Effect of Directly-Applied and Residual Boron on Nutrition in French Bean-Cabbage Cropping Sequence under Alfisol

A N Ganeshamurthy

doi:10.24154/jhs.v9i2.194

Authors

A N Ganeshamurthy Author

DOI:

https://doi.org/10.24154/jhs.v9i2.194

Keywords:

Alfisols, Cabbage, French Bean, HWS-B, B Toxicity, Tissue B, Residual B, Yield, Cropping Sequence

Abstract

Effects of directly-applied-to-the-soil and residual boron (B) in soil were assessed in French bean (Phaseolus vulgaris L.) - cabbage (Brassica oleracea var. capitata L.) cropping sequence and cycle under Alfisol, with either low or adequate hot-water-soluble boron (HWS-B) content. The experiments focussed on effects of various levels of applied B on leaf tissue B and crop yield, HWS-B content in the year of B application, and in subsequent years. Response of the crops to applied B reflected initial soil B levels. Application of the highest level of B (8kg ha^-1) reduced crop yield at Site-I throughout the four years of experimentation. Applied B up to 2kg ha^-1 enhanced French bean yields at Site I, while at Site II, at all the levels of applied B, yields were reduced in the first two crops; during the third and fourth crop, yields in plots receiving 1kg B ha^-1 were higher than those in plots that did not receive supplemental B. In both French bean and cabbage, high B concentrations caused toxicity symptoms manifested as browning of leaf margin. These symptoms appeared in both French bean and cabbage under all the plots receiving B e" 4kg ha^-1. Monitoring HWS-B content at harvest in each crop during the experiment indicated that applied B diminished rapidly in these soils. However, at Site II, residual HWS-B was above the critical level throughout the period of experimentation. A single application of higher amounts of B fertilizer led to B toxicity and caused yield suppression in these vegetables. French bean, being a sensitive crop, should be grown preferably on residual B rather than subjecting it to direct application of B in any vegetable cropping system under red soils.

References

Agarwala, S.C., Farooq, S. and Sharma, C.P. 1977. Growth and metabolic effects of boron deficiency in some plant species of economic importance. Geophytology, 7:79-90

Bradford, G.R. 1966. Boron. In: H.D. Chapman (ed). Diagnostic criteria for plants and soils.University of California, Riverside, California, USA, pp. 33-61

Edward Raja, M. 2007. Boron nutrition and boron application in crops. Advances in plant and animal boron nutrition. pp. 117-124

Gupta, U.C. 1979. Boron nutrition of crops. Adv. Agron., 31:273-307

Gupta, U.C. 1983. Boron deficiency and toxicity symptoms for several crops as related to tissue boron levels. J. Pl. Nutr. 6:387-395

Gupta, U.C. and Cutcliffe, J.A. 1975. Boron deficiency in cole crops under field and greenhouse conditions. Commun. Soil Sci. Pl. Anal., 6:l8l-188

Gupta, U.C. and Cutcliffe, J.A. 1978. Effect of methods of boron application on leaf tissu concentration of boron and control of brown-heart in rutabaga. Can. J. Pl. Sci., 58:63-68

Gupta, U.C. and Cutcliffe, J.A. 1984. Effects of applied and residual boron on the nutrition of cabbage and field beans. Can. J. Soil Sci., 64:571-576

Katyal, J.C. and Rattan, R.K. 2003. Secondary and micro- nutrients: Research gaps and future needs. Fert. News, 48:9-20

Kotur, S.C. 1993. Response of cauliflower to lime and boron in a boron deficient soil. Indian J. Hort., 50:4344-349

Mackay, D.C., Langille, W.M. and Chipman, E.W. 1962. Boron deficiency and toxicity in crops grown on sphagnum peat soils. Can. J. Soil Sci., 42:302-310

Prabhakar, M., Hebbar, S.S. and Nair, A.K. 2010. Production technology of vegetables – A-handbook. Indian Institute of Horticultural Research, Bengaluru, India

Rao, C.S., Wani, S.P., Sahrawat, K.L., Rego, T.J. and Pardhasaradhi, G. 2008. Zinc, boron and sulphur deficiencies are holding back the potential of rainfed crops in semi-arid India. Experience from participatory watershed management. Int. J. Pl. Prodn., 2:89-99

Robertson, L.S., Knezek, B.D. and Belo, J.O. 1975. A survey of Michigan soils as related to possible boron toxicities. Commun. Soil Sci. Pl. Anal., 6:359-373

Satisha, G.C. and Ganeshamurthy, A.N. 2012. Micronutrient management in horticultural crops. 5 th Indian Horticultural Congress, Punjab Agricultural University, Ludhiana, India, 6-9 November 2012

Sharma, S.P and Brar, J.S. 2008. Nutritional requirement of brinjal. Agri. Rev., 29:79–88

Singh, M.V., Narwal, R.P., Bhupal Raj, G., Patel, K.P. and Sadana, U.S. 2009. Changing scenario of micronutrient deficiencies in India during four decades and its impact on crop responses and nutritional health of human and animals. Proc. Int’l. Pl. Nutr. Colloquium XVI, Department of Plant Sciences, University of California, Davis, California, USA