Agarwal, M. P. & Singh, M. (1986). Effect of mulches on soil temperature and sprouting of sugarcane ratoons. International Journal of Tropical Agriculture 4, 23–29.
Ahmad, S. N. & Giridharan, S. (2000). Study on the influence of management practices on sugarcane ratoon crop. Indian Sugar 49, 835–837.
Alvarez, I. A., Camargo-e-Castro-pr, D. E., Nogueira, M. C. S. & de-Camargo-e-Castro, P. R. (2000). Root growth of cane ratoons harvested green or burnt. Scientia-Agricola 4, 653–659.
Anonymous (1997). Vision-2020. IISR (Indian Institute of Sugarcane Research) Perspective Plan. New Delhi, India: Indian Council of Agricultural Research.
Association of Official Analytical Chemists-AOAC (1990). Official Methods of Analysis, 15th edn. Washington, DC: AOAC.
Ball-Coelho, B., Tiessen, H., Stewart, J. W. B., Salcedo, I. H. & Sampaio, E. V. S. B. (1993). Residue management effects on sugarcane yield and soil properties in northeastern Brazil. Agronomy Journal 85, 1004–1008.
Barzegar, A. R., Asoodar, M. A. & Ansari, M. (2000). Effectiveness of sugarcane residue incorporation at different water contents and the Proctor compaction loads in reducing soil compactibility. Soil and Tillage Research 57, 167–172.
Bell, M. J., Halpin, N. V., Orange, D. N. & Haines, M. (2001). Effect of compaction and trash blanketing on rainfall infiltration in sugarcane soils. Proceedings of the Australian Sugarcane Technologists 23, 161–167.
Blair, N. (2000). Impact of cultivation and sugar-cane green trash management on carbon fractions and aggregate stability for a Chromic Luvisol in Queensland, Australia. Soil and Tillage Research 55, 183–191.
Cerri, C. C., Bernoux, M., Cerri, C. E. P. & Feller, C. (2004). Carbon cycling and sequestration opportunities in South America: the case of Brazil. Soil Use Management 20, 248–254.
Chapman, L. S., Haysom, M. B. C. & Saffigna, P. G. (1992). N cycling in cane fields from 15N labeled trash and residual fertilizer. Proceedings of the Australian Society of Sugarcane Technologists 14, 84–89.
Cochran, W. G. & Cox, G. M. (1957). Experimental Designs, 2nd edn.New York: John Wiley & Sons.
de Beer, G., Hudson, J. C., Meyer, E. & Torres, J. S. (1993). Cost effective mechanization. Sugarcane 4, 11–16.
De Costa, W. A. J. M. & Sangakkara, U. R. (2006). Agronomic regeneration of soil fertility in tropical Asian smallholder uplands for sustainable food production. Journal of Agricultural Science, Cambridge 144, 111–133.
Garside, A. L. (1997). Yield decline research in the Australian sugar industry. Proceedings of the South African Sugar Technologists Association 77, 3–18.
Graham, M. H., Haynes, R. J. & Meyer, J. H. (2002). Soil organic matter content and quality: effects of fertilizer applications, burning and trash retention on a long-term sugarcane experiment in South Africa. Soil Biology and Biochemistry 34, 93–102.
Hunsigi, G. (1989). Ratooning in sugarcane. Outlook on Agriculture 18, 175–184.
Hunsigi, G. (2001). Sugarcane in Agriculture and Industry. Bangalore, India: Prism Books.
Jackson, M. L. (1973). Soil Chemical Analysis, 1st edn. New Delhi, India: Prentice Hall of India Pvt. Ltd.
Kingston, G. & Norris, C. (2001). The green cane harvesting system – an Australian perspective. In Innovative Approaches to Sugarcane Productivity in the New Millennium. ISSCT Agronomy Workshop: Abstracts of Communications, p. 9. Miami, FL: American Society of Sugarcane Technologists.
MacGarry, D. & Bristow, K. L. (2001). Sugarcane production and soil physical decline. Proceedings of the International Society of Sugarcane Technologists 24, 3–7.
Machado Pinheiro, E. F., Lima, E., Ceddia, M. B., Urquiaga, S., Alves, B. J. R. & Boddey, R. M. (2010). Impact of pre-harvest burning versus trash conservation on soil carbon and nitrogen stocks on a sugarcane plantation in the Brazilian Atlantic Forest region. Plant and Soil 333, 71–80.
Madan, V. K., Mishra, S. R., Soni, N. & Solomon, S. (1997). Laboratory Manual for Sugar Analysis. Technical Bulletin No. 36. Lucknow, India: Indian Institute of Sugarcane Research.
Meade, G. P. & Chen, J. C. P. (1977). Cane Sugar Handbook: a Manual for Cane Sugar Manufacturers and their Chemists, 10th edn. New York: John Wiley & Sons Inc.
Mitchel, R. D. J., Thorburn, P. J. & Larsen, P. (2000). Quantifying the loss of nutrients from the immediate area when sugarcane residues are burnt. Proceedings of the Australian Society of Sugarcane Technologists 22, 206–211.
Nunez, O. & Spaans, E. (2008). Evaluation of green-cane harvesting and crop management with a trash-blanket. Sugar Technology 10, 29–35.
Patra, D. D., Ram, M. & Singh, D. V. (1993). Influence of straw mulching on fertilizer nitrogen use efficiency, moisture conservation and herb and essential oil yield of Japanese mint. Fertilizer Research 34, 135–139.
