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Agron. Sustain. Dev.
Volume 29, Number 2, April-June 2009
Page(s) 257 - 265
Published online 05 February 2009
References of  Agron. Sustain. Dev. 29 (2009) 257–265
  1. Abrol I.P., Bronson K.F., Duxbury J.M., Gupta R.K. (2000) Long-term soil fertility experiments in rice-wheat cropping systems, Rice-Wheat Consortium paper series 6, New Delhi, p. 171.
  2. Arrouays D., Balesdent J., Mariotti A., Girardin C. (1995) Modelling organic carbon turnover in cleared temperate forest soils converted to maize cropping by using 13C natural abundance measurements, Plant Soil 173, 191–196 [CrossRef].
  3. Arrouays D., Pelissier P. (1994) Changes in carbon storage in temperate humic loamy soils after forest clearing and continuous corn cropping in France, Plant Soil 160, 215–223 [CrossRef].
  4. Balesdent J., Wagner G.H., Mariotti A. (1988) Soil organic matter turnover in long term field experiments as revealed by carbon-13 natural abundance, Soil Sci. Soc. Am. J. 52, 118–124.
  5. Benbi D.K., Biswas C.R. (1999) Nutrient budgeting for phosphorus and potassium in a long-term fertilizer trial, Nutr. Cycl. Agroecosys. 54, 125–132 [CrossRef].
  6. Benbi D.K, Nayyar V.K., Brar J.S. (2006) Green revolution in Punjab: the impact on soil health, Indian J. Fertil. 2, 57–66.
  7. Beri V., Sidhu B.S., Gupta A.P., Tiwari R.C., Pareek R.P., Rupela O.P., Khera R., Singh J. (2003) Organic resources of a part of Indo-Gangetic Plain and their utilization, Department of Soils, PAU, Ludhiana, India, p. 93.
  8. Bernoux M., Cerri C.C., Cerri C.E.P., Neto M.S., Metay A., Perrin A.S., Scopel E., Razafimbelo T., Blavet D., Piccolo M. de C., Paveli M., Milne E. (2006) Cropping systems, carbon sequestration and erosion in Brazil, a review, Agron. Sustain. Dev. 26, 1–8 [CrossRef] [EDP Sciences].
  9. Bhandari A.L., Ladha J.K., Pathak H., Padre A.T., Dawe D., Gupta R.K. (2002) Yield and soil nutrient changes in a long-term rice-wheat rotation in India, Soil Sci. Soc. Am. J. 66, 162–170.
  10. Biswas C.R., Benbi D.K. (1997) Sustainable yield trends of irrigated maize and wheat in a long-term experiment on loamy sand in semi-arid India, Nutr. Cycl. Agroecosys. 46, 225–234.
  11. Brar J.S., Chhibba I.M. (1997) Potassium status and quality of underground waters of Punjab, Indian J. Ecol. 24, 165–171.
  12. Brar M.S., Mukhopadhyay S.S., Dhillon N.S., Sharma P., Singh A. (2008) Potassium: Mineralogy and status in soils, and crop response in Punjab, India. International Potash Institute, Horgen, Switzerland, p. 69.
  13. Bronson K.F., Cassman K.G., Wassman R., Olk D.C., Noordwijk M., van Garrity D.P. (1998) Soil carbon dynamics in different cropping systems in principal eco-regions of Asia, in: Lal R., Kimble J.M., Follett R.F., Stewart B.A. (Eds.), Management of Carbon Sequestration in Soil, CRC, Boca Raton, NY, pp. 35–57.
  14. Brown S., Lugo A.E. (1990) Effects of forest clearing and succession on the carbon and nitrogen content of soils in Puerto Rico and US Virgin Islands, Plant Soil 124, 53–64 [CrossRef].
  15. Duxbury J.M. (2001) Long-term yield trends in the rice-wheat cropping system: results from experiments and northwest India, J. Crop Prod. 3, 27–52 [CrossRef].
  16. Evans L.T. (1993) Crop Evolution, Adaptation and Yield, Cambridge University Press, Cambridge, 500 p.
  17. Fanning D.S., Keramides V.Z., El-Desoky M.A. (1989) Micas, in: Dixon J.B., Weed S.B. (Eds.), Minerals in Soil Environment, Soil Science Society of America, Madison, pp. 551–634.
  18. Gajri P.R., Prihar S.S. (1985) Rooting, water use and yield relations in wheat on loamy sand and sandy loam soils, Field Crop. Res. 12, 115–132 [CrossRef].
  19. Gomez K.A., Gomez A.A. (1976) Statistical Procedures for Agricultural Research. IRRI, Los Banos, Manila.
  20. Gupta R.K., Abrol I.P. (1990) Salt affected soils: their reclamation and management for crop production, Adv. Soil Sci. 11, 223–288.
  21. Houghton R.A., Skole D.L. (1990) Carbon. in: Turner B.L., Clark W.C., Kates R.W., Richards J.F., Matthews J.T., Meyer W.B. (Eds.), The Earth as Transformed by Human Action, Cambridge University Press, Cambridge, UK, pp. 393–408.
