Abstract
For the last 20 years researchers have been shifting their attentions from ways of disposing of lignocellulosic wastes to utilizing these wastes to produce useful products of higher value. Examples of these products are: single cell protein (SCP) (Chahal, 1991a) to help to meet the ever increasing demand for protein and for introducing new foods to the world; and liquid fuel (ethanol) because of the dwindling supply of fossil fuels and also to minimize the environmental effects of pollution generated by these fossil fuels (McIntyre, 1987). Complete utilization of lignocellulosic wastes is the challenge that researchers face to produce the desired products economically and to eliminate the pollution generated by them.
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References
Adler, E. (1977) Wood Science Technology, 11, 160.
Ander, P. and Eriksson, K.-E. (1978) Progress in Industrial Microbiology, 14, Elsevier, Amsterdam, p. 1.
Anderson, C., Longton, C., Maddix, G.W. et al. (1975) In Single-cell Protein, II (eds S.R. Tannenbaum and D.I.C. Wang), MIT Press, Cambridge, MA, p. 314.
Atalla, R.H. (1983) In Wood and Agricultural Residues (ed. E.J. Soltes), Academic Press, New York, p. 59.
Atalla, R.H. and van der Hart, D.L. (1984) Science, 223, 283.
Bader, M.J. and Crawford, D.L. (1981) Canadian Journal of Microbiology, 27, p. 859.
Barnes, T.G., Eggins, H.O.W. and Smith, E.L. (1972) International Biodeterioration Bulletin, 8 (3), 112.
Bassham, J.A. (1975) Biotechnology and Bioengineering Symposium, No. 5, John Wiley, New York, p. 9.
Blackwell, J. (1982) In Cellulose and Other Natural Polymer Systems: Biogenesis, Structure and Degradation (ed. R.M. Brown), Plenum, New York, p. 403.
Bobek, P., Ozdin, L. and Kuniak. I. (1993) Nahrung, 37, 571.
Bonnarme, P., Perez, J. and Jeffries, J.W. (1991) ACS Symposium Series, 460, 200.
Brisk, J.L. and Zuckermann, S.S. (1971) Schweizerische Milchzeitung, 97, p. 544.
Bumpus, J.A., Tien, M., Wright, D. and Aust, S.D. (1985) Science, 228, p. 1434.
Buswell, J.A. and Odier, E. (1987) CRC Critical Reviews in Biotechnology, 6, p. 1.
Cahn, F.J. (1935) Industrial Engineering Chemistry, 27, 201.
Callihan, C.D. and Clemmer, J.E. (1979) In Microbial Biomass (ed. A.H. Rose), Economic Microbiology, Vol. 4, Academic Press, New York, p. 271.
Chahal, D.S. (1983) ACS Symposium Series, 207, 421.
Chahal, D.S. (1985a) Applied and Environmental Microbiology, 49, 205.
Chahal, D.S. (1985b) Optimization for an Improved Process for Single-cell Protein (SCP) Production from Forest Biomass. Report submitted to Yves Leveque, Director General of Forest Industry, Government of Quebec, Ministry of Energy and Resources, Sainte-Foy, Quebec.
Chahal, D.S. (1986) VII International Symposium on Alcohol Fuels, Edition Technip, Paris, p. 48.
Chahal, D.S. (1989a) Journal of Fermentation and Bioengineering, 68, 334.
Chahal, D.S. (1989b) 1989 International Chemical Congress of Pacific Basin Societies, Honolulo, Hawaii, December, Abstract 431.
Chahal, D.S. (1991a) In Food, Feed and Fuel from Biomass (ed. D.S. Chahal), Oxford, and IBH Publishing Co., New Delhi, p. 59.
Chahal, D.S. (1991b) In Food, Feed and Fuel from Biomass, (ed. D.S. Chahal), Oxford, and IBH Publishing Co., New Delhi, p. 175.
Chahal, D.S. (1995) Indian patent application: Production of cellulose, hemicelluloses, lignin, silica and protein rich food from rice straw.
