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Reversion of ferric iron to ferrous iron under water-logged conditions and its relation to available phosphorus

Published online by Cambridge University Press:  27 March 2009

M. A. Islam
Affiliation:
Agricultural Research Station, Dacca, East Pakistan
M. A. Elahi
Affiliation:
Agricultural Research Station, Dacca, East Pakistan

Extract

It is known that acidic red lateritic soils are usually deficient in available phosphorus, and whenever any soluble phosphates are added to such soils they become fixed and non-available to plants. It is believed that added phosphates make insoluble compounds of ferric phosphates with iron salts in the ferric state. Since ferrous salts are more soluble than the ferric salts, it suggests itself that if in the soil we can keep the iron in the ferrous state or can effect the conversion of ferric salts into ferrous salts it may be possible to reduce the formation of insoluble iron salts with phosphorus and thus increase the amount of available phosphorus by reducing phosphate fixation. With this object in view red latoritic soils from Dacca Farm area were kept under water-logged condition and the effect upon the conversion of Fe3+ into Fe2+ state and the change of readily soluble phosphorus were studied from time to time.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1954

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References

REFERENCES

Ignatieff, Vladimir (1937). J. Soc. Chem. Ind., Lond., 56, 407 T.Google Scholar
Ignatieff, Vladimir (1941). Soil Sci. 51, 249.CrossRefGoogle Scholar
Morison, C. G. T. & Doyne, H. C. (1914). J. Agric. Sci. 6, 97.Google Scholar
Truog, E. & Meyer, A. H. (1929). Industr. Engng Chem. (Anal.), 1, 136.Google Scholar