1 |
Bastawde, K. B. 1992. Cellulolytic enzymes of a thermotolerant Aspergillus terreus strain and their action on cellulosic substrates. World J. Microbiol. Biotechnol. 8: 353-368
DOI
ScienceOn
|
2 |
Brenner, W., Rugg, B. and Rogers, C. 1977. Radiation treatment of solid wastes. In: Radiation processing (See FSTA (1979) 11 5G 346). New York Univ., New York, 'USA. pp. 389401
|
3 |
Allen, M. B. 1953. Exp. in soil bacteriology. 1st ed. Burgess Publ. Co.
|
4 |
Al-Masri, M. R. 1999. In vitro digestible energy of some agricultural residues, as influenced by gamma irradiation and sodium hydroxide. Appl. Radiat. Isot. 50: 295-301
DOI
ScienceOn
|
5 |
Al-Masri, M. R. and Guenther, K. D. 1999. Changes in digestibility and cell-wall constituents of some agricultural by-products due to gamma irradiation and urea treatments. Radiat. Phys. Chem. 55: 323-329
DOI
ScienceOn
|
6 |
Araujo, A. and D'Souza, J. 1986. Enzymatic saccharification of pretreated rice straw and biomass production. Biotechnol. Bioeng. 28: 1503-1509
DOI
ScienceOn
|
7 |
Babitskaya, V. G. 1986. Mycelial fungi as producers of protein biomass of lignocellulosic substrates. Mikologiya, I, Fitopathologia 20: 377-385
|
8 |
Chahal, D. S. 1982. Bioconversion of lignocelluloses into food and feed rich in protein. In: Advances in agricultural microbiology. Subba RAO, N. S. (ed). Oxford and IBH Pub. Co. New Delhi, pp. 551-584
|
9 |
Chahal, D. S., Khan, S. M. and Maher, M. J. 1991. Production of mycelial biomass of oyster mushrooms on rice straw. Proceedings of the 13th International Congress on the Science and Cultivation of Edible Fungi. Dublin, Irish Republic 2: 709716
|
10 |
Chaplin, M. F. and Kennedy, J. F. 1987. Carbohydrate analysis. IRL Press, Oxford and Washington
|
11 |
Coronel, L. M., Mesina, O. G, Joson, L. M. and Sobrejuanite, E. E. 1991. Cellulase and xylanase production of Aspergillus fumigatus, a thermophilic fungus. Philippine J. Sci. 120: 283303
|
12 |
Coverse, A. O., Ooshima, H., Burns, D. S., Greenboum, E. and Wyman, C. E. 1990. Kinetics of enzymatic hydrolysis of lignocellulosic materials based on surface area of cellulose accessible to enzyme and enzyme adsorption on lignin and cellulose. Appl. Biochem. Biotechnol. 24-25: 67-73
|
13 |
Duncan, D. B. 1955. Multiple range and multiple (F) test. Biometrics 11: 1-42
DOI
ScienceOn
|
14 |
Dytham, C. 1999. Choosing and using statistics: A biologist's guide. Blackwell Science Ltd., London, UK. p. 147
|
15 |
Han, Y. W. and Anderson, A. W. 1975. Semi-solid fermentation of rye grass straw. Appl. Microbiol. 27: 159-165
|
16 |
Malek, M. A., Matsuhashi, S. and Kume, T. 1998. Chemical composition and digestibility of rice straw fermented by selected fungi. Int. J. Mushroom Sci. 2: 27-32
|
17 |
Han, Y. W. and Callihan, C. D. 1974. Cellulose fermentation: Effect substrate pretreatment on microbial growth. Appl. Microbiol. 27: 159-165
|
18 |
Han, Y. W., Dunlap, C. E. and Callihan, C. D. 1971. Single cell protein from cellulosic wastes. Food Technol. 25: 130-133
|
19 |
Harper, S. H. T. and Lynch. J. M. 1985. Colonization and decomposition of straw by fungi. Trans. Br. Mycol. Soc. 85: 655-661
DOI
|
20 |
Helal, G. A. 2005a. Bioconversion of straw into improved fodder: Fungal flora decomposing rice straw. Mycobiology 33: 150-157
과학기술학회마을
DOI
ScienceOn
|
21 |
Helal, G. A. 2005b. Bioconversion of straw into improved fodder: Mycoprotein bioconversion and cellulolytic activity of rice straw decomposing fungi. Mycobiology 33: 90-96
과학기술학회마을
DOI
ScienceOn
|
22 |
Hoda, G. E. M., Alian, A. M., Nagwa, M. E. S. and Fadel, M. A. 1990. Enzymatic hydrolysis of some cellulosic wastes for fodder yeast production l. Transformation of wastes to fermentable sugars. Annals Agric. Sci. Cairo 35: 143155
