Comparative effects of filter cake and agricultural lime as liming material under marginal soil conditions of CSU-Piat

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Research Paper 01/06/2022
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Comparative effects of filter cake and agricultural lime as liming material under marginal soil conditions of CSU-Piat

Michael M. Uy
Int. J. Biosci.20( 6), 285-288, June 2022.
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Abstract

Soil acidity is one of the most important factors affecting crop growth and, ultimately, yield and profitability. Soil pH directly affects the life and growth of plants because it affects the availability of all plant nutrients. This problem can be corrected with the use of lime. The study aimed to determine the effects of filter cake and agricultural lime as liming materials under marginal soil conditions of CSU-Piat. The pH value after application ranged from 5.27 to 7.03 as compared to the initial pH value ranging from 5.0 to 5.03. All the treatments recorded higher soil pH values as compared to the initial soil. Among the two limes tested, agricultural lime (CaCO3) can be comparable to filter cake since they did not differ significantly from each other in most of the data gathered. Organic matter content of the post-harvest soils varied from 0.94 – 1.22% which is considerably higher than the initial value of 28%. Available P content in the post-harvest soils ranged from 2.57 to 3.24 ppm. The P availability in soil was highly pH-dependent, while a tremendous increase in the K content was recorded from 26.66 – 38.88 ppm. Dolomite (CaCO3) and filter cake as sources of lime can be used to reduce the acidity level and raise the pH level of soils since they do not differ significantly from each other. The filter cake is recommended as an alternative source of lime in marginal soil.

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Caires EF, Alleoni LRF, Cambri MA, Barth G. 2005. Surface application of lime amelioration sub-soil acidity and improves root growth and yield of Wheat in an acid soil under a no-till system Sci. Agricola 63, 502–509. https://doi.org/10.1590/S010390162006000500013

Caires EF, Garhuio FJ, Churka S, Barth G, Correa JCL. 2008. Effects of Soil Acidity Amelioration by Surface Liming on No-till corn, soybean, and wheat root growth and yield Europe Journal in Agronomy 28, 57–64. https://doi.org/10.1016/j.eja.2007.05.002

Chang CS, Sung JM. 2004. Nutrient uptake and yield responses of peanuts and rice to lime and fused magnesium phosphate in acid soil. Field Crops Research 89, 319–325. https://doi.org/10.1016/j.fcr.2004.02.012

Cifu M, Xiaonan L, Zhihong C, Zhhengyi H, Wanzhu M. 2004. Long-term effect of lime application on soil acidity and crop yields on red soil in Central Zhejiang. Plant and Soil 265, 10 1–109.

Kumar M, Kumar R, Singh BP, Jha AK, Environment, Ecology. 2010, 28, 1190.

Rossetto R, Dias FLF, Vitti AC, Cantarella H, Landell MGA. “Manejo conservacionista e reciclagem de nutrientes em cana-de-ac ¸´ ucar tendo em vista a colheita mecˆanica,” Informa.

Hampstead MI, TJ Sauer, Bennet WF. 1997. Soil Science Simplified. 3rd Edition. Iowa State University Press, Ames Iowa 500014.

Venkatesh MS, Majumdar B, Kunar K, Patiram. 2002. Effect of Phosphorus, FYM and lime on yield, P uptake by maize and forms of soil acidity in typichapludalf of Meghalaya, Journal of the Indian Society of Soil Science 50(3), 254–258.