 51, 108.Google Scholar

Lewis, T. R., Emery, R. S. & Everett, J. P. (1958). J. Dairy Sci. 41, 731.Google Scholar

Lindhé, B. & Sperber, I. (1959). Kungl. LantbrHügsk. Ann. 25, 321.Google Scholar

Livingston, H. G., Payne, W. J. A. & Friend, M. T. (1962). Nature, Lond., 194, 1057.Google Scholar

Lloyd Davies, H. (1962). Proc. Aust. Soc. Anim. Prod. 4, 167.Google Scholar

Louw, J. G. (1960). Fmg in S. Afr. 36, 14.Google Scholar

Lyttleton, J. W. (1960). N.Z. J. agric. Res. 3, 63.Google Scholar

McArthur, A. T. G. (1957). N.Z. J. Sci. Tech. 38A, 700.Google Scholar

McArthtur, J. M. & Miltimore, J. E. (1961). Canad. J. Anim. Sci. 41, 187.Google Scholar

McClymont, G. L., Wynne, K. N., Briggs, P. K. & Franklin, M. C. (1957). Aust. J. agric. Res. 8, 83.Google Scholar

McDonald, I. W. (1958). Proc. Aust. Soc. Anim. Prod. 2, 46.Google Scholar

McDougall, E. I. (1948). Biochem. J. 43, 99.Google Scholar

McGilliard, A. D., Conner, H. G., Duncan, C. W. & Huffman, C. F. (1957). J. Anim. Sci. 16, 1022.Google Scholar

Mackay, E. S. M. & Oxford, A. E. (1954). J. gen. Microbiol. 11, 472.Google Scholar

McKee, H. S. (1962). Nitrogen Metabolism in Plants. Oxford: Clarendon Press.Google Scholar

McManus, W. R. (1962). Aust. J. agric. Res. 13, 907.Google Scholar

Mangan, J. L. (1959). N.Z. J. agric. Res. 2, 47.Google Scholar

Mangold, E. (1929).Handbuch der Ernührung und des Stoffwechsels der Landwirtschaftlichen Nutztiere. Vol. 2. Verdauung und Ausscheidung. Berlin: Springer.Google Scholar

Mann, S. O. & Oxford, A. E. (1955). J. gen. Microbiol. 12, 140.Google Scholar

Markoff, J. (1913). Biochem. Z. 57, 1.Google Scholar

Marston, H. R. (1948). Biocliem. J. 42 564.Google Scholar

Martin, A. C., Zim, H. S. & Nelson, A. L. (1951). American Wildlife and Plants. New York: Dover Publications.Google Scholar

Masson, M. J. & Phillipson, A. T. (1951). J. Physiol. 113, 189.Google Scholar

Matscher, R. (1958). Arch. vet. ital. 9, 113.Google Scholar

Matsumoto, T. (1961). Tohoku J. agric. Res. 12, 213.Google Scholar

Meiske, J. C., Salsbury, R. L., Hoefer, J. A. & Luecke, R. W. (1958). J. Anim. Sci. 17, 774.Google Scholar

Messenger, J. J. (1960). J. Agric. S. Aust. 63, 310.Google Scholar

Moir, R. J. (1951). Aust. J. agric. Res. 2, 322.Google Scholar

Moir, R. J. & Harris, L. E. (1962). J. Nutr. 77, 285.Google Scholar

Moir, R. J. & Somers, M. (1957). Aust. J. agric. Res. 8, 253.Google Scholar

Moir, R. J., Somers, M. & Waring, H. (1956). Aust. J. biol. Sci. 9, 293.Google Scholar

Moir, R. J. & Williams, V. J. (1950). Aust. J. sci. Res. B3, 381.Google Scholar

Monod, J. (1950). Ann. Inst. Pasteur, 79, 390.Google Scholar

Moore, W. E. C. & King, K. W. (1958). J. Dairy Sci. 41, 1451.Google Scholar

Morris, E. R. & Horton, O. H. (1959). J. Dairy Sci. 42, 353.Google Scholar

Morrison, F. B. (1956). Foods and Feeding, 22nd edn., Appendix Table IV. Ithaca, N.Y.: Morrison.Google Scholar

Müller, R. & Krampitz, G. (1955). Z. Tierz. Züchtbiol. 65, 187.Google Scholar

Murray, M. G., Reid, R. S. & Sutherland, T. M. (1962). J. Physiol. 164, 26P.Google Scholar

