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Communications in Soil Science and Plant Analysis Volume 53, 2022 - Issue 19
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Research Article

Ameliorating Effect of Organic Materials on Saline-Sodic Soil in Central Ganga Plain in Uttar Pradesh, India

Arun Shankara Narayan Institute of Agricultural Sciences, Gopal Narayan Singh University, Sasaram, IndiaCorrespondence[email protected]
,
Rajesh Kumar Palb Chandra Shekhar Azad University of Agriculture & Technology , Kanpur, India
,
K. K. Mishraa Narayan Institute of Agricultural Sciences, Gopal Narayan Singh University, Sasaram, India
&
Rahul Ranjanc Faculty of Agricultural Sciences and Allied Industries, Rama University, Kanpur, India
Pages 2655-2661 | Received 31 Mar 2021, Accepted 22 Feb 2022, Published online: 07 May 2022

References

  • Abdullah, A. A. 2008. Effect of vermicompost and vermiwash on the productivity of Spinach (Spinacia oleracea), Onion (Allium cepa) and Potato (Solanum tuberosum). World Journal of Agricultural Sciences”>World Journal of Agricultural Sciences 4 (5):554–57.
  • Adane, A., H. Gebrekidan, and K. Kibret. 2019. Effects of treatment application rates (fym and gypsum) on selected chemical properties of saline sodic soils under water limited condition in eastern lowlands Ethiopia. Forestry Research and Engineering: International Journal”>Forestry Research and Engineering: International Journal 3 (3):106–13.
  • Arora, S., and V. Sharma. 2017. Reclamation and management of salt-affected soils for safeguarding agricultural productivity. Journal of Safe Agriculture 1:1–10.
  • Arora, S., Y. P. Singh, M. Vanza, and D. Sahni. 2016. Bioremediation of saline and sodic soils through halophilic bacteria to enhance agricultural production. Journal of Soil and Water Conservation 15 (4):302–05. doi:10.5958/2455-7145.2016.00027.8.
  • Basavaraja, P. K., S. D. Sharma, M. S. Badrinath, S. Sridhara, and G. R. Hareesh. 2007. Prosopis juliflora - An efficient tree species for reclamation of salt affected soils. Karnataka Journal of Agricultural Sciences”>Karnataka Journal of Agricultural Sciences 20 (4):727–31.
  • Cha-um, S., Y. Pokasombat, and C. Kirdmanee. 2011. Remediation of salt-affected soil by gypsum and farmyard manure − Importance for the production of Jasmine rice. Australian Journal of Crop Science”>Australian Journal of Crop Science 5 (4):458–65.
  • Chaoui, H., L. Zibilske, and T. Ohno. 2003. Effects of earthworm cast and compost on soil microbial activity and plant nutrient availability. Soil Biology and Biochemistry 35 (2):295–302. doi:10.1016/S0038-0717(02)00279-1.
  • Chorum, M., and P. Rengasamy. 1997. Carbonate chemistry, pH and physical properties of alkaline sodic soil as affected by various amendments. Soil Research 35 (1):149–61. doi:10.1071/S96034.
  • Clark, G. J., P. W. G. Sale, and C. Tang. 2009. Organic amendments initiate the formation and stabilization of macro-aggregates in a high clay sodic soil. Soil Research 47 (8):770–80. doi:10.1071/SR09119.
  • Doll, E. C., L. R. Thomas, Z. K. Nash, and K. J. Lang. 1989. Chemical analysis of soils contaminated with oilfield brine. Mandan, ND: North Dakota State University. Bulletin No. 521.
  • Hanway, J. J., and H. Heidel. 1952. Soil analysis methods as used in Iowa State College Soil testing laboratory. Iowa Agriculture 57:1–31.
  • Jackson, M. L. 1973. Soil chemical analysis. New Delhi: Prentice Hall of India (Pvt.) Ltd.
  • Levy, G. R. 2000. Sodicity. In Handbook of soil science, ed. M. E. Sumner, 29–63. Boca Raton, Fl: CRC press.
  • Lindsay, W. L., and W. A. Norvell. 1978. Development of a DTPA soil test for zinc, iron, manganese, and copper. Soil Science Society of America Journal 42 (3):421–28. doi:10.2136/sssaj1978.03615995004200030009x.
  • Mandal, S., R. Raju, A. Kumar, P. Kumar, and P. C. Sharma. 2018. Current status of research, technology response and policy needs of salt-affected soils in India – A review. Indian Society of Coastal Agricultural Research 36:40–53.
  • Mandal, A., R. C. Sharma, G. Singh, and J.Dagar. 2010. Computerized database of salt affected soils in India. Technical Bulletin No. 2, Karnal, India: ICAR-CSSRI, 28.
  • Mishra, A., and S. D. Sharma. 2010. Influence of forest tree species on reclamation of semiarid sodicsoils. Soil Use and Management 26 (4):445–54. doi:10.1111/j.1475-2743.2010.00296.x.
  • Mogollón, S., J. Pastor, A. E. Martínez, and D. G. Torres. 2015. Efecto de la aplicación de un vermicompost en las propiedades químicas de un suelo salino-sódico del semiárido venezolano. Acta Agronómica 64 (4):315–20.
  • Olsen, S., C. Cole, F. Watanabe, and L. Dean. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. USDA Circular Nr 939, U.S. Government Publishing Office, Washington, DC.
  • Sakin, E., and I. H. Yanardag. 2019. Effect of application of sheep manure and its biochar on carbon emissions in salt affected calcareous soil in sanliurfa region se Turkey. Fresenius Environmental Bulletin 28 (4):2553–60.
  • Sandoval, J. P. M., A. E. Martínez, and D. G. Torres. 2015. Effect of application of vermicompost on the chemical properties of saline-sodic soil of Venezuelan semiarid. Acta Agronómica 64 (4):301–06.
  • Sparks, D. L. 2003. Environmental soil chemistry. San Diego: Elsevier Academic Press.
  • Subbiah, B. V., and G. L. Asija. 1956. A rapid procedure for the determination of available nitrogen in soil. Current Science 25:259–60.
  • Szabolcs, I. 1989. Salt-Affected Soils, 274. Boca Raton, FL: CRC Press Inc.
  • Vance, W. H., J. M. Tisdeel, and B. M. McKenzie. 1998. Residual effects of surface application of organic matter and calcium salts on the sub-soil of a red-brown earth. Australian Journal of Experimental Agriculture 38 (6):595–600. doi:10.1071/EA97102.
  • Walkley, A., and C. A. Black. 1934. An examination of the Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37 (1):29–38. doi:10.1097/00010694-193401000-00003.
  • Wicke, B., E. Smeets, V. Dornburg, B. Vashev, T. Gaiser, W. Turkenburg, Faaij, A., et al. 2011. The global technical and economic potential of bioenergy from salt-affected soils. Energy & Environmental Science 4(8):29–38. doi:10.1039/C1EE01029H.
  • Williams, C. H., and A. Steinberg. 1959. Soil sulphur fractions as chemical indices of available sulphur in some Australian soils. Australian Journal of Agricultural Research 10 (3):340–52. doi:10.1071/AR9590340.
  • Zhang, J., J. Yang, R. Yao, S. Yu, F. Li, and X. Hou. 2014. The effects of farmyard manure and mulch on soil physical properties in a reclaimed coastal tidal flat salt- affected soil. Journal of Integrative Agriculture 13 (8):1782–90. doi:10.1016/S2095-3119(13)60530-4.

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