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Comparative performance of wheat sowing machinery in wheat-rice cropping system

By: Hamza Muneer Asam, Zia-Ul-Haq, Muhammad Yasin, Muhammad Ansar, Asim Gulzar, Adnan Islam

Key Words: Rice Residue, Smog, Sowing Techniques, Happy Seeder, Zero Tillage.

Int. J. Biosci. 16(1), 168-177, January 2020.

DOI: http://dx.doi.org/10.12692/ijb/16.1.168-177

Certification: ijb 2020 0313 [Generate Certificate]

Abstract

Management of combine harvested paddy residue in field though conventional method is becoming an environmental concern to soil health, transport and surrounding population living in the area of wheat-rice cropping system of province Punjab, Pakistan. In common, cultivators prefer to burn their paddy field as an easy and cost effective method of residue disposal. Burning of rice residue in field decreases soil fertility, moisture contents, and dangerous for the life of bio-control microbial insects that are beneficial for crop production.From last few years, issue of smog (mixture of smoke and fog) is rising. When smoke meet with fog, a new heavy smoke is produced called smog causing many road accidents and respiratory diseasesto residents’ invicinity. To overcome this problem a new machinewas manufactured at Sharif Engineering Works, Khurrianwala Faisalabad under the joint project of SUMMIT and USDA. Purpose of present study was to compare the performance of newly develop machine Happy seeder (T1) with zero seed drill (T2), wheat seed drill (T3) and conventional broadcasting method (T4). Experiment was conducted in the combine harvested rice residue field. Each treatment was replicated with three experimental plots for the observation of germination rate, vigor index, number of tillers, spike length, spikelet per spike, 1000 grain weight and yield. Data collected was statistically analyzed at 5% level of significance. It was concluded from the experiment that the treatment T1Happy seeder had best performance for wheat production in rice-residue field.

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Comparative performance of wheat sowing machinery in wheat-rice cropping system

Ahmed T, Bellamy R, Shyamundar P. 2013. Burning Crop Waste in Punjab, Pakistan-Can farmer do better for themselves and the environment?, SANDEE economics and the environment brief policy 71, 1–4.

Arshad M, Amjath Babu TS, Krupnik TJ, Aravindakshan S, Abbas A, Kachele H, Muller H. 2016. Climate variability and yield risk in South Asia ’ s rice – wheat systems : emerging evidence from Pakistan, The International Society of Paddy and Water Environment Engineering and Springer Japan 249–261.

Gupta R, Bellamy R, Shyamundar P. 2012. The Happy Seeder: An Agricultural Solution to Air Pollution in South Asia. SANDEE economics and the environment brief policy 61, 1–7.

Haque ME, Meisner CA, Hossain I, Justice S, Rashid MH, Sayre KD. 2004. Two-wheel tractor operated zero till seed drill: a viable crop establishment and resource conservation option. CIGR International Conference. Beijing, China, 203–209.

Iqbal MF, Hussain M, Faisal N, Iqbal J, Rehman AU, Ahmad M, Padyar JA. 2017. Happy seeder zero tillage equipment for sowing of wheat in sstanding rice stubbles. International Journal of Advanced Research in Biological Sciences 4, 101–105.

Jain N, Bhatia A, Pathak H. 2015. Emission of air pollutants from crop residue burning in India, Aerosol and Air Quality Research 14, 422–430.

Jat M, Maize I, SinghM, Gathala MK, Maize I, Saharawat Y. 2013. Operational Manual for Turbo Happy Seeder, International Maize and Wheat Improvement Centre (CIMMYT), Indian Council of Agricultural Research (ICAR).

Mann RA, Ramzan M, Munir A. 2008. Improving the sustainability of wheat production in irrigated areas of Punjab, Pakistan through conservation tillage technology. International Journal of Agriculture and Biology 10(3), 249–254.

Sheikh AD,  Abbas A. 2007. Barriers in Efficient Crop Management in Rice-wheat Cropping system of Punjab, Pakistan Journal of Agricultural 44(2), 341-349.

Sidhu HS, Manpreet S, Humphreys E, Yadvinder S, Balwinder S, Dhillon SS, Blackwell J, Bector V, Singh M, Sarbjeet S. 2007. The Happy Seeder enables direct drilling of wheat into rice stubble. Australian Journal of Experimental Agriculture 47(7), 844–854.

Singh H, Raheja A, Sharma R, Singh J,  Kaur T. 2013. Happy seeder – A conservation agriculture technology for managing rice residue for Central Punjab conditions, International Journal of Agricultural Engineering 6(2), 355–358.

Singh RP, Dhaliwal HS, Humphreys E, Sidhu HS, Singh M, Singh Y, John B. 2008. Economic assessment of the Happy Seeder for rice-wheat systems in Punjab, Australian Agricultural and Resource Economics Society Conference (52nd), February 5-8, Canberra, Australia.

Yasin M, Ali MA. 2009. Design, development and performance evaluation of rota drill.Agricultural Mechanization in Asia, Africa and Latin America 40(3), 35-40.

Hamza Muneer Asam, Zia-Ul-Haq, Muhammad Yasin, Muhammad Ansar, Asim Gulzar, Adnan Islam.
Comparative performance of wheat sowing machinery in wheat-rice cropping system.
Int. J. Biosci. 16(1), 168-177, January 2020.
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