• Caldwell, D.R., and Bryant, M.P. (1966) Medium without rumen fluid for non-selective enumeration and isolation of rumen bacteria. Appl Microbiol 14: 794801.
  • Dubois, M., Gilles, K.A., Hamilton, J.K., Rebers, P.A., and Smith, F. (1956) Colorimetric method for determination of sugars and related substances. Anal Chem 28: 350356.
  • Forro, J. (1987) Microbial degradation of marine biomass. In Seaweed Cultivation for Renewable Resources. Bird, K.T. , and Benson, P.H. (eds). Amsterdam, the Netherlands: Elsevier, pp. 305325.
  • Haugen, F., Kortner, F., and Larsen, B. (1990) Kinetics and specificity of alginate lyase: Part 1, a case study. Carbohydr Res 198: 101109.
  • Hehemann, J.-H., Correc, G., Barbeyron, T., Helbert, W., Czjzek, M., and Michel, G. (2010) Transfer of carbohydrate-active enzymes from marine bacteria to Japanese gut microbiota. Nature 464: 908912.
  • Hillesland, K.L., and Stahl, D.A. (2010) Rapid evolution of stability and productivity at the origin of a microbial mutualism. Proc Natl Acad Sci USA 107: P2124P2129.
  • Horn, S.J. (2000) Bioenergy from brown seaweeds. PhD thesis. Department of Biotechnology Norwegian University of Science and Technology NTNU Trondheim, Norway.
  • Lever, M. (1972) A new reaction for colorimetric determination of carbohydrates. Anal Biochem 47: 273279.
  • Lever, M. (1977) Carbohydrate determination with 4-hydroxybenzoic acid hydrazide (PAHBAH): Effect of bismuth on the reaction. Anal Biochem 81: 2127.
  • Miller, L.D., Mosher, J.J., Venkateswaran, A., Yang, Z.K., Palumbo, A.V., Phelps, T.J., et al. (2010) Establishment and metabolic analysis of a model microbial community for understanding trophic and electron accepting interactions of subsurface anaerobic environments. BMC Microbiol 10: 149161.
  • Morand, P., Carpentier, B., Charlier, R.H., Maze, J., Orlandini, M., Plunkett, B.A., and De Vaart, J. (1991) Bioconversion of seaweeds. In Seaweed Resources in Europe: Uses and Potential. Guiry, M.D. , and Blunden, G. (eds). New York, USA: John Wiley and Sons, pp. 95148.
  • Orpin, C.G., Greenwood, Y., Hall, F.J., and Paterson, I.W. (1985) The rumen microbiology of seaweed digestion in Orkney sheep. J Appl Bacteriol 58: 585596.
  • Stams, A.J., and Plugge, C.M. (2009) Electron transfer in syntrophic communities of anaerobic bacteria and archaea. Nat Rev Microbiol 7: 568577.
  • Stewart, C.S., Flint, H.J., and Bryant, M.P. (1997) The rumen bacteria. In The Rumen Microbial Ecosystem. Hobson, P.N. , and Stewart, C.S. (eds)., 2nd edn. London, UK: Blackie Academic & Professional, pp. 1072.
  • Summer, E.J., Liu, M., Summer, N.S., Gill, J.J., Janes, C., and Young, R. (2011) Phage of sulphate reducing bacteria isolated from high saline environment. Corrosion International 2011 conference and Expo. NACE International. Corrosion Houston Texas 11 (222): pp. 37403751.
  • Tajima, K., Aminov, R.I., Nagamine, T., Ogata, K., Nakamura, M., Matsui, H., and Benno, Y. (1999) Rumen bacterial diversity as determined by sequence analysis of 16S rDNA libraries. FEMS Microbiol Ecol 29: 159169.
  • Williams, A.G., and Withers, S.E. (1982a) The effect of carbohydrate growth substrate on the glycosidase activity of hemicellulose-degrading rumen bacterial isolates. J Appl Bacteriol 52: 389401.
  • Williams, A.G., and Withers, S.E. (1982b) The production of plant cell wall degrading enzymes by hemicellulolytic bacterial isolates grown on a range of carbohydrate substrates. J Appl Bacteriol 52: 377387.
  • Williams, A.G., Withers, S.E., and Coleman, G.S. (1984) Glycoside hydrolases of rumen bacteria and protozoa. Curr Microbiol 10: 287294.