Potentiality of Indian rock phosphate as liming material in acid soil
Most of the Indian rock phosphates (RPs) are not suitable for production of commercial phosphate fertilizer because of their low phosphorus (P) content (low-grade). They are suitable as source of P in acid soil, but not effective for direct use in neutral to alkaline soil. The main aim of this study...
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Published in | Geoderma Vol. 263; pp. 104 - 109 |
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Main Authors | , |
Format | Journal Article |
Language | English |
Published |
Elsevier B.V
01.02.2016
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Subjects | |
Online Access | Get full text |
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Summary: | Most of the Indian rock phosphates (RPs) are not suitable for production of commercial phosphate fertilizer because of their low phosphorus (P) content (low-grade). They are suitable as source of P in acid soil, but not effective for direct use in neutral to alkaline soil. The main aim of this study was to evaluate the potentiality of these RPs as liming material and subsequently their effect on P availability in acid soil. Four Indian RPs namely, Udaipur, Mussoorie, Jhabua and Purulia were evaluated for their liming potential through theoretical calculations, laboratory titration and soil incubation studies. The incubation experiment was carried out for 90days to quantify more accurate per cent calcium carbonate equivalence (%CCE) values of RPs as well as the changes in pH, exchangeable aluminum (Al) and P availability in an acid soil having pH4.53. Results emanated from the theoretical calculation showed that the %CCE of Indian RPs varied from 59 to 62. While, laboratory studies on quantification of %CCE (AOAC method 955.01) of RPs by titration ranged between 39.9 and 53.7 which were lesser than the theoretical values. The %CCE values obtained in soil incubation study at lower rate of RP application followed the similar pattern as those values obtained in the theoretical calculation. Though RP was less effective in increasing soil pH as compared to CaCO3, there was an increase in soil pH due to application of RPs, which is sufficient enough to decrease the content of Al much below the toxic and safe limit for supplying available P for plant growth. Thus, application of low-grade RPs could be a potential option as liming material in acid soil in addition to a source of P for crop production.
•Laboratory quantification of %CCE of Indian rock phosphates was found less than the theoretical value.•Similarity of % CCE and % P dissolution pattern among the RPs well correlated with theoretical calculations.•The actual %CCE of RPs in soil incubation study was found lower than theoretical value.•Udaipur rock phosphate exhibits more liming potential as compared to other Indian rock phosphate. |
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ISSN: | 0016-7061 1872-6259 |
DOI: | 10.1016/j.geoderma.2015.09.016 |