References
- [1] R.J. Buresh, P.A. Sanchez, and F. Calhour, “Replenishing soil tertility in Africa”, Soil Sci. Soc. Amer. Madism, USA, vol. 51, 1997.
- [2] J.W. Doran, and M.R. Zeoiss, “Soil health and sustainability: managing the biotic component of soil quality”, Appl. Soil Ecol. Vol. 15, Pp. 3-11, 2000.
- [3] Alamgir, “Characterization of MSW and nutrient contents of organic component in Bangladesh”, Vol. 6, No. 4, 2007.
- [4] A. Ebid, H., Ueno, A., Ghoneum, and N. Asagi, “Uptake of carbon and nitrogen through rice root from 13C and 15N duel-labaled maize residue compost”, Int. J. Biol. Chem., Vol. 1, No. 2, Pp. 75-87, 2007.
- [5] M. Sharholy, K. Ahmad, G. Mahmood, and R.C. Trivedi, “Municipal solid waste management in Indian cities – a review”, Waste Management, Vol. 28, Pp. 459–467, 2008.
- [6] T. Narayana, “Municipal solid waste management in India: from waste disposal to recovery of resources”, Waste Management, Vol. 29, Pp. 1163–1166, 2009.
- [7] K.R. Gray, K. Sherman, and A.J. Biddlestone, “A review of composting, Part 1 Microbiology and biochemistry”, Process Biochemistry, Vol. 6, No. 6, pp. 32-36, 1971.
- [8] C. Marugg, M., Gerbus, R.C. Hansen, H.M., Keener, and H.A.J., Hoitink, “A kinetic model of the yard waste composting process”, Compost Science Utilization, Vol. 10, Pp. 38-51, 1993.
- [9] M.R. Boni, and L. Musmeci, “Organic fraction of municipal solid waste (OFMSW): extent of biodegradation”, Waste management and research, Vol. 16 (2), Pp 103-107, 1998.
- [10] G. Eriksen, F. Coale, and G. Bollero, “Soil nitrogen dynamics and maize production in municipal solid waste amended soil”, Agron. J., Vol. 91, Pp. 1009–1016, 1999.
- [11] R. Wolkowski, “Nitrogen management considerations for landspreading municipal solid waste compost”, J. Environ. Qual., Vol. 32, Pp. 1844–1850, 2003.
- [12] F. Laura, and D.H. Jodi, “The importance of Soil Organic Matter in Cropping Systems of the Northern Great Plains University of Minnesota”, Extension, 2009.
- [13] L. Otten, Wet–dry composting of organic municipal solid waste: current status in Canada. Can. J. Civil Eng., 28 (Suppl. 1), Pp. 124–130, 2001.
- [14] M. Zhang, D. Heaney, B. Henriquez, E. Solberg, E. Bittner, “A four year study on influence of biosolids/MSW cocompost application in less productive soils in Alberta: nutrient dynamics”, Compost Sci. Util., Vol. 14, No. 1, Pp. 68–80, 2006.
- [15] S. Jakobsen, “Aerobic decomposition of organic wastes 2. Value of compost as fertilizer”, Resour. Conserv. Recy., Vol. 13, Pp. 57–71, 1995.
- [16] C. Crecchio, M. Curci, R. Mininni, P. Ricciuti, and P. Ruggiero, “Short term effects of municipal solid waste compost amendments on soil carbon and nitrogen content, some enzyme activities and genetic diversity”, Biol. Fert. Soils., Vol. 34, Pp. 311–318, 2001.
- [17] G. Ranalli, G. Botturea, P. Taddei, M. Garavni, R. Marchetti, and G. Sorlini, “Composting of solid and sludge residues from agricultural and food industries, Bio-indicators of monitoring and compost maturing”, Journal of Environmental Science and Health, Vol. 36, No. 4, Pp. 415–436, 2001.
- [18] N.M. Trautmann, and M.E. Krasny, Composting in the Classroom. Cornell Waste Management Institute, Cornell University, USA, 1997.
- [19] N. Saha, and B. Mandal, “Microbial strategies for crop Improvement”, M, S. Khan et al., (eds.), Springerverlage Berlin Heidelberg, 2009.
- [20] C.A. Black, “Methods of Soil Analysis part -1 and part-2”, Amer. Sos. Agron.Inc. Madison, Wiscosin, USA, 1995.
- [21] R. Kumar, S. Pandey, and A. Pandey, “Plant roots and carbon sequestration”, Current Sci., Vol. 91, No. 7, Pp. 886-890, 2006.
- [22] A.L. Page, and D.R. Keeney, “Methods of Soil Analysis, Part 2.”, 2nd Ed. Amer, Soc. Agron. Inc. Madison, Wiscosin, U.S.A, 1989.
- [23] A.K. Mani, R. Santhi, and K.M. Sellamuthu, “A handbook of laboratory analysis”, 1st edition, A.E. Publications No.10. Sundaram, P.N. Pudur, Coimbatore, ISBN 978-81-902558-8-2, pp. 156-167, 2007.
- [24] R.E. Buchanan, and N.E. Gibbons, “Bergey’s manual of determinative bacteriology, 8th edition”, The Williams and Wilkins Company, Baltimore, Pp 29, 1974.
- [25] R.C. Dubey, and D.K. Maheshwari, “Practical Microbiology, 2nd edition”, S. Chand & Company Ltd., Ram Nagar, New Delhi. Pp. 352, 2006.
- [26] A. Maynard, “Cumulative effect of annual additions of MSW compost on the yield of field-grown tomatoes”, Compost Sci. Util., Vol. 3, No. 2., Pp. 47–54, 1995.
- [27] Food and Fertilizer Technology Center. Compost Production: a manual for Asian farmers. Taipei 106, Taiwan, 2005.
- [28] G. Sarwar, H. Schmeisky, N. Hussain, and S. Muhammad, “Improvement of soil physical and chemical properties with compost application in rice-wheat cropping system”, Pak. J. Bot., Vol. 40, No. 1, Pp. 275-282, 2008.
- [29] C.F. Tester, “Organic amendment effects on physical and chemical properties of a sandy soil”, Soil Sci. Soc. Am. J. Vol. 65, Pp. 1284-1292, 1990.
- [30] S. Ghosh, B. Wilson, S.K. Ghoshal, N. Senapati, and Mandal, Biswapati. Management of soilquality and carbon sequestration with long-term application of organic amendments. 19th World Congres Soil Sci. 1-6 August,2010. Brisbane, Australia.
- [31] S. Ghosh, B. Wilson, B. Mandal, S.K. Ghoshal, and I. Growns, “Changes in soil organic carbon pool in three long-term fertility experiments with different cropping systems, inorganic and organic soil amendments in the eastern cereal belt of India”, Australian J. Soil Res, 2009.
- [32] X. He, S. Traina, and T. Logan, “Chemical properties of municipal solid waste compost”, J. Environ. Qual., Vol. 21, Pp. 318–329, 1992.
- [33] J.D.G. Kirk, “Rice root properties for internal aeration and efficient nutrient acquisition in submerged soil”, New Phytologist, Vol. 159, Pp. 185-195, 2003.
- [34] A. Hassen, K. Belguith, N. Jedidi, A. Cherif, M. Cherif, and A. Boudabous, “Microbial characterization during composting of municipal solid waste”, Bioresour. Technol., Vol. 80, Pp. 217–225, 2001.