Pawar, B. N., Shinde, H. R. & Sale, D. L. (2000). Resource productivity and sustainability of sugarcane in Western Maharashtra. Indian Sugar 50, 147–151.
Radford, P. J. (1967). Growth analysis formulae: their use and abuse. Crop Science 7, 171–175.
Razafimbelo, T., Bernard Barthes, B., Larrey-Larrouy, M. C., De Luca, E. F., Laurent, J. Y., Cerri, C. C. & Feller, C. (2006). Effect of sugarcane residue management (mulching versus burning) on organic matter in a clayey oxisol from southern Brazil. Agriculture Ecosystem and Environment 115, 285–289.
de Resende, A. S., Xavier, R. P., de Oliveira, O. C., Urquiaga, S., Alves, B. J. R. & Boddey, R. M. (2006). Long-term effects of pre-harvest burning and nitrogen and vinasse applications on yield of sugarcane and soil carbon and nitrogen stocks on a plantation in Pernambuco, N.E. Brazil. Plant and Soil 281, 339–351.
Ricaud, R. (1977). Effect of subsoiling on soil compaction and yield of sugarcane. Proceedings of the International Society of Sugar Cane Technologists 16, 1039–1048.
Shukla, S. K., Yadav, R. L., Suman, A. & Singh, P. N. (2008). Improving rhizospheric environment and sugarcane ratoon yield through bioagents amended farm yard manure in udic ustrochrept soil. Soil & Tillage Research 99, 158–168.
Singh, D. & Singh, S. M. (2004). Agrotechniques for multiple ratooning in sugarcane. Indian Journal of Agronomy 49, 285–287.
Singh, K. P., Suman, A., Singh, P. N. & Srivastava, T. K. (2007). Improving quality of sugarcane-growing soils by organic amendments under subtropical climatic conditions of India. Biology and Fertility of Soils 44, 367–376.
Speir, T. W., Horswell, J., van schaik, P. P., MacLaren, R. G. & Fietje, G. (2004). Composted biosolids enhance fertility of a sandy loam soil under dairy pasture. Biology and Fertility of Soils 40, 349–358.
Srivastava, T., Singh, A. K. & Srivastava, S. N. (2002). Critical period of crop-weed competition in sugarcane ratoon. Indian Journal of Weed Science 34, 320–321.
Sundara, B. (1987). Improving sugarcane productivity under moisture stress constraints and thorough cropping systems. In Proceedings of the International Symposium on Sugarcane Varietal Improvement: Present Status and Future Thrusts, September 1987, Sugarcane Breeding Institute, Coimbatore, Tamil Nadu, India (Eds Mohan Naidu, K., Sreenivasan, T. V. & Premachandran, M. N.), pp. 57–82. Tamil Nadu, India: Sugarcane Breeding Institute.
Sundara, B. (1998). Sugarcane Cultivation. New Delhi, India: Vikas Publishing House.
Sundara, B. (2006). Agro-technology for multiratooning. Cooperative Sugar 37, 37–52.
Sundara, B. & Tripathi, B. K. (1989). Available N changes and N balance under multi ratooning of sugar cane varieties in tropical vertisol. Proceedings of the International Society of Sugar Cane Technologists 23, 80–88.
Tomar, S. S. & Tiwari, A. S. (1990). Production potential and economics of different crop sequences. Indian Journal of Agronomy 35, 30–35.
Torres, J. S. & Villegas, F. (1993). Differentiation of soil compaction and cane stool damage. Sugarcane 1, 7–11.
Trouse, A. C. Jr (1983). Observations on under-the-row subsoiling after conventional tillage. Soil and Tillage Research 3, 67–81.
Vepraskas, M. J. & Miner, G. S. (1986). Effects of subsoiling and mechanical impedance on tobacco root growth. Soil Science Society of America Journal 50, 423–427.
Verma, R. S. (2002). Sugarcane Ratoon Management. Lucknow, India: International Book Distributing Co. Pvt. Ltd.
Verma, S. P. & Modgal, S. C. (1983). Production potential and economics of fertilizer application as a resource constraints in maize-wheat crop sequences. Himachal Journal of Agricultural Research 9, 89–92.
Viator, R. P., Johnson, R. M. & Richard, E. P. Jr (2005). Management of the post-harvest residue blanket. Sugar Bulletin 83, 10–11.
Viator, R. P., Johnson, R. M., Boykin, D. L. & Richard, E. P. Jr (2009). Sugarcane postharvest residue management in a temperate climate. Crop Science 49, 1023–1028.
Wagner, M., Rincones, C., Medina, G. & Mujika, M. (1995). Effect of the chisel plough and of irrigation on development of sugarcane in a compacted soil. Agronomica Tropical Maracay 45, 5–26.
Walkley, A. & Black, I. A. (1934). An examination of Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37, 29–37.
Yadav, D. V. & Yaduvanshi, N. P. S. (2001). Integration of green manure intercropping and fertilizer-N for yield and juice quality and better soil conditions in sugarcane grown after mustard and wheat in different plant arrangements. Journal of Agricultural Science, Cambridge 136, 199–205.
Yadav, R. L. & Prasad, S. R. (1992). Conserving the organic matter content of the soil to sustain sugarcane yield. Experimental Agriculture 28, 57–62.
Yadav, R. L., Shukla, S. K., Suman, A. & Singh, P. N. (2009). Trichoderma inoculation and trash management effects on soil microbial biomass, soil respiration, nutrient uptake and yield of ratoon sugarcane under subtropical conditions. Biology and Fertility of Soils 45, 461–468.