Nicholson, J. W. G., Cunningham, H. M. & Friend, D. W. (1962). Canad. J. Anim. Sci. 42, pp. 75, 82.Google Scholar

Nicholson, J. W. G., Loosli, J. K. & Warner, R. G. (1960). J. Anim. Sci. 19, 1071.Google Scholar

Nottle, M. C. (1956). Aust. J. biol. Sci. 9, 593.Google Scholar

Otagaki, K. K., Black, A. L., Goss, H. & Kleiber, M. (1955). J. agric. Fd Chem. 3, 948.Google Scholar

Oyakert, W. & Bouckaert, J. H. (1961). Res. vet. Sci. 2, 41.Google Scholar

Parks, O. W., Keeney, M. & Schwartz, D. P. (1961). J. Dairy Sci. 44, 1940.Google Scholar

Parthasarathy, D. & Phillipson, A. T. (1953). J. Physiol. 121, 452.Google Scholar

Paynter, M. J. (1962). M. Sc. Thesis. University of Sheffield.Google Scholar

Pelissier, C. L., Slack, S. T., Trimberger, G. W., Turk, K. L. & Loosli, J. K. (1954). Farm Res. 20, 15.Google Scholar

Phillips, G. D. (1961 a). Res. vet. Sci. 2, 202.Google Scholar

Phillips, G. D. (1961 b). Res. vet. Sci. 2, 209.Google Scholar

Phillips, G. D., Hungate, R. E., MacGregor, A. & Hungate, D. P. (1960). J. agric. Sci. 54, 417.Google Scholar

Phillipson, A. T. (1942). J. exp. Biol. 19, 186.Google Scholar

Phillipson, A. T. (1952). Brit. J. Nutr. 6, 190.Google Scholar

Phillipson, A. T., Dobson, M. J., Blackburn, T. H. & Brown, M. (1962). Brit. J. Nutr. 16, 151.Google Scholar

Phillipson, A. T. & Mangan, J. L. (1959). N.Z. J. agric. Res. 2, 990Google Scholar

Phillipson, A. T. & Reid, C. S. W. (1958). Nature, Lond., 181, 1722.Google Scholar

Pounden, W. D. & Hibbs, J. W. (1948). J. Dairy Sci. 31, 1041.Google Scholar

Preston, T. R. (1958). Proc. Brit. Soc. Anim. Prod. p. 33.Google Scholar

Preston, T. R., Archibald, J. D. H. & Tinkler, W. (1957). J. agric. Sci. 48, 259.Google Scholar

Purser, D. B. (1961). Nature, Lond., 190, 831.Google Scholar

Purser, D. B. & Moir, R. J. (1959). Aust. J. agric. Res. 10, 555.Google Scholar

Rakes, A. H., Lister, E. E. & Reid, J. T. (1961). J. Nutr. 75, 86.Google Scholar

Ramsey, H. A. & Young, J. W. (1961). J. Dairy Sci. 44, 2304.Google Scholar

Ramsey, H. A., Wise, G. H. & Tove, S. B. (1956). J. Dairy Sci. 39, 1312.Google Scholar

Reid, C. S. W. & Cornwall, J. B. (1959). Proc. N.Z. Soc. Anim. Prod. 19, 23.Google Scholar

Reid, J. T. (1953). J. Dairy Sci. 36, 955.Google Scholar

Reid, J. T. & Huffman, C. F. (1949). J. Dairy Sci. 32, 123.Google Scholar

Reid, R. L., Hogan, J. P. & Briggs, P. K. (1957). Aust. J. agric. Res. 8, 691.Google Scholar

Rhodes, R. W. & Woods, W. (1962). J. Anim. Sci. 21, 108.Google Scholar

Rice, R. W., Salsbury, R. L., Hoefer, J. A. & Luecke, R. W. (1962). J. Anim. Sci. 21, 418.Google Scholar

Ridges, A. P. & Singleton, A. G. (1962). J. Physiol. 161, 1.Google Scholar

Rodrigue, C. B. & Allen, N. N. (1960). Canad. J. Anim. Sci. 40, 23.Google Scholar