Chahal, D.S. and Hachey, J.M. (1990) ACS Symposium Series, 433, 304.
Chahal, D.S. and Hawksworth, D.L. (1976) Mycologie, 68, 600.
Chahal, D.S. and Ishaque, M. (1986) Science et Techniques de l’Eau, 19, 339.
Chahal, D.S. and Ishaque, M. (1988) Science et Technique de l’Eau, 21, 27.
Chahal, D.S. and Moo-Young, M. (1981) Developments in Industrial Microbiology, 22, 143.
Chahal, D.S. and Wang, D.I.C. (1978) Mycologie, 70, 160.
Chahal, D.S., Swan, J.E. and Moo-Young, M. (1977) Developments in Industrial Micro-biology, 18, p. 433.
Chahal, D.S., Vlach, D. and Moo-Young, M. (1981) In Advances in Biotechnology, III (ed. M. Moo-Young), Pergamon Press, Toronto, p. 327.
Chahal, D.S., McGuire, S., Pikor, H. and Noble, G. (1982) Biomass, 2, p. 127.
Chahal, D.S., Moo-Young, M. and Vlach, D. (1983) Mycologie, 75, p. 597.
Chahal, D.S., Kluepfel, D., Morosoli, F. et al. (1995) Applied Biochemistry and Biotechnology, 51/52, 137.
Chahal, D.S., Ishaque, M., Brouillard, D. et al. (1987) Journal of Industrial Microbiology, 1, p. 355.
Chavez, E.R., Touchburn, S.P. and Moo-Young, M. (1988) Animal Feed Science Technology, 22, pp. 23.
Churchill, B.W. (1982) In Biological Control of Weeds with Plant Pathogens (eds R. Charudattan and H.L. Walker), John Wiley, New York, p. 139.
Cowling, E.B. (1975) Biotechnology and Bioengineering Symposium, 5, p. 163.
Cowling, E.B. and Merill, W. (1966) Canadian Journal of Botany, 44, p. 1539.
Crawford, D.L. and Crawford, R.L. (1980) Enzyme and Microbial Technology, 2, p. 11.
Crawford, D.L., Doyle, J.D., Wang, Z. et al. (1993) Applied and Environmental Microbiology, 59, 508.
Crawford, R.L. (1975) Canadian Journal of Microbiology, 21, p. 1654.
Crawford, R.L. (1981) Lignin Biodegradation and Transformation, Wiley, New York.
Crawford, R.L. and Crawford, D.L. (1984) Enzyme and Microbial Technology, 6, p. 434.
Danei, O., Levanon, D. and Silanikov, N. (1989) Mushroom Science, 12, p. 81.
Daniel, G. (1994) FEMS Microbiology Reviews, 13, p. 199.
Das, K. and Ghose, T.K. (1973) Journal of Applied Chemistry and Biotechnology, 23, p. 829.
Deschamps, F. and Huet, M.C. (1985) Applied Microbiology and Biotechnology, 22, p. 177.
Deschamps, F., Mahoudeau, G. and Leeault, J.M. (1980) European Journal of Applied Microbiology and Biotechnology, 9, p. 45.
Deschamps, F., Giuliano, C., Asther, M., Huet, M.C. and Roussos, S. (1985) Biotechnology and Bioengineering, 27, p. 1385.
Detroy, R.W., Lindenfelser, L.A., St Julian, G. Jr and Orton, W.L. (1980) Biotechnology and Bioengineering Symposium, 10, 135.
Dong, Y., Kwan, C.Y., Chen, Z.N. and Yang, M.M. (1996) Research Communications in Molecular Pathology and Pharmacology, 92, p. 140.
Dunlop, C.E. and Callihan, C.D. (1973) Single-cell Protein from Waste Cellulose, Final report on grant EP00328-4 to the Federal Solid Waste Management Program, US Environmental Protection Agency.
