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This experiment was conducted to study the long-term effect of soil management treatments on crop yields, sustainability yield indices (SYI) and soil fertility in rainfed semi-arid tropical Alfisol at Hayathnagar Research Farm, Hyderabad, India, during the period 1995 to 2009. The experiment was conducted in a split–split plot design with conventional tillage (CT) and minimum tillage (MT) as main factors, surface application of sorghum stover @ 2 t ha−1 (SS), fresh Gliricidia loppings @ 2 t ha−1 (GL) and ‘no’ residue (NR) as sub-factors and levels of N viz. 0 (N0), 30 (N30), 60 (N60) and 90 (N90) kg N ha−1 as sub–sub factors in a castor–sorghum two-year rotation. On an average, CT maintained 30.4 and 57.0% higher grain yields of sorghum and castor, respectively, over MT. Between two residues, GL performed well in both the crops. The highest yields of sorghum (1425 kg ha−1) and castor (876 kg ha−1) were recorded at 90 kg N ha−1. CT maintained higher SYI of 0.44 compared to MT (0.38) and higher agronomic efficiency (AE) of 13.5 and 6.76 kg grain kg−1 N for sorghum and castor crop, respectively. Use of crop residue as mulch had an advantage in increasing the yield of both the crops with increase in rainfall under CT even without N application (control), probably by making the soil more receptive to water infiltration, better moisture storage and by reducing the evaporative losses. Using response functions, the optimum fertilizer N requirement was also computed for a given set of tillage and residue combinations. The revised optimum fertilizer N doses for sorghum and castor varied from 45 to 56 kg ha−1 and 46 to 74 kg ha−1, respectively, under different tillage and residue combinations and could be recommended depending upon the soil management practices.


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AI-Darby, A. M., Mustafa, M. A., AI-Omran, A. M. and Mahjoub, M. O. (1989). Effect of wheat residue and evaporative demands on intermittent evaporation. Soil Tillage Research 15:105116.
Bansal, R. K., Awadhwal, N. K. and Mayande, V. M. (1987). Implement development for SAT Alfisol. In Alfisols in the Semi-Arid Tropics, Proceedings of the Consultants’ Workshop on the State of the Art and Management Alternatives for Optimizing the Productivity of SAT Alfisols and Related Soils. 1–3 Dec 1983, ICRISAT Centre, India, 97108.
Brown, H. J., Cruse, R. M. and Colbin, T. S. (1989). Tillage system effects on crop growth and production costs for a corn-soybean rotation. Journal Production Agriculture 2:273279.
Camara, K. M., Payne, W. A. and Rasmussen, P. E. (2003). Long-term effects of tillage, nitrogen, and rainfall on winter wheat yields in the Pacific Northwest. Agronomy Journal 95:828835.
Delate, K. and Camberdella, C. A. (2004). Agro-ecosystem performance during transition to certified organic grain production. Journal of Agronomy 96:12881298.
Duley, F. L. and Russel, J. C. (1942). Effect of stubble mulching on soil erosion and run-off. Soil Science Society of America Proceedings 7:7781.
El-Swaify, S. A., Singh, S. and Pathak, P. (1987). Physical and conservation constraints and management components for SAT Alfisols. In Proceedings of the Alfisols in the Semi-Arid Tropics Consultants Workshop on the State of the Art and Management Alternatives for Optimizing the Productivity of SAT Alfisols and Related Soils, 1–3 Dec 1983, ICRISAT Centre, India.
Erenstein, O. (2003). Smallholder conservation farming in the tropics and sub-tropics: a guide to the development and dissemination of mulching with crop residues and cover crops. Agriculture, Ecosystems & Environment 100 (1):1737.
FAO. (1989). Sustainable Agricultural Production: Implications for International Agricultural Research, FAO Research and Technology, Paper No. 4, Rome, Italy, 5.
Fettell, N. A. and Gill, H. S. (1995). Long-term effects of tillage, stubble, and nitrogen management on properties of a red-brown earth. Australian Journal of Experimental Agriculture 35:923928.
Francis, G. S. and Knight, T. L. (1993). Long-term effects of conventional and no-tillage on selected soil properties and crop yields in Canterbury, New Zealand. Soil Tillage Research 26:193210.
Friesen, G. H. and Korwar, G. R. (1987). Conservation tillage systems for sorghum production under semi-arid conditions in India. Tropical Pest Management 33:364366.