Rogerson, A. (1958). Brit. J. Nutr. 12, 164.Google Scholar

Rook, J. A. F. & Storry, J. E. (1962). Nutr. Abstr. Rev. 32, 1055.Google Scholar

Sander, E. G., Warner, R. G., Harrison, H. N. & Loosli, J. K. (1959). J. Dairy Sci. 42, 1600.Google Scholar

Sasaki, Y. & Umezu, M. (1962). Tohoku J. agric. Res. 13, 211.Google Scholar

Scarisbrick, R. (1954). Vet. Rec. 66, 131.Google Scholar

Scheunert, A. & Krzywanek, F. W. (1929). Pflüg. Arch. ges. Physiol. 223, 472.Google Scholar

Schmidt-Nielsen, B. & O'Dell, R. (1959). Amer. J. Physiol. 197, 856.Google Scholar

Schmidt-Nielsen, B., Schmidt-Nielsen, K., Houpt, T. R. & Jarnum, S. A. (1957). Amer. J. Physiol. 188, 477.Google Scholar

Sellers, A. F. & Dobson, A. (1960). Res. vet. Sci. 1, 95.Google Scholar

Sellers, A. F. & Titchen, D. A. (1959). Nature, Lond., 184, 645.Google Scholar

Sharma, K. N., Anand, B. K., Dua, S. & Singh, B. (1961). Amer. J. Physiol. 201, 593.Google Scholar

Shorland, F. B., Gerson, T. & Hansen, R. P. (1955). Biochem. J. 61, 702.Google Scholar

Shorland, F. B. & Hansen, R. P. (1957). Dairy Sci. Abstr. 19, 167.Google Scholar

Sijpesteijn, A. K. & Elsden, S. R. (1952). Biochem. J. 52, 41.Google Scholar

Smith, A. H., Kleiber, M., Black, A. L. & Baxter, C. F. (1955). J. Nutr. 57, 507.Google Scholar

Smith, P. H. & Hungate, R. E. (1958). J. Bact. 75, 713.Google Scholar

Smith, P. H., Sweeney, H. C., Rooney, J. R., King, K. W. & Moore, W. E. C. (1956). J. Dairy Sci. 39, 598.Google Scholar

Smith, R. H. (1961). J. agric. Sci. 56, 105.Google Scholar

Sokatch, J. T. & Gunsalus, I. C. (1957). J. Bact. 73, 452.Google Scholar

Somers, M. (1957). Aust. vet. J. 33, 297.Google Scholar

Somers, M. (1961). Aust. J. exp. Biol. med. Sci. 39, pp. 111, 123, 133, 145.Google Scholar

Starks, P. B., Hale, W. H., Garrigus, V. S. & Forbes, R. M. (1953). J. Anim. Sci. 12, 480.Google Scholar

Stevens, C. E. & Sellers, A. F. (1959). Amer. J. vet. Res. 20, 461.Google Scholar

Stewart, A. B. & Holmes, W. (1953). J. Sci. Fd Agric. 4, 401.Google Scholar

Stewart, D. G., Warner, R. G. & Seeley, H. W. (1961). Appl. Microbiol. 9, 150.Google Scholar

Stewart, W. E. & Dougherty, R. W. (1958). J. Anim. Sci. 17, 1220.Google Scholar

Stewart, W. E., Stewart, D. G. & Schultz, L. H. (1958). J. Anim. Sci. 17, 723.Google Scholar

Storry, J. E. (1961). Nature, Lond., 190, 1197.Google Scholar

Sutherland, T. M., Ellis, W. C, Reid, R. S. & Murray, M. G. (1962). Brit. J. Nutr. 16, 603.Google Scholar

Sutton, J. D., McGilliard, A. D. & Jacobson, N. L. (1961). J. Dairy Sci. 44, 1184.Google Scholar

Swanson, E. W. & Harris, J. D. (1958). J. Dairy Sci. 41, 1768.Google Scholar

Tagari, H., Ascarelli, I. & Bondi, A. (1962). Brit. J. Nutr. 16, 237.Google Scholar

Tamate, H. (1956). Tohoku J. agric. Res. 7, 209.Google Scholar

Tamate, H. (1957). Tohoku J. agric. Res. 8, 65.Google Scholar

Tamate, H., McGilliard, A. D., Jacobson, N. L. & Getty, R. (1962). J. Dairy Sci. 45, 408.Google Scholar

