Hostname: page-component-586b7cd67f-gb8f7 Total loading time: 0 Render date: 2024-11-22T05:48:44.144Z Has data issue: false hasContentIssue false

RESPONSE OF WHEAT (TRITICUM AESTIVUM) TO NITROGEN FERTILIZATION UNDER VARYING TILLAGE AND CROP ESTABLISHMENT PRACTICES IN GREENGRAM (VIGNA RADIATA)–WHEAT CROPPING SYSTEM

Published online by Cambridge University Press:  14 January 2016

A. R. SHARMA
Affiliation:
Division of Agronomy, Indian Agricultural Research Institute (IARI), New Delhi 110 012, India
U. K. BEHERA*
Affiliation:
Division of Agronomy, Indian Agricultural Research Institute (IARI), New Delhi 110 012, India
*
Corresponding author. Email: [email protected]

Summary

Wheat grown under zero tillage (ZT) and raised-bed following a legume crop may have a variable N requirement compared with conventionally-tilled flat-sown crop. A field experiment was conducted for two years during 2005–07 to study the effect of varying tillage (conventional and zero), crop establishment (flat and raised-bed sowing) and N fertilization (0–160 kg N ha−1) on wheat grown after greengram at New Delhi, India. Rainy-season greengram performed equally well under flat and raised-bed planting, but the seed yield was 25.9% lower under ZT than conventional tillage (CT) conditions. Wheat following greengram during winter season also showed better growth and yield under CT than ZT, as well as under flat sowing than furrow-irrigated raised-bed (FIRB) system. The grain yield was highest under CT-flat, and decreased by 5.4–9.4% under FIRB system. Nitrogen fertilization up to 120 kg N ha−1 under CT and 160 kg N ha−1 under ZT increased grain yield, and the optimum doses were worked out to be 147.1 and 154.2 kg ha−1, respectively. Nitrogen-use efficiency decreased with N levels but remained more or less similar under tillage and crop establishment practices. Maximum returns and B:C ratio were obtained under CT-flat, followed closely by ZT-flat.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2016 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Aggarwal, P., Choudhary, K. K., Singh, A. K. and Chakraborty, D. (2006). Variation in soil strength and rooting characteristics of wheat in relation to soil management. Geoderma 136:353363.CrossRefGoogle Scholar
Ali, M. M. (2014). Requirement of nitrogen for the wheat-mungbean cropping sequence under strip tillage system. MS thesis, Bangladesh Agricultural University, Mymensing.Google Scholar
Arora, V. K., Sidhu, A. S., Sandhu, K. S. and Thind, S. S. (2010). Effects of tillage intensity, planting time and nitrogen rate on wheat following rice. Experimental Agriculture 46 (3):267275.CrossRefGoogle Scholar
Bakht, J., Shafi, M., Jan, M. T. and Shah, Z. (2009). Influence of crop residue management, cropping system and N fertilizer on soil N and C dynamics and sustainable wheat (Triticum aestivum L.) production. Soil and Tillage Research 104: 233240.CrossRefGoogle Scholar
Dhillon, S. S., Prashar, A. and Thaman, S. (2004). Studies on bed planted wheat (Triticum aestivum L.) under different nitrogen levels and tillage methods. Current Science 5:253256.Google Scholar
Dodwadiya, K. S. and Sharma, A. R. (2012). Effect of tillage and method of sowing on performance of greengram (Vigna radiata) varieties during summer and rainy seasons. Indian Journal of Agricultural Sciences 82 (5):462465.Google Scholar
Erenstein, O. and Laxmi, V. (2008). Zero tillage impacts in India's rice-wheat systems: A review. Soil and Tillage Research 100:114.CrossRefGoogle Scholar
Freeman, K. W., Girma, K., Teal, R. K., Arnall, D. B., Klatt, A. and Raun, W. R. (2007). Winter wheat grain yield and grain nitrogen as influenced by bed and conventional planting systems. Journal of Plant Nutrition 30:611622.Google Scholar
Gajri, P. R., Singh, J., Arora, V. K. and Gill, B. S. (1997). Tillage responses of wheat in relation to irrigation regimes and nitrogen rates on an alluvial sand in a semi-arid subtropical climate. Soil and Tillage Research 42:3346.CrossRefGoogle Scholar