Durand, A., Grajek, W. and Gervais, P. (1991) In Food, Feed and Fuel from Biomass (ed. D.S. Chahal), Oxford, and IBH Publishing Co., New Delhi, p. 123.
Duthie, I.F. (1975) In Single-cell Protein II (eds S.R. Tannenbaum and D.I.C. Wang), MIT Press, Cambridge, MA, p. 505.
Dutton, M.V., Evans, C.S., Atkey, P.T. and Wood, D.A. (1993) Applied Microbiology and Biotechnology, 39, p. 5.
Effland, M.J. (1977) Technical Association of the Pulp and Paper Industry, 60 (10), 143.
Eriksson, K.E., Blanchette, R.A. and Ander, P. (1990) Microbial and Enzymatic Degradation of Wood and Wood Components, Springer-Verlag, New York.
Evans, C.S. (1987) Process Biochemistry, 22 (4), 102.
Evans, C.S., Gallagher, I.M., Atkey, P.T. and Wood, D.A. (1991) Biodegradation, 2, 93.
Evans, C.S., Dutton, M.V., Guillen, F. and Veness, R.G. (1994) FEMS Microbiology Reviews, 13, p. 235.
Fenegel, D. and Wegener, G. (1983) Wood Chemistry, Ultrastructure, Reactions, Walter de Gruyter, Berlin.
Fenn, P. and Kirk, T.K. (1984) Journal of Wood Chemistry Technology, 4, p. 131.
Fernando, T. and Aust, S.D. (1994) In Biological Degradation and Bioremediation of Toxic Chemicals (ed. G.R. Chaudhry), Dioscorides Press, Portland, OR, p. 386.
Flournoy, D.S., Kirk, T.K. and Highley, T.L. (1991) Holzforschung, 45, p. 383.
Freudenberg, K. (1965) Science, 48, p. 595.
Freudenberg, K., Friedrich, K., Baumann, I. and Soff, K. (1932) Annalen der Chemie (Justus Liebigs), 494, 41.
Gallo, B.J., Andreotti, R., Roche, C., Ryu, C. and Mandels, M. (1978) Biotechnology and Bioengineering, 8, p. 89.
Gardner, K.H. and Blackwell, J. (1974) Biopolymers, 13, p. 1975.
Gilbert, N., Hobbs, I.A. and Levine, J.D. (1952) Industrial Engineering and Chemistry, 44, p. 1712.
Glenn, J.K., Morgan, M.A., Mayfield, M.B., Kuwahara, M. and Gold, M.H. (1983) ACS Symposium Series, 389, 127.
Guzman, G. and Martinez, D. (1986) Mushroom Newsletter for the Tropics, 6, 7.
Hadar, Y., Kerem, Z., Gorodecki, B. and Ardon, O. (1992) Biodegradation, 3, p. 189.
Haemmerli, S.D., Leisola, M.S.A.M., Sanglard, D. and Fiechter, A. (1986) Journal of Biological Chemistry, 261, p. 6900.
Hammel, K.E., Kalyanaraman, B. and Kirk, T.K. (1986) Proceedings of the National Academy of Sciences of USA, 83, p. 3708.
Han, Y.W. and Anderson, A.W. (1975) Applied Microbiology, 30, p. 930.
Han, Y.W. and Callihan, C.D. (1974) Applied Microbiology, 27, p. 159.
Han, Y.W., Cheeke, P.R., Anderson, A.W. and Lekprayoon, C. (1976) Applied Environ-mental Microbiology, 32, p. 799.
Harris, E.E. and Belinger, E. (1946) Industrial Engineering and Chemistry, 38, p. 890.
Harvey, P.J., Schoemaker, H.E. and Palmer, J.M. (1985) Annual Proceedings of the Phytochemistry Society of Europe, 26, p. 249.
Harvey, P.J., Schoemaker, H.E. and Plamer, J.M. (1986) FEES Letters, 195, p. 242.
Harvey, P.J., Schoemaker, H.E. and Palmer, J.M. (1987a) Plant Cell Environment, 10, p. 709.