Thompson, G. B., Kintner, L. D. & Pfander, W. H. (1958). J. Anim. Sci. 17, 1220.Google Scholar

Titchen, D. A. (1960). J. Physiol. 151, 139.Google Scholar

Tulbaev, P. (1958). C.R. Acad. Sci. U.R.S.S. 123, 377.Google Scholar

Turner, A. W. & Hodgetts, V. E. (1955). Aust. J. agric. Res. 6, 125.Google Scholar

Van Campden, D. R. & Matrone, G. (1960). J. Nutr. 72, 277.Google Scholar

Van Horn, H. H. & Bartley, E. E. (1961). J. Anim. Sci. 20, 85.Google Scholar

Vercoe, J. E., Tribe, D. E. & Pearce, G. R. (1961). Aust. J. agric. Res. 12, 689.Google Scholar

Waldo, D. R. & Hoernicke, H. (1961) J. Dairy Sci. 44, 1766.Google Scholar

Walter, W. G. (1952). Thesis, Michigan State Coll. Quoted by Hungate (1960).Google Scholar

Wardrop, I. D. & Coombe, J. B. (1960). J. agric. Sci. 54, 140.Google Scholar

Wardrop, I. D. & Coombe, J. B. (1961). Aust. J. agric. Res. 12, 661.Google Scholar

Warner, A. C. I. (1955). Ph.D. Thesis, University of Aberdeen.Google Scholar

Warner, A. C. I. (1956). J. gen. Microbiol. 14, 733.Google Scholar

Warner, A. C. I. (1962). J. gen. Microbiol. 28, 129.Google Scholar

Warner, R. G., Flatt, W. P. & Loosli, J. K. (1956). J. agric. Fd Chem. 4, 788.Google Scholar

Watson, R. H. (1933). Aust. J. exp. Biol. med. Sci. 11, 67.Google Scholar

Wegner, G. H. & Foster, E. M. (1960). J. Dairy Sci. 43, 566.Google Scholar

Wegner, G. H. & Foster, E. M. (1961). Bact. Proc. p. 170.Google Scholar

Weir, W. C. & Torell, D. T. (1959). J. Anim. Sci. 18, 641.Google Scholar

Weiss, K. E. (1953). Onderstepoort J. vet. Res. 26, 241.Google Scholar

Weller, R. A., Pilgrim, A. F. & Gray, F. V. (1962). Brit. J. Nutr. 16, 83.Google Scholar

Whiteley, H. R. & Douglas, H. C. (1951). J. Bact. 61, 605.Google Scholar

Williams, P. P., Davis, R. E., Doetsch, R. N. & Gutierrez, J. (1961). Appl. Microbiol. 9, 405.Google Scholar

Williams, V. J. & Christian, K. R. (1956). N.Z. J. Sci. Tech. 38A, 403.Google Scholar

Williams, V. J. & Moir, R. J. (1951). Aust. J. sci. Res. B4, 377.Google Scholar

Willoughby, W. M. & Axelsen, A. (1960). Aust. J. agric. Res. 11, 827.Google Scholar

Wilson, A. D. (1963 a). (In preparation.)Google Scholar

Wilson, A. D. (1963 b). Aust. J. agric. Res. (in the Press).Google Scholar

Wilson, A. D. (1963 c). Aust. J. agric. Res. (in the Press).Google Scholar

Wilson, A. D. & Tribe, D. E. (1961). Aust. J. agric. Res. 12, 1126.Google Scholar

Wise, G. H., Miller, P. G. & Anderson, G. W. (1940). J. Dairy Sci. 23, 997.Google Scholar

Wolin, M. J., Manning, G. B. & Nelson, W. O. (1959). J. Bact. 78, 147.Google Scholar

Wright, D. E. (1960). J. gen. Microbiol. 22, 713.Google Scholar

Wright, D. E. (1961). N.Z. J. agric. Res. 4, 216.Google Scholar

Wyrwicka, W. & Dobrzecka, C. (1960). Science, 132, 805.Google Scholar

Zerebcov, P. I. & Solncev, A. I. (1962). Izv. Timirjavez. Sel'skohoz Akad. 2, 214.Google Scholar

Article contents

Section A. Physiology. Part 1. The Physiology of the rumen. Part 2. Rumen microbiology

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Article contents

Section A. Physiology. Part 1. The Physiology of the rumen. Part 2. Rumen microbiology

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