Ghanshyam, Kumar, R. and Jat, R. K. (2010). Productivity and soil fertility as affected by organic manures and inorganic fertilizers in greengram (Vigna radiata)-wheat (Triticum aestivum) system. Indian Journal of Agronomy 55 (1):1621.Google Scholar
Govaerts, B., Sayre, K. D. and Deckers, J. (2005). Stable high yields with zero tillage and permanent bed planting? Field Crops Research 94:3342.CrossRefGoogle Scholar
Gupta, R. and Sayre, K. (2007). Conservation agriculture in South Asia. Journal of Agricultural Sciences Cambridge 145 (3):207214.Google Scholar
Hobbs, P., Sayre, K. and Gupta, R. (2008). The role of conservation agriculture in sustainable agriculture. Philosophical Transactions of the Royal Society of London B 363:543555.Google Scholar
Idnani, L. K. and Singh, R. J. (2008). Effect of irrigation regimes, planting and irrigation methods and arbuscular mycorrhizae on productivity, nutrient uptake and water use in summer greengram (Vigna radiata var. radiata). Indian Journal of Agricultural Sciences 78 (1):6064.Google Scholar
Kumar, V., Saharawat, Y. S., Gathala, M. K., Jas, A. S., Singh, S. K., Chaudhary, N. and Jat, M. L. (2013). Effect of different tillage and seedling methods on energy-use efficiency and productivity of wheat in the Indo-Gangetic plains. Field Crops Research 142:18.Google Scholar
Limon-Ortega, A., Sayre, K. D. and Francis, C. A. (2000). Wheat nitrogen use efficiency in a bed planting system in northwest Mexico. Agronomy Journal 92 (2):303308.Google Scholar
Majeed, A., Muhmood, A., Niaz, A., Javid, S., Ahmad, Z. A., Shah, S. S. H. and Shah, A. H. (2015). Bed planting of wheat (Triticum aestivum L.) improves nitrogen-use efficiency and grain yield compared to flat sowing. Crop Journal 3 (2):118124.Google Scholar
Malhi, S. S., Lemke, R., Wang, Z. H. and Chhabra, B. S. (2006). Tillage, nitrogen and crop residue effects on crop yield, nutrient uptake, soil quality, and greenhouse gas emissions. Soil and Tillage Research 90:171183.CrossRefGoogle Scholar
Ram, H., Singh, Y., Saini, K. S., Kler, D. S. and Timsina, J. (2013). Tillage and planting methods effects on yield, water-use efficiency and profitability of soybean-wheat system on a loamy sand soil. Experimental Agriculture 49 (4):524542.CrossRefGoogle Scholar
Raundal, P. U. and Sabale, R. N. (2000). Grain quality and economics of greengram-wheat cropping system. Journal of Maharashtra Agricultural University 25 (1):9899.Google Scholar
Sepat, S., Behera, U. K., Sharma, A. R., Das, T. K. and Bhattacharya, R. (2014). Productivity, organic carbon and residue soil fertility of pigeonpea-wheat cropping system under varying tillage and residue management. Proceedings of the National Academy of Sciences India Section B Biological Sciences 84 (3):561571.CrossRefGoogle Scholar
Sharma, R. K., Tripathi, S. C., Kharub, A. S., Chhokar, R. S., Mongia, A. D., Jag, S., Chauhan, D. S. and Nagarajan, S. (2005). A decade of research on zero tillage and crop establishment. Directorate of Wheat Research, Karnal-132 001, Haryana. Research Bulletin No. 18.Google Scholar
Singh, Y., Gupta, R. K., Singh, G., Singh, J., Sindhu, H. S. and Singh, B. (2009). Nitrogen and residue management effects on agronomic productivity and nitrogen use efficiency in rice–wheat system in Indian Punjab. Nutrient Cycling in Agroecosystems 84:141154.CrossRefGoogle Scholar
Tripathy, S. C., Sayre, K. D., Kaul, J. N. and Narang, R. S. (2002). Effect of planting methods and N rates on lodging, morphological characters of culm and yield in spring wheat varieties. Cereal Research Communications 30 (3–4):431438.CrossRefGoogle Scholar
Wang, F., Wang, X. and Sayre, K. (2004). Comparison of conventional flood irrigated, flat planting with furrow irrigated raised bed planting for winter wheat in China. Field Crops Research 87:3542.Google Scholar
Yaduvanshi, N. P. S. and Sharma, D. R. (2008). Tillage and residual organic manures/chemical amendment effects on soil organic matter and yield of wheat under sodic water irrigation. Soil and Tillage Research 98:1116.Google Scholar