Abstract
Effect of long-term application of fertilizer NPK alone or in combination with farmyard manure (FYM) to an annual rice–wheat cropping system (initiated in 1971) on a typic Hapludoll soil was studied on the physical and chemical properties as well as soil organic carbon fractions. Results revealed that continuous cropping of rice–wheat over the period of 42 cycles without NPK fertilizers reduced grain yields of rice and wheat by 80.0 and 45.4% over its initial level of 6.3 and 2.2 t ha−1, respectively. Application of 100% NPK (120 kg N + 60 kg P2O5 and 40 kg K2O) + FYM @ 10 t ha−1 produced the highest grain yield of rice of 5.2 t ha−1 and wheat of 4.7 t ha−1. Conjoint use of 100% NPK and FYM increased the organic carbon content by 7.4 and 10.1% in soil after rice and wheat harvest, respectively, over initial level of 1.48%, and it decreased by 39.2–44.6% and 36.8–49.1% in other NPK fertilizers treatments. In the control treatment, organic C was reduced it to about one-third of the value recorded at initiation of the experiment. In the absence of P, K, S, and Zn addition, continuous cropping drastically reduced their availability in soil over the years. However, no perceptible change in pH was observed. Physical properties were improved with integrated use of fertilizers and manure. Total organic carbon and its different active and passive pools C fractions in soil were influenced significantly with fertilizer management practices and were positively correlated with yields and most of the soil properties. Among soil properties, available K and hydraulic conductivity were found to be more closely correlated with soil C fractions.
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References
Badlock JA, Nelson PN (2000) Soil organic matter. In: Sumner ME (ed) Handbook of soil science. CRC Press, Boca Raton, pp B25–B84
Bhandari AL, Ladha JK, Pathak H, Padre AT, Dawe D, Gupta RK (2002) Yield and soil nutrient changes in a long-term rice–wheat rotation in India. Soil Sci Soc Am J 66:162–170
Blair GJ, Lefroy RDB, Lisle L (1995) Soil carbon fractions based on their degree of oxidation, and the development of a carbon management index for agricultural systems. Aust J Agric Res 46:1459–1466
Blake GH, Hartge KH (1986) Bulk density. In: Klute A (ed) Methods of soil analysis. Am. Soc. Agron. 2nd edn. Agron. No. 9(Part I), pp 363–375
Bostick BC, Hansel CM, La Force MJ, Fendorf S (2001) Seasonal fluctuations in zinc speciation within a contaminated wetland. Environ Sci Technol 35:3823–3829
Brar BS, Singh K, Dheri GS, Kumar B (2013) Carbon sequestration and soil carbon pools in a rice–wheat cropping system: effect of long-term use of inorganic fertilizers and organic manure. Soil Tillage Res 128:30–36
Cambardella CA, Elliott ET (1992) Particulate soil organic matter changes across a grassland cultivation sequence. Soil Sci Soc Am J 56:777–783
Deshpande SB, Feheranbacher JB, Beavers AH, Ray BW (1971) Mollisols of Tarai region of Uttar Pradesh, Northern India. II Genesis and classification. Geoderma 6:195–201
Ghani A, Dexter M, Perrott KW (2003) Hot-water extractable carbon in soils: a sensitive measurement for determining impacts of fertilisation, grazing and cultivation. Soil Biol Biochem 35:1231–1243
Govindarajan SV, Gopala Rao HG (1978) Studies on soils of India: N fertilization and problems of N availability. Vikas Publishing House, New Delhi, pp 276–290
Gregorich EG, Janzen HH (1996) Storage of soil carbon in the light fraction and macro organic matter. In: Carter MA, Stewart BA (eds) Structure and organic matter storage in agricultural soils. Lewis Publishing, Boca Raton, pp 167–170
Hanway JJ, Heidel H (1952) Soil analysis methods as used in Iowa state college of soil testing laboratory. Iowa Agric 57:1–31
Jackson ML (1967) Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi
Janzen HH, Campbell CA, Ellert BH, Bremer E (1997) Soil organic matter dynamics and their relationship to soil quality. In: Gregorich E, Carter MR (eds) Soil quality for crop production and ecosystem health. Developments in Soil Sci., 25. Elsevier, Amsterdam
Jenkinson DS, Powlson DS (1976) The effect of biological treatments on Metabolism in soil V: a method for measuring soil biomass. Soil Biol Biochem 8:209–213
Katkar RN, Kharche VK, Sonune BA, Wanjari RH, Singh M (2012) Long term effect of nutrient management on soil quality and sustainable productivity under sorghum-wheat crop sequence in Vertisol of Akola, Maharashtra. Agropedology 22(2):103–114
Katyal JC, Rao NH, Reddy MN (2001) Critical aspect of organic matter management in the tropics: the example of India. Nutr Cycl Agroecosyst 61:77–88
Kaur T, Brar BS, Dhillon NS (2008) Soil organic matter dynamics as affected by long term use of organic and inorganic fertilizers under maize- wheat cropping system. Nutr Cycl Agroecosyst 81:59–69
Klute A (1965) Laboratory measurement of hydraulic conductivity of saturated soil. In: Black CA (ed) Methods of soil analysis, Part 1. ASA Monograph No. 9. Mandison, Wisconsin, USA, pp 210–220
Laird DA, Fleming PD, Davis DD, Wang B, Horton R, Karlen DL (2010) Impact of biochar amendments on the quality of a typical Midwestern agricultural soil. Geoderma 158:443–449