Jones, O. R. and Johnson, G. L. (1991). Row width and plant density effects on Texas high plains sorghum. Journal Production Agriculture 4:613619.
Jones, O. R. and Hauser, V. L. (1975). Runoff utilization for grain production. In Proceedings of Water Harvesting Symposium, 277283 (Ed Frazier, G. W.). March, USDA-ARS W-22, Phoenix, AZ.
Kendall, M. G. (1975). Rank Correlation Measures. London: Charles Griffin.
Lal, R. (1997). Soil quality and sustainability. In Methods for Assessment of Soil Degradation, 1730 (Eds. Lal, R., Blum, W. H., Valentine, C. and Stewart, B. A.). New York: CRC Press.
Larson, W. E. (1979). Crop residues: energy production or erosion control? Journal of Soil and Water Conservation March-April:74–76.
Mäder, P., Fließbach, A., Dubois, D., Gunst, L., Fried, P. and Niggli, U. (2002). Soil fertility and biodiversity in organic farming. Science 296:16941697.
Mahto, D. N. and Sinha, M. P. (1980). Effect of tillage on weed control and yield of maize. Indian Journal of Agronomy 25:146148.
Mann, H. B. (1945). Non-parametric tests against trend. Econometrica 13:245259.
Marley, J. M. and Littler, J. W. (1990). Winter cereal production on the Darling Downs – A comparison of reduced tillage practices. Australian Journal of Experimental Agriculture 30:8393.
Maruthi Sankar, G. R., Mishra, P. K., Sharma, K. L., Singh, S. P., Nema, A. K., Kathmale, D. K., Upadhye, S. K., Sidhpuria, M. S., Osman, M., Ravindra Chary, G., Kusuma Grace, J., Venkateswarlu, B. and Singh, A. K. (2011). Efficient tillage and nutrient practices for sustainable pearl millet productivity in different soil and agro-climatic conditions. Experimental Agriculture 48:120.
Matula, S. (2003). The influence of tillage treatments on water infiltration into soil profile. Plant Soil and Environment 49:298306.
McCalla, T. M. and Army, T. J. (1961). Stubble mulch farming. Advances in Agronomy 13:125196.
Nyborg, M. and Malhi, , , S. S. (1989). Effect of zero and conventional tillage on barley yield and nitrate nitrogen content, moisture and temperature of soil in north-central Alberta. Soil Tillage Research 15:19.
Ojeniyi, S. O. (1986). Effect of zero-tillage and disc ploughing on soil water, soil temperature and growth and yield of maize (Zea niaj L.). Soil Tillage Research 7:173182.
Papendick, R. I. and Parr, J. F. (1988). Crop residue management to optimize crop/livestock production and resource conservation in the Near East region. In Proceedings of a Workshop, Amman, Jordan, 31 Jan–2 Feb, 37 pp.
Pathak, P., Murthy, V. V. N., El-Swaify, S. A., Singh, S. and Sudi, S. R. (1984). Runoff model for small semi arid watersheds. Presented at the XXI Annual Convention of Indian Society of Agricultural Engineers, 5–7 Apr, ICRISAT, New Delhi, India.
Pathak, P., Singh, S. and Sudi, R. (1985). Soil and water management alternatives for increased productivity on SAT Alfisols soil conservation and productivity. In Proceedings IV International Conference on Soil Conservation. November 3–9 at Maracay, Venezuela, 533550.
Rao, P., Agrawal, S. K. and Bishnoi, O. P. (1986). Yield variations in winter crops under different soil tillage and moisture conservation practices. Indian Journal of Ecology 13:244249.
Rao, K. P. C., Steenhuis, T. S., Cogle, A. L., Srinivasan, S. T., Yule, D. F. and Smith, G. D. (1998). Rainfall infiltration and runoff from an Alfisol in semi-arid tropical India. II. Tilled systems. Soil & Tillage Research 48:6169.
Rasmussen, P. E. and Collins, H. P. (1991). Long-term impacts of tillage, fertilizer, and crop residue on soil organic matter in temperate semiarid regions. Advances in Agronomy 45:93134.
Rasmussen, V. P., Newhall, R. L. and Cartee, R. L. (1986). Dryland conservation tillage systems. Utah Science 47:4651.
Reganold, J. P., Palmer, A. S., Lockhart, J. C. and Macgregor, A. N. (1993). Soil quality and financial performance on biodynamic and conventional farms in New Zealand. Science 260:344349.