|
23 |
Jackson, M. G. 1978. Treating straw for animal feeding, animal production and health. Paper No. 10 (FAO, Rome)
|
24 |
Kirk, T. K., Higuchi, T. and Chang, H. M. (eds.) 1979. Lignin biodegradation: microbiology, chemistry, and potential applications. Vols. 1 and 2 CRC Press, Boca Raton, Florida
|
25 |
Kirk, T. K., Yang, H. H. and Keyser, P. 1978. The chemistry and physiology of the fungal degradation of lignin. Developm. Industr. Microbiol. 19: 51-61
|
26 |
Klyosov, A. A. and Sinitsyn, A. P. 1981. Enzymatic hydrolysis of cellulose. IV. Effect of major physico-chemical and structural features of the substrate. Bioorg. Khim. 7: 1801-1812
|
27 |
Lowery, O. H., Resebrough, N. J., Farr, A. L. and Randall, R. J. 1951. Protein measurement with the Folin-phenol reagent. J. Biol Chem. 193: 265-275
|
28 |
Malek, M. A., Chowdhury, N. A., Matsuhashi, S., Hashimoto, S. and Kume, T. 1994. Radiation and fermentation treatment of cellulosic wastes. Mycoscience 35: 95-98
DOI
|
29 |
Malek, M. A., Baker, A. J. and Sattar, L. D. 1978. The use of organic residues in rural communities. Biotechnol. Bioeng. 20: 107-113
DOI
|
30 |
Patel, M. M. and Bhatt, R. M. 1992. Optimization of the alkaline peroxide pretreatment for the delignification of rice straw and its applications. J. Chem. Technol. Biotechnol. 53: 253-263
DOI
|
31 |
Peiris, P. S. and Silva, I. 1987. Hydrolysis of rice straw to fermentable sugars by Trichoderma enzymes. MIRCEN J. 3: 5765
|
32 |
Prendergast, P., Booth, A. and Colleran, E. 1983. Protein enrichment of pretreated lignocellulosic materials by fungal fermentation. In Production and feeding of single cell protein, M. P. Ferranti and A. Fiechter (eds.), Publ. By : Appl. Sci., Barking, ESSEX (UK), pp. 96-100
|
33 |
Rolz, C. and Humphrey, A. 1982. Microbial biomass from renewables: Review of alternatives. Adv. Biochem. Eng. 198: 1-53
|
34 |
Singh, K., Sondhi, H. S. and Neelakantan, S. 1989. Bioconversion of wheat straw with cellulolytic moulds in submerged culture fermentation. Indian J. Ani. Nutrit. 6: 140-144
|
35 |
Snedecor, G. W. and Cochran, W. G. 1982. Statistical methods. 6th edi. Blackwell Science Ltd., London, UK. p. 147
|
36 |
Thanikachalam, A. and Rangarajan, M. 1992. Bioconversion of rice straw into protein rich feed. Madras Agric. J. 79: 138-141
|
37 |
Weichert, D. 1991. Nitrogen as a guide element in bioconversion of lignocellulosics. Mikrobiologicheskii, Zhurnal 53: 103111
|
38 |
Xin, L. Z. and Kumakura, M. 1993. Effect of radiation pretreatment of enzymatic hydrolysis of rice straw with low concentrations of alkali solution. Bioresour. Technol. 43: 1317
|
39 |
Youssef, B. M. and Aziz, N. H. 1999. Influence of gamma-irradiation on the bioconversion of rice straw by Trichoderma viride into single cell protein. Cytobios 97: 171-183
|
40 |
Banchorndhevakul, S. 2002. Effect of urea and urea-gamma treatments on cellulose degradation of Thai rice straw and corn stalk. Radiat Phys. Chem. 64: 417-422
DOI
ScienceOn
|
41 |
Millet, M. A., Baker, A. J. and Sattar, L. D. 1976. Physical and chemical pretreatments for enhancing cellulose saccharification, Biotechnol. Bioeng. Symposium 6: 125-153
|
42 |
Tripathi, J. P. and Yadav, J. S. 1989. Selection of pre-treatment for an alkalophilic Coprinus fermentation of wheat straw in a two - stage process. Int. J. Ani. Sci. 4: 128-133
|
43 |
Rivers, D. B. and Emert, C. H. 1988. Factors affecting the enzymatic hydrolysis of bagasse and rice straw. Biol. wastes 26: 9095
|
44 |
Malek, M. A. 2001. Ligno-cellulose degradation in solid-state fermentation of irradiated rice straw by Pleurotus sajor-caju fungi. Bangladesh Veterinarian 18: 148-152
|