Harvey, P.J., Schoemaker, H.E. and Palmer, J.M. (1987b) Proceedings of an International Seminar on Lignin, Enzymic and Microbial Degradation, Paris, April INRA (Les Colloques de l’INRA, no. 40 ), p. 145.
Hendy, N., Wilke, C. and Blanch, H. (1982) Biotechnology Letters, 4, 785.
Hess, K., Mahi, H., and Guther, E. (1954) Kolloid-Zeitschrift, 155, 1.
Hesseltine, C.W. (1972) Biochemical and Bioengineering, 14, p. 517.
Higuchi, T. (1971) Advances in Enzymology, 34, p. 207.
Higuchi, T. (1980) In Lignin Biodegradation: Microbiology, Chemistry and Potential Application (eds T.K. Kirk, T. Higushi and Hou-Min Chang), CRC Press, Boca Raton, FL, p. 1.
Higuchi, T. (1981) Wood Research (Kyoto), 67, p. 47.
Higuchi, T. (1982) Experientia, 38, p. 159.
Hi11is, W.E. (1962) Wood Extractives and their Significance to the Pulp and Paper Industries, Academic Press, New York.
Hisanaga, S. and Nishimura, Y. (1968) Japanese patent 6820708, 5 September.
Hokama, Y. and Hokama, J.L. (1981) Research Communications in Chemical Pathology and Pharmacology, 31, p. 177.
Hüttermann, A., Milstein, D., Nicklas, B. et al. (1989) ACS Symposium Series, 397, p. 361.
Huynh, V.B., Chang, H.M., Joyce, T.W. and Kirk, T.K. (1985) Technical Association of the Pulp and Paper Industry, 68, 98.
Ibihara, K. and Schneeman, B.O. (1989) Journal of Nutrition, 119 (B), 1100.
Ishaque, M. and Chahal, D.S. (1991) In Food, Feed and Fuel from Biomass (ed. D.S. Chahal), Oxford, and IBH Publishing Company, New Delhi, p. 19.
Janshekar, H. and Fieehter, A. (1983) Advances in Biochemical Engineering/Biotechnology, 27, p. 117.
Jeffries, T.W., Choi, S., and Kirk, T.F. (1981) Applied and Environmental Microbiology, 42, 290.
Kalmes, O. (1959) The distribution of constitutents across the wall of unbleached spruce sulfite fibers. Doctoral thesis, Institute of Paper Chemistry, Appleton, WI.
Kaplan, D.L. and Hardenstein, R. (1980) Soil Biology and Biochemistry, 12, p. 65.
Kern, H.W. (1984) Archives of Microbiology, 138, p. 18.
Kersten, P.J. (1990) Proceedings of the National Academy of Sciences of the USA, 87, 2936.
Kersten, P.J., Tien, M,, Kalyanaraman, B. and Kirk, T.K. (1985) Journal of Biological Chemistry, 260, p. 2609.
Kirk, T.K. (1984) In Microbial Degradation of Organic Compounds (ed. D.T. Gibson), Marcel Dekker, New York, p. 399.
Kirk, T.K. (1988a) In Biochemistry and Genetics of Cellulose Degradation (eds J.P. Aubert, P. Beguin and J. Millet), Academic Press, London, p. 315.
Kirk, T.K. (1988b) ISI Atlas of Science: Biochemistry 0894-3753, p. 71.
Kirk, T.K. and Chang, H.-M. (1981) Enzyme Microbial Technology, 3, 189.
Kirk, T.K. and Farrell, R.L. (1987) Annual Review of Microbiology, 41, p. 465.
Kirk, T.K. and Fenn, P. (1982) In Decomposer Basidiomycetes (eds M.J. Swift, J. Frankland, and J.N. Hedger), British Mycological Society Symposium 4, Cambridge University Press, Cambridge, p. 67.
Kirk, T.K. and Haskin, I.M. (1973) American Society of Chemistry, Engineering Symposium Series, Vol. 69, p. 124.
