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A critical limit for the response of rice and wheat to applied zinc in Tarai soils

Published online by Cambridge University Press:  27 March 2009

R. Sakal ,
H. Sinha ,
A. P. Singh  and
K. N. Thakur
R. Sakal
Affiliation:
Tirhut College of Agriculture, Dholi, Muzaffarpur, Rajendra Agricultural University, Pusa (Bihar), India
H. Sinha
Affiliation:
Tirhut College of Agriculture, Dholi, Muzaffarpur, Rajendra Agricultural University, Pusa (Bihar), India
A. P. Singh
Affiliation:
Tirhut College of Agriculture, Dholi, Muzaffarpur, Rajendra Agricultural University, Pusa (Bihar), India
K. N. Thakur
Affiliation:
Tirhut College of Agriculture, Dholi, Muzaffarpur, Rajendra Agricultural University, Pusa (Bihar), India
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Summary

The DTPA-extractable Zn in 28 Tarai soils was found to be significantly correlated with Bray's ‘percent yield’ values for rice and wheat. The critical limit of ‘available’ Zn, below which responses of both crops to applied Zn may be expected, was 0–53 mg Zn/kg soil. On the basis of this critical limit, it may be inferred that in the 16 Zn deficient soils, rice and wheat yields would respond markedly to zinc application. The magnitude of crop response in these soils was greater in rice (39–244%; mean value 117%) than in wheat (33–101%; mean value 60%).

Type
Research Article
Information
The Journal of Agricultural Science , Volume 93 , Issue 2 , October 1979 , pp. 419 - 422
Copyright
Copyright © Cambridge University Press 1979

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References

Agarwala, S. C., Mehrotra, N. K. & Rathore, R. K. S. (1977). Wheat response to zinc and its critical level in alluvial soils of Uttar Pradesh. Journal of the Indian Society of Soil Science 25, 186192.Google Scholar
Cate, R. B. & Nelson, L. A. (1965). A rapid method for correlation of soil test analysis with crop response data. International Soil Testing Series Technical Bulletin No. 1. North Carolina State University. Agricultural Experiment Station, Raleigh.Google Scholar
Follet, R. H. & Lindsay, W. L. (1970). Profile distribution of zinc, iron, manganese and copper in Colorado soils. Colorado State University Experiment Station Technical Bulletin No. 110Google Scholar
Kanwar, J. S. & Randhawa, N. S. (1974). Micronutrient Research in Soils and Plants in India, 2nd edn.New Delhi: Indian Council of Agricultural Research.Google Scholar
Lindsay, W. L. & Norvell, W. A. (1969). Development of a DTPA micronutrient soil test. Agronomy Abstracts p. 84.Google Scholar
Rathore, G. S. (1975). Annual Progress Report of the Indian Council of Agricultural Research Coordinated Scheme of Micronutrients in Soils and Plants. Jabalpur, India: Jawaharlal Nehru Krishi Vishwa Vidyalay.Google Scholar
Rathore, G. S., Gupta, C. P., Khamparia, R. S. & Sinha, S. B. (1978). Response of wheat of zinc application in alluvial soils of Morena district (Madhya Pradesh). Journal of the Indian Society of Soil Science 26, 5962.Google Scholar