Roth, C. H., Meyer, B., Frede, H. G. and Derpsch, R. (1988). Effect of mulch rates and tillage systems on infiltrability and other soil physical properties of an Oxisol in Parana, Brazil. Soil Tillage Research 11:8191.
Sahrawat, K. L. (2006). Plant nutrients: sufficiency and requirements. In Encyclopedia of Soil Science, 2nd edn, 13061310 (Ed. Lal, R.). Philadelphia, USA: Taylor and Francis.
Sharma, P., Abrol, V., Maruthi Sankar, G. R., and Singh, B. (2009). Influence of tillage practices and mulching options on productivity, economics and soil physical properties of maize (zea maize) – wheat (Triticum aestivum) system. Indian Journal of Agriculture Science 79:865870.
Sharma, K. L., Kusuma Grace, J., Srinivas, K., Ramakrishna, Y. S., Korwar, G. R., Maruthi Sankar, G., Mandal, U. K., Ramesh, V., Hima Bindu, V., Madhavi, M. and Gajbhiye Pravin, N. (2009). Influence of tillage and nutrient sources on yield sustainability and soil quality under sorghum-mung bean system in rainfed semi-arid tropics. Communications in Soil Science and Plant Analysis 40:25792602.
Singh, R. P., Das, S. K., Bhaskara Rao, U. M. and Narayana Reddy, M. (1990). Towards Sustainable Dryland Agricultural Practices, Technical Bulletin, Central Research Institute for Dryland Agriculture, Hyderabad, India. 1106.
Smith, L. J. and Elliott, F. L. (1990). Tillage and residue management effects on soil organic matter dynamics in semiarid regions. Advances in Soil Science 13:6988.
Sow, A. A., Hossner, L. R., Unger, P. W. and Stewart, B. A. (1996). Effects of furrow diking and tillage on water storage, plant water use efficiency and yield of sorghum. African Crop Science Journal 4:433440.
Thomas, G. A., Standley, J., Webb, A. A., Blight, G. W. and Hunter, H. M. (1990). Tillage and crop residue management affect vertisol properties and grain sorghum growth over seven years in the semi-arid sub-tropics. I. Crop residue and soil water during fallow periods. Soil and Tillage Research 17:181197.
Tukey, J. W. (1953). The Problem of Multiple Comparisons (Mimeographs). Princeton, NJ: Princeton University.
Unger, P. W. (1978). Straw mulch rate effect on soil water storage and Sorghum yield. Soil Science Society of American Journal 42:486491.
Unger, P. W. (1984). Tillage Systems for Soil and Water Conservation. FAO Soils Bull., FAO, Rome. 54:278.
Unger, P. W. (2002). Conservation tillage for improving dryland crop yields. Ciencia del Suelo 20:18.
Unger, P. W., Stewart, B. A., Parr, J. F. and Singh, R. P. (1991). Crop residue management and tillage methods for conserving soil and water in semi-arid regions Soil & Tillage Research 20:19240.
Van Keulen, H. (1995). Sustainability and long-term dynamics of soil organic matter and nutrients under alternative management strategies. In Eco-Regional Approaches for Sustainable Land Use and Food Production. Systems Approaches for Sustainable Agricultural Development, 353375 (Eds. Bouma, J., Kuyvenhoven, A., Bouman, B. A. M., Luyten, J. C., and Zandstra, H. G.), Vol. 4. Dordrecht: Kluwer Academic Publishers.
Wani, S. P., Pathak, P., Sachan, R. C. and Pande, S. (2005). Conservation tillage for enhancing productivity and protecting environment: ICRISAT experience. In Conservation Agriculture Status and Prospects, 242 (Eds. Abrol, I. P., Gupta, R. K. and Malik, R. K.). New Delhi: Centre for Advancement of Sustainable Agriculture.
Willey, R. W. (1990). Resource use in intercropping systems. Agriculture and Water Management 17:215231.
Young, F. L., Ogg, A. G. Jr., Boerboom, C. M. and All-dredge, J. R. (1994a). Integration of Weed management and tillage practices in spring dry pea production. Agronomy Journal 86:868874.
Young, F. L., Ogg, A. G. Jr., Papendick, R. I., Thill, D. C. and All-dredge, J. R. (1994b). Tillage and weed management affects winter wheat yield in an integrated pest management system. Agronomy Journal 86:147154.


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