Kirk, T.K., Higuchi, T. and Chang, H.-M. (1980) In Lignin Biodegradation: Microbiology, Chemistry and Potential Applications, Vol. 241 (eds T.K. Kirk, T. Higuchi and Hou-Min Chang), CRC Press, Boca Raton, FL, p. 255.
Kishida, E., Sone, Y. and Misaki, A. (1989) Carbohydrate Research, 193, p. 227.
Kishida, E., Kinoshita, C., Sone, Y. and Misaki, A. (1992) Bioscience, Biotechnology and Biochemistry, 56, p. 1308.
Koenigs, J.W. (1974) Archives of Microbiology, 99, p. 129.
Kumar, P.K.R. and Lonsane, B.K. (1987) Process Biochemistry, 22, p. 139.
Lakshminarayana, K., Chaudhary, K., Ethiraj, S. and Tauro, P. (1975) Biotechnology and Bioengineering, 17, 291.
Lange, P.W. (1958) Paper and Pulp Magazine (Canada), 59, p. 210.
Laplante, S. (1994) Optimisation de la production de ligninases avec le champignon basidiomycete phanerochaete chrysosporium ATCC-24725, M.Sc. thesis, Institut Armand-Frappier, University of Quebec, Lavai, Quebec.
Laskin, A.I. (1977) Annual Reports on Fermentation Processes, 1, 151.
Leisola, M.S.A. and Fieehter, A. (1985) Advances in Biotechnology Processes, 5, 59.
Levanon, D., Danai, O. and Masaphy, S. (1988) Biological Wastes, 26, p. 341.
Lewis, N.G. and Yamamoto, E. (1990) Annual Review of Plant Physiology, 41, p. 455.
Liaw, J.H. and Srinivasan, V.R. (1989) Applied Environmental Microbiology, 55, p. 2220.
Liaw, J.H., Jones, K.L. and Srinivasan, V.R. (1988) Abstracts of Annual Meeting of the American Society of Microbiology, Miami Beach.
Lin, J. and Chou, Y. (1984) Journal of Biochemistry, 96, p. 35.
Litchfield, J. (1968) In Single-cell Protein (eds R.I. Mateles and S.R. Tannenbaum), MIT Press, Cambridge, MA, p. 304.
Livingston, A.L., Allis, M.E. and Kohler, G.O. (1971) Journal of Agricultural Food Chemistry, 19, 947.
Magnuson, T.S. and Crawford, D.L. (1992) Applied and Environmental Microbiology, 58, p. 1070.
Mandels, M., Andreoti, R. and Roche, C. (1976) Biotechnology and Bioengineering Symposium, No. 6, p. 21.
Mandels, M., and Medeiros, J.E., Andreoti, R. and Bissett, F.H. (1981) Biotechnology and Bioengineering, 23, 2009.
Manley, R. St.J. (1964) Nature, 204, 1155.
McCarthy, A.J. and Broda, P. (1984) Journal of General Microbiology, 130, p. 2905.
McIntyre, T.C. (1987) In Biomass Conversion Technology: Principles and Practice (ed. M. Moo-Young), Pergamon Press, Toronto, p. 45.
McLean, D. and Podruzny, M.F. (1985) Biotechnology Letters, 7, p. 683.
Meier, H. (1958) Svensk Papperstidning, 61, 633.
Meller, F.H. (1969) Conversion of Organic Solid Wastes into Yeast, Bureau of Solid Waste Management, Washington, DC.
Mes-Hartree, M., Hogan, C.M. and Saddler, J.N. (1988) Biotechnology and Bioengineering, 31, p. 725.
Mileski, G.J., Rumpus, J.A., Jurek, M.A. and Aust, S.D. (1988) Applied and Environmental Microbiology, 54, p. 2885.
Millett, M.A., Baker, A.J. and Sattar, L.D. (1976) Biotechnology and Bioengineering Symposium, No. 6, p. 125.