  22. Jenkinson D.S. (1988) Soil organic matter and its decomposition, in: Wild A. (Ed.), Russel's Soil Conditions and Plant Growth, 11th ed., Longman, London, pp. 464–506.
  23. Kukal S.S., Rehana-Rasool, Benbi D.K. (2008a) Soil organic carbon sequestration in relation to organic and inorganic fertilization in rice-wheat and maize-wheat systems, Soil Till Res., doi:10.1016/j.still.2008.07.017.
  24. Kukal S.S., Singh Y., Yadav S., Humphreys E., Kaur A., Thaman S. (2008b) Why grain yield of transplanted rice on permanent raised beds declines with time? Soil Till Res., doi:10.1016/j.still.2008.03.005.
  25. Kuzyakov Y., Domanski G. (2000) Carbon input by plants into the soil. Review, J. Plant Nutr. Soil Sci. 163, 421–431 [CrossRef].
  26. Ladha J.K., Fischer K.S., Hossain M., Hobbs P.R., Hardy B. (Eds.) (2000) Improving the productivity and sustainability of rice-wheat systems of the Indo-Gangetic Plains: a synthesis of NARS-IRRI partnership research. IRRI Discussion paper No. 40, 31 p.
  27. Ladha J.K., Dawe D., Pathak H., Padre A.T., Yadav R.L. et al. (2003) How extensive are yield declines in long-term rice-wheat experiments in Asia? Field Crop. Res. 81, 159–180 [CrossRef].
  28. Lugo A.E., Brown S. (1993) Management of tropical soils as sinks or sources of atmospheric carbon, Plant Soil 149, 27–41 [CrossRef].
  29. Majumder B., Mandal B., Bandyopadhyay P.K., Chaudhury J. (2007) Soil organic carbon pools and productivity relationships for a 34 year old rice-wheat-jute agroecosystem under different fertilizer treatments, Plant Soil 297, 53–67 [CrossRef].
  30. Mann L.K. (1986) Changes in soil carbon storage after cultivation, Soil Sci. 142, 279–288.
  31. Mavi M.S., Benbi D.K. (2007) Potassium dynamics under integrated nutrient management in rice-wheat system, Agrochimica LII (2) 83–91.
  32. Merwin H.D., Peech M. (1950) Exchangeability of soil potassium in the sand, silt and clay fractions as influenced by the nature of the complimentary exchangeable cations, Soil Sci. Soc. Am. Proc. 15, 125–128.
  33. Muhr G.R., Datta N.P., Sankarasubramoney H., Laley V.K., Donahue R.L. (1965) Critical soil test values for available N, P and K in different soils, in: Soil Testing in India, 2nd ed., USAID Mission to India, New Delhi, pp. 52–56.
  34. Nieder R., Benbi D.K. (2008) Carbon and Nitrogen in the Terrestrial Environment. Springer Science + Business Media B.V., p. 430.
  35. Olsen S.R., Cole C.V., Watanabe F.S., Dean L.A. (1954) Estimation of available phosphorus in soils by extraction with sodium bicarbonate, USDA Circ. No. 939.
  36. Paustian K., Cole C.V., Sauerbeck D.R., Sampson N. (1998) CO2 mitigation by agriculture: an overview, Climatic Change 40, 135–162 [CrossRef].
  37. Ponnamperuma F.N. (1972) The chemistry of submerged soils, Adv. Agron. 24, 29–96.
  38. Regmi A.P., Ladha J.K., Pathak H., Pasquin E., Bueno C., Dawe D., Hobbs P.R., Joshy D., Maskey S.L., Pandey S.P. (2002) Yield and soil fertility trends in 20-year rice-rice-wheat experiments in Nepal, Soil Sci. Soc. Am. J. 66, 857–867.
  39. Rekhi R.S., Benbi D.K., Singh B. (2000) Effect of fertilizers and organic manures on crop yields and soil properties in rice-wheat cropping system, in: Abrol I.P. et al. (Eds.), Long-term Soil Fertility Experiments in Rice-Wheat Cropping Systems. Rice-Wheat Consortium Paper Series 6, New Delhi, India; Rice-Wheat Consortium for the Indo-Gangetic Plains, pp. 1–6.
  40. Sahrawat K.L. (2004) Organic matter accumulation in submerged soils, Adv. Agron. 81, 169–201.
  41. Singh Y., Dobermann A., Singh B., Bronson K.F., Khind C.S. (2000) Optimal phosphorus management strategies for wheat-rice cropping on a loamy sand, Soil Sci. Soc. Am. J. 64, 1413–1422.
  42. Walkley A., Black I.A. (1934) An examination of the degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method, Soil Sci. 37, 29–38.
  43. Watanabe I. (1984) Anaerobic decomposition of organic matter, in: Organic Matter and Rice. International Rice Research Institute, Manila, Philippines, pp. 237–258.