Lal R, Kang BJ (1982) Management of organic matter in soils of tropics and subtropics, pp 152–178. Transactions of the 12th international congress of soil science, New Delhi, India
Mairan NR, Patil SG, Kachhave KG (2005) Physico-chemical properties under sorghum-sunflower cropping sequence in vertisols. J Soils Crops 15(2):352–355
Mandal B (2005) Assessment and improvement of soil quality and resilience for rainfed production system. Completion report. National Agricultural Technology Project, Indian Council of Agricultural Research, New Delhi, p 30
Moharana PC, Sharma BM, Biswas DR, Dwivedi BS, Singh RV (2012) Long-term effect of nutrient management on soil fertility and soil organic carbon pools under a 6-year-old pearl millet–wheat cropping system in an Inceptisol of subtropical India. Field Crops Res 136:32–41
Nand R (2000) Long-term effect of fertilizers on rice–wheat–cowpea productivity and soil properties in a mollisol. In: Abrol IP, Bronson KF, Duxbury JM, Gupta RK (eds) Long-term soil fertility experiment under rice–wheat cropping system. Rice–wheat consortium paper series 6, pp 50–56. Rice-Wheat Consortium for Indo-Gangetic Plains, New Delhi, India
Olsen SR, Cole CV, Watanable FS, Dean LA (1954) Estimation of available phosphorus in soils by extraction with sodium bicarbonate. United States Department Of Agriculture, Washington, p 939
Ram S, Singh V, Sirari P (2016) Effects of 41 years of application of inorganic fertilizers and farmyard manure on crop yields, soil quality, and sustainable yield index under a rice–wheat cropping system on mollisols of North India. Commun Soil Sci Plant Anal 47(2):179–193
Ravankar HN, Singh MV, Sarap PA (2004) Effect of long term fertilizer application and cropping on the sustenance of soil fertility and productivity under sorghum-wheat sequence in vertisol. Indian Farmers Digest 40
Rudrappa L, Purakayastha TJ, Singh D, Bhadraray S (2006) Long-term manuring and fertilization effects on soil organic carbon pools in a Typic Haplustept of semi-arid sub-tropical India. Soil Tillage Res 88:180–192
Safarik I, Santruckova H (1992) Direct determination of total soil carbohydrate content. Plant Soil 143:109–114
Salvo L, Hernandez J, Ernst O (2010) Distribution of soil organic carbon in different size fractions, under pasture and crop rotations with conventional tillage and no-till systems. Soil Tillage Res 109:116–122
Sharma BM, Singh RV (2003) Soil test and crop need based fertilizer recommendations for field crops. In: Proceedings of training workshop on soil testing for balanced and integrated use of fertilizers and manures, PAU, Ludhiana, pp 106–121
Singh M, Ram S, Wanjari RH, Sharma P (2014) Balance and forms of potassium under rice–wheat system in a 40-year-old long-term experiment on mollisols of Pantnagar. J Indian Soc Soil Sci 62(1):38–44
Stevenson FJ (1965) Gross chemical fractionation of organic matter. Methods of soil chemical analysis part II. In: Black CA, Evans DD, White JL, Ensminger LE, Clark FE (eds). American Society of Agronomy, Madison, Wisconsin, pp 1409–1421
Subbiah BV, Asija GL (1956) A rapid procedure for the estimation of available N of soils. Curr Sci 25:259–260
Tolanur SR, Badanur VP (2003) Changes in organic carbon, available N, P, and K under integrated use of organic manure, green manure, and fertilizers on sustaining productivity of pearl millet–pigeon pea system and fertility of an inceptisol. J Indian Soc Soil Sci 51(1):254–257
Tripathi R, Nayaka AK, Bhattacharyya P, Shukla AK, Shahid M, Raja R, Panda BB, Mohanty S, Kumar A, Thilagama VK (2014) Soil aggregation and distribution of carbon and nitrogen in different fractions after 41 years long-term fertilizer experiment in tropical rice–rice system. Geoderma 213:280–286
Urkurkar JS, Tiwari A, Chitale S, Bajpai RK (2010) Influence of long-term use of inorganic and organic manures on soil fertility and sustainable productivity of rice (Oryza sativa) and wheat (Triticum aestivum) in inceptisols. Indian J Agric Sci 80(3):208–212
Van Bavel CHM (1949) Mean weight diameter of soil aggregates as a statistical index of aggregation. Soil Sci Soc Am Proc 14:20–23
Vance ED, Brookes PC, Jenkinson DS (1987) An extraction method for measuring soil microbial biomass C. Soil Biol Biochem 19:703–707
Walkley A, Black CA (1934) An examination of Dgetyarelt methods for determining soil organic matter and proposed modifications of the chromic acid method. Soil Sci 37:29–38
Weil RR, Islam KR, Stine MA, Gruver JB, Samson-Liebig SE (2003) Estimating active carbon for soil quality assessment: a simplified method for laboratory and field use. Am J Altern Agric 18:3–17
Williams CH, Steinbergs A (1959) Soil sulphur fraction as chemical indices of available sulphur in soils. Aust J Soil Res 10:340–352
Yang Z, Singh BR, Sitaula BK (2004) Fractions of organic carbon in soils under different crop rotations, cover crops and fertilization practices. Nutr Cycl Agroecosyst 70(2):161–166
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Pant, P.K., Ram, S. & Singh, V. Yield and Soil Organic Matter Dynamics as Affected by the Long-Term Use of Organic and Inorganic Fertilizers Under Rice–Wheat Cropping System in Subtropical Mollisols. Agric Res 6, 399–409 (2017). https://doi.org/10.1007/s40003-017-0282-6
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DOI: https://doi.org/10.1007/s40003-017-0282-6