Mizono, M., Minato, K. and Tsuchida, H. (1996) Biochemistry and Molecular Biology International, 39, 679.
Monténecourt, B.S. and Eveleigh, D.E. (1979) In Fuel from Biomass Symposium (eds W.W. Schuster and H.R. Bungay), Department of Energy Publication, Rensselaer Polytechnic Institute, Troy, New York, p. 613.
Moo-Young, M., Chahal, D.S., Swan, J.E. and Robinson, C.W. (1977) Biotechnology and Bioengineering, 19, p. 527.
Moo-Young, M., Dougulis, A.J., Chahal, D.S. and Macdonal, D.G. (1979) Process Biochemistry, 14 (10), p. 38.
Moo-Young, M., Chahal, D.S., Vlach, D. and Stickeny, B. (1980) Biotechnology and Bioengineering, 23, p. 2407.
Mori, K., Toyomasu, T., Nanba, H. and Kuroda, H. (1989) Mushroom Science, 12 (Part I), 653.
Morin, L., Watson, A.K. and Reeleder, R.D. (1990) Canadian Journal of Microbiology, 36, p. 86.
Mudgett, R.E. (1986) In Manual of Industrial Microbiology and Biotechnology (eds A.L. Demain and N.A. Soloman), American Society for Microbiology, Washington, DC, p. 66.
Muller, J. (1987) Mushroom Journal of Tropics, 7, p. 89.
Newark, P. (1980) Nature, 287, p. 6.
Nimz, H. (1974) Angew Chemistry, 86, 336.
Njoku, C.C. and Antai, S.P. (1987) Letters in Applied Microbiology, 4, 133.
Novaes-Ledieu, M. and Garcia, M.C. (1981) Canadian Journal of Microbiology, 27, p. 779.
Odier, E. and Monties, B. (1978) Annales de l’Institut Pasteur, Microbiology, 129A, 361.
Odier, E., Janin, G. and Monties, B. (1981) Applied and Environmental Microbiology, 41, p. 337.
Ohno, N., Miura, T., Saito, K. et al. (1992) Chemical and Pharmaceutical Bulletin, 40, p. 2215.
Paice, M.G., Bernier, R. and Jurasek, L., (1988) Biotechnology and Bioengineering, 32, p. 235.
Palmer, J.M. and Evans, C.S. (1983a) Philosophical Transactions of the Royal Society of London, Series B, 300, 293.
Palmer, J.M. and Evans, C.S. (1983b) Proceedings of International Symposium on Wood Pulp Chemistry, Vol. 3, Tsukuba, p. 19.
Pamment, N., Robinson, C.W., Hilton, J. and Moo-Young, M. (1978) Biotechnology and Bioengineering, 20, p. 1735.
Panda, J., Bisaria, V.S. and Ghose, T.k. (1983) Biotechnology Letters, 5, 767.
Pasti, M.B. and Crawford, D.L. (1991) Canadian Journal of Microbiology, 37, p. 902.
Paterson, A., McCarthy, A.J. and Broda, P. (1984) In Microbiological Methods for Environmental Biotechnology (eds J.M. Grainger and J.M. Lynch), Academic Press, London, P. 33.
Payen, M. (1838) Academy of Science, 7, p. 1052.
Peitersen, N. (1975) Biotechnology and Bioengineeering, 17, p. 1291.
Pettersen, R.C., Schwandt, V.H. and Effland, M.J. (1985) Journal of Chromatography Science, 22, p. 478.
Preston, R.D. and Cronshaw, J. (1958) Nature, 181, p. 248.
Quinlan, R.j. and Linsansky, S.G. (1958) In Biotechnologý, Vol. 3 (ed. H. Dellweg), Verlag Chemie, Deerfield Beach, FL, p. 233.
Rawat, J.K. and Nautiyal, J.L. (1991) In Food, Feed and Fuel from Biomass (ed. D.S. Chahal), Oxford, and IBH Publishing Company, New Delhi, p. 27.
