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Zinc pools and their availability to maize-wheat rotation

Published online by Cambridge University Press:  27 March 2009

S. P. S. Brar ,
B. Singh  and
Y. S. Deol
S. P. S. Brar
Affiliation:
Department of Soils, Punjab Agricultural University, Ludhiana, India
B. Singh
Affiliation:
Department of Soils, Punjab Agricultural University, Ludhiana, India
Y. S. Deol
Affiliation:
Department of Soils, Punjab Agricultural University, Ludhiana, India
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Summary

In a long-term experiment with maize-wheat rotation, no response to zinc application was observed, even after 13 years of cropping though the status of zinc had decreased to a deficient level (0.35 mg/kg; DTPA). A study was, therefore, planned to find the reasons for lack of response, and the zinc fractions in the soil were analysed to assess their contribution to plant growth. All the zinc fractions other than organic zinc decreased as a result of continuous cropping without zinc application. Depletion was from the 0-30 cm layer and mainly from acid-soluble and weakly adsorbed Zn fractions. Applied zinc remained mainly in the 0-30 cm layer as acid soluble and weakly adsorbed Zn pools. All the fractions were strongly related to each other. The acid-soluble zinc fraction contributed 54 % to zinc uptake by the crops. Thus release of zinc from this pool was perhaps the main reason for lack of response to zinc.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 106 , Issue 2 , April 1986 , pp. 405 - 410
Copyright
Copyright © Cambridge University Press 1986

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References

REFERENCES

Bajwa, M. S. & Paul, J. (1978). Effect of continuous application of N, P, K and zinc on yield and nutrient uptake of irrigated wheat and maize and on available nutrients in a tropical arid brown soil. Journal of the Indian Society of Soil Science 26, 160165.Google Scholar
Black, C. A. (ed.) (1965). Methods of Soil Analysis, Part II. Madison, Wisconsin, U.S.A.: American Society of Agronomy.CrossRefGoogle Scholar
Chandi, K. S. (1980). Chemical pools of micronutrients in soils as influenced by crop rotation, long term manuring and fertilization. M.Sc. thesis, Punjab Agricultural University, Ludhiana.Google Scholar
Grewal, J. S., Randhawa, N. S. & Bhumbla, D. R. (1969). Effect of micronutrients on yield of paddy and wheat. Journal of the Indian Society of Soil Science 16, 97102.Google Scholar
Iyengar, B. R. V. & Deb, D. L. (1977). Contribution of soil zinc fractions to plant uptake and fate of zinc applied to the soil. Journal of the Indian Society of Soil Science 25, 426432.Google Scholar
Lindsay, W. L. & Norvell, W. A. (1978). Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America, Proceedings 42, 421428.CrossRefGoogle Scholar
Mann, M. S., Takkar, P. N., Bansal, R. I., & Randhawa, N. S. (1978). Micronutrients status of soil and yield of maize and wheat as influenced by micronutrients and farm yard manure application. Journal of the Indian Society of Soil Science 26, 208214.Google Scholar
Pabeek, B. L. & Jain, S. V. (1968). Studies of micronutrients in alluvial soil region of Rajasthan. Indian Journal of Agronomy 11, 291293.Google Scholar
Sarkar, A. K. & Deb, D. L. (1982). Zinc fractions in rice soil and their contribution to plant uptake. Journal of the Indian Society of Soil Science 30, 6369.Google Scholar
Saroa, G. S. (1980). Distribution of zinc in major soil series of Kapurthala district. M.Sc. thesis, Punjab Agricultural University, Ludhiana.Google Scholar
Smith, R. L. & Shoukry, K. S. (1968). Changes in the zinc distribution with in three soils and zinc uptake by field beans caused by decomposing organic matter. In Isotopes and Radiation in Soil Organic Matter Studies. Proceedings Symposium IAE-A/FAI, Vienna, pp. 397410.Google Scholar
Takkar, P. N., Mann, M. S. & Randhawa, N. S. (1975). Effect of direct and residual available zinc on yield, zinc concentration and its uptake by wheat and groundnut crop. Indian Journal of Agricultural Science 44, 679683.Google Scholar
Viets, F. C, Boawn, L. C. Jr & Crawford, C. L. (1957). The effects of nitrogen and types of nitrogen carriers on plant uptake of indigenous and applied zinc. Soil Science Society of America Proceedings 21, 197201.CrossRefGoogle Scholar