Reese, E.T. (1963) Advances in Enzymatic Hydrolysis of Cellulose and Related Materials, MacMillan Company, New York.
Reid, I.D. (1989) Enzyme and Microbial Technology, 11, p. 786.
Reid, I.D. and Seifert, K.A. (1982) Canadian Journal of Botany, 60, p. 252.
Righelato, R.C., Imerie, F.K.E. and Vlitos, A.J. (1976) Resources, Recovery and Conservation, 1, 257.
Röhr, M., Kubicek, C.P. and Komink., J. (1983) In Biotechnology, Vol. 3. (ed. H. Dellweg), Verlag Chemie, Deerfield Beach, FL, p. 419.
Rolz, C. (1984) In Fermentation Processes, Vol. 7 (ed. G.T. Tsao), Academic Press, New York, p. 213.
Rowland, S.P. and Roberts, J.J. (1972) Journal of Polymer Science, Part A-1, 10, p. 2447.
Sannoumaru, Y. (1996) Journal of Nutritional Science and Vitaminology, 42, p. 97.
Sarkanen, S. (1991) ACS Symposium Series, 460, 247.
Schmidt, C.J., Whitten, B.K. and Nicholas, O.O. (1981) Proceedings of American Wood Preservation Association, 77, p. 157.
Shoemaker, H.E. and Leisola, M.S.A. (1990) Journal of Biotechnology, 13, 101.
Schoemaker, H.E., Harvey, P.J., Bowen, R.M. and Palmer, J.M. (1985) FEES Letters, 183, Ð . 7.
Schoemaker, H.E., Meijer, E.M., Leisola, M.S.A. et al. ACS Symposium Series, 399, 454.
Schulze, E. (1891) Chemische Berichte, 24, 2277.
Sekita, S., Yoshihira, K. and Natori, S. (1981) Canadian Journal of Microbiology, 27, p. 766.
Shacklady, C.A. (1975) In Single Cell Protein, II (eds S.R. Tannenbaum and D.I.C. Wang), MIT Press, Cambridge, MA, p. 489.
Shamala, T.R. and Sreekantiah, K.R. (1986) Enzyme and Microbial Technology, 8, 178.
Shamala, T.R. and Sreekantiah, K.R. (1987) Enzyme and Microbial Technology, 9, p. 97.
Shoemaker, S.P., Raymond, J.C. and Bruner, R. (1981) In Trends in the Biology of Fermentation for Fuels and Chemicals (eds A. Hollander et al.), Plenum, New York, p. 89.
Silanikove, N. and Levanon, D. (1986) Biomass, 9, p. 101.
Silman, R.W., Nelson, T.C. and Bothast, R.J. (1989) 1989 International Chemical Congress of Pacific Basin Societies, Honolulu, Hawaii, December, Abstract 404.
Sloneker, J.H. (1976) Biotechnology and Bioengineering Symposium, No. 6, p. 235.
Smith, M.R. and Ratledge, C. (1989) Applied Microbiology and Biotechnology, 30, p. 395.
Srinivasan, V.R. and Han, Y.W. (1969) Advances in Chemistry Series, 95, 447.
Srivastava, V.K., Mowat, D.N., Moo-Young, M., Daugulis, A.J. and Chahal, D.S. (1980) Vlth International Fermentation Symposium, London, Ontario, July.
Sugano, N., Hibino, Y., Choji, Y. and Maeda, H. (1982) Cancer Letters, 17, p. 109.
Sugiyama, K., Kawagishi, H., Tanaka, A. et al. (1992) Journal of Nutritional Science and Vitaminology, 38, p. 335.
Sultze, R.F., Jr (1957) Technical Association of the Pulp and Paper Industry, 40, 985.
Sumi, H., Yatagai, C. and Matsubara, K. (1996) Nippon Shokuhin Kagaku Kogaku Kaishi [Journal of the Japanese Society of Food Science and Technology], 43, 318.
Tanaka, M. and Matsuno, R. (1985) Enzyme and Microbial Technology, 7, p. 197.
Tarkow, H. and Feist, W.D. (1969) Advances in Chemistry Series, 95, 197.
Tautorus, T.E. (1985) Advances in Biotechnology Processes, 5, 227.
TeBeest, D.O. (1985) Journal of Agricultural Entomology, 2, 123.
Thakur, M.S., Karanth, N.G. and Nanad, K. (1990) Applied Microbiology and Bio-technology, 32, 409.
Thomas, K.C., Kachatourians, G.G. and Ingledew, W.M. (1987) Canadian Journal of Microbiology, 33, p. 12.
Tien, M. (1987) CRC Critical Review in Microbiology, 15, p. 141.
Tien, M. and Kirk, T.K. (1983) Science, 221, p. 661.
Timell, T.E. (1967) Wood Science Technology, 1, p. 45.
Tönnesen, B.A. and Ellefsen, O. (1971) In Cellulose and Cellulose Derivatives (eds N.M. Bikales and L. Segal), Vol. 5, Part IV, Wiley, New York, p. 265.
Toyama, N. (1972) In Fermentation Technology Today (ed. G. Terui), Society of Fermentation Technology, Japan, Osaka, p. 743.
Toyama, N. (1976) Biotechnology and Bioengineering Symposium, No. 6, p. 207.
Tsang, L.J.; Reid, I.D. and Coxworth, E.C. (1987) Applied and Environmental Microbiology, 53, p. 1304.
Umezawa, T. (1988) Wood Research, 75, p. 21.
Underkofler, L.A. and Hickey, R.J. (1954) Industrial Fermentation, Vol. 1, Chemical Publishing Co., New York.
Veness, R.G. and Evans, C.S. (1989) Journal of General Microbiology, 135, p. 2799.
Vetter, J. and Rimoczi, I. (1993) Zeitschrift fur Lebensmittel-Untersuchung und-Forschung, 197 (5), 427.
Volger, C., Hesse, C. and Vogt, A. (1982) European Journal of Forest Pathology (Berlin), 12, 59.
Wardrop, A.B. (1957) Technical Association of the Pulp and Paper Industry, 40, p. 225.
Warzywoda, M., Ferré, V. and Pourqui, J. (1983) Biotechnology and Bioengineering, 25, p. 3005.
Watson, T.G. and Nelligan, I. (1983) Biotechnology Letters, 5, p. 25.
Wehmer, C. (1893) French patent 288554, 11 March 1893.
Cited in Prescott, S.C. and Dunn, C.G. (1959) Industrial Microbiology, McGraw-Hi11, New York, p. 533.
Wiken, J.O. (1972) In Fermentation Technology Today (ed. G. Teruf), Society of Fermentation Technology, Japan, Osaka, p. 569.
Wilke, C.R., Cysewski, G.R., Yang, R.D. and von Stockar, U. (1976) Biotechnology and Bioengineering, 8, 1315.
Wood, D.A. and Smith, J.F. (1987) In Essays in Agriculture and Food Microbiology (eds J.R. Norris and G.L. Pettipher), Wiley, New York, p. 309.
Yang, Q.Y. and Yong, S.C. (1989) Mushroom Science, 12 (Part I), 631.
Yo, K. (1975) Japanese Patent 75154487, 12 December.
Yu, P.L., Han, Y.W. and Anderson, A.W. (1976) Proceedings of the Western Section of American Society of Animal Science, 27, 189.
Zadrazil, F. (1977) European Journal of Applied Microbiology, 4, p. 273.
Zeikus, J.G. (1981) Advances in Microbial Ecology, 5, 211.
Zhang, J., Wang, G., Li, H. et al. (1994) Bioscience, Biotechnology and Biochemistry, 58, p. 1195.
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Chahal, P.S., Chahal, D.S. (1998). Lignocellulosic wastes: biological conversion. In: Martin, A.M. (eds) Bioconversion of Waste Materials to Industrial Products. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-5821-7_10
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