Integrated weed management in maize under different tillage regimes

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Research Paper 01/06/2017
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Integrated weed management in maize under different tillage regimes

Haroon Ur Rashid, Ayub Khan, Gul Hassan, Muhammad Saeed, Sami Ullah Khan Shah Masaud Khan, Sher AslamKhan, Muhammad Zamin
Int. J. Biosci.10( 6), 223-231, June 2017.
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Abstract

To explore the utilization of allelopathic plants (Sorghum bicolor, Sunflower and Parthenium) surface mulches and water extracts combined with reduce dose of herbicide under different tillage regimes (minimum, conventional and deep tillage) as an effective, economical and ecofriendly weed management tool in spring maize, field experiments were carried out during 2014 and repeated in 2015 at Agriculture Research Station Swabi, Pakistan. The experiments were laid out in RCBD with split plot arrangements and replicated thrice. 3 Tillage regimes were assigned to Main plots, while 12 weed control measures were assigned to sub plots. Maize hybrid ‘Pioneer 3025’ was sown by maintaining plant-plant distance of 15 cm and row-row distance of 75 cm. Data were recorded on weed density 30 DAS, Plant height kernel yield. The data showed that Tillage and all allelopathic extracts and mulch treatments had significant effect (P<0.05) on weed density 30 DAS, plant height and Kernel yield Among the Tillage x weed management interactions Mulch treatments under conventional tillage were superior than aqueous extracts and recommended at razine application, which encourages the exploitation of alleopathic plants as surface mulches for sustainable weed management in maize. Hence it is concluded that allelopathic plants surface mulches could reduce weed density which ultimately increased the 1000 kernel weight.

VIEWS 10

An M, Pratley J, Haig T. 1998. August. Allelopathy: from concept to reality. In Proceedings of the 9th Australian Agronomy Conference (pp. 563-566). Australian Agronomy Society: Wagga Wagga, Australia.

AACC A. 2000. Approved Methods of the AACC. Association of Cereal Chemists, St. Paul Google Scholar.

Ali K, Khalil SK, Munsif F, Rab A, Nawab K, Khan AZ, Kamal  A, Khan ZH. 2012b. Response of maize to various nitrogen sources and tillage practices. Sarhad Journal of Agriculture 28(1), 9-14.

Arif M, Marwat KB, Khan MA. 2007. Effect of tillage and zinc application methods on weeds and yield of maize. Pak. J. Bot 39(5), pp.1583-1591.

Ashiq M, Nayyar MM, Ahmed J. 2003. Weed Control Handbook for Pakistan. Directorate of Agronomy. Ayub Agricultural Research Institute, Faisalabad pp.11-184.

Batish DR, Tung P, Singh HP, Kohli RK. 2002. Phytotoxicity of sunflower residues against some summer season crops. Journal of Agronomy and Crop Science 188(1), pp. 19-24.

Beckett TH, Stoller EW, Wax LM. 1988. Interference of four annual weeds in corn (Zea mays). Weed Science, pp. 764-769.

Belz RG. 2007. Allelopathy in crop/weed interactions- An updated Pest Manag. Sci 63(4), 308-326.

Bu YS, Shao HL, Wang JC. 2002. Effects of different mulch materials on corn seeding growth and soil nutrients’ contents and distributions. J. Soil Water Cons 16(3), pp.40-42.

Cardina J, Regnier E, Harrison K. 1991. Long-term tillage effects on seed banks in three Ohio soils. Weed Science pp. 186-194.

Cassel DK, Raczkowski, Denton HP. 1995. Tillage effects on corn production and soil physical conditions. Soil Sci. Soc. Am. J 59, 1436-1443.

Cheema ZA, Jaffer I, Khaliq A. 2003. Reducing isoproturon dose in combination with Sorgaab for weed control in wheat. Pakistan Journal of Weed Science Research, Pakistan.

Cheema ZA, Khaliq A. 2000. Use of sorghum allelopathic properties to control weeds in irrigated wheat in a semi-arid region of Punjab. Agriculture, Ecosystems & Environment 79(2), pp.105-112.

Diaz-Zortia M. 2000. Effect of deep tillage and nitrogen fertilizations interactions on dry land corn productivity. Soil & Tillage Res 54, 11-19.

DOĞAN MN, Ünay A, Boz Ö, Albay F. 2004. Determination of optimum weeds control timing in maize (Zea mays L.). Turkish Journal of Agriculture and Forestry 28(5), pp. 349-354.

Duke SO. 1986. Naturally occurring chemical compounds as herbicides. Rev. Weed Sci 2, 15-44.

Erenstein O. 2002. Crop residue mulching in tropical and semi-tropical countries: An evaluation of residue availability and other technological implications. Soil and tillage research 67(2), pp. 115-133.

Gupta PK. 2004. Pesticide exposure- Indian scene. Toxicology 198(1), pp. 83-90.

Hassan G, Marwat KB. 2001. September. Integrated weed management in agricultural crops. In National Workshop on Technologies for sustainable agriculture. pp. 24-26.

Irshad A, Cheema ZA. 2004. Effect of sorghum extract on management of barnyard grass in rice crop. Allelopathy Journal 14(2), pp. 205-212.

Jabran K, Farooq M, Hussain M, Ali M. 2010. Wild oat (Avena fatua L.) and canary grass (Phalaris minor Ritz.) management through allelopathy. Journal of Plant Protection Research 50(1), pp. 41-44.

Kamara AY, Akobundu IO, Chikoye D, Jutzi SC. 2002. Selective control of weeds in an arable crop by mulches from some multipurpose trees in South western Nigeria. Agroforestry Systems 50(1), pp.17-26.

Khan AHMAD, Jan MT, Arif M, Marwat KB, Jan A. 2008. Phenology and crop stand of wheat as affected by nitrogen sources and tillage systems. Pakistan Journal of Botany 40(3), pp. 1103-1112.

Khan AUH, Lal R. 2007. Potential for carbon sequestration in the soils of Afghanistan and Pakistan. In: Lal R, Suleimenov M, Stewart BA, Hansen DO, Doraiswamy P. (Eds.). Climate change and terrestrial carbon sequestration in central Asia. Taylor & Francis/Balkema, the Netherland pp. 235-249.

Khattak MK, Khan MJ, Asrar M, Wahab S, Ramzan M. 2005. Enhancement of wheat yield and yield components by controlling weeds with deep tillage practices under irrigated clay loam soil conditions. Pakistan Journal of Weed Science Research 11, 131-136.

Leather GR. 1983. Sunflowers (Helianthus annuus) are allelopathic to weeds. Weed Science pp. 37-42.

Malik NA, Shah SML. 1993. Weed control in maize (Zea mays). J. Agric. Res 31(1), 21-29.

Mock JJ, DCErbch. 1977. Influence of conservation-tillage environment on growth and productivity of corn. Agron. J 69, 337-340.

Mohler CL, Galford AE. 1997. Weed seedling emergence and seed survival: separating the effects of seed position and soil modification by tillage. Weed Research 37(3), pp.147-155.

Pathak SKK, Parsad D, Jha RN, Kannhaiya P. 2004. Comparative performance of conservative and local tillage systems on growth and yield of rice. J. Appl. Bio 14, 27-30.

Smith RA, Alexander RB, Wolman MG. 1987. Water quality trends in the nation’s river. Science 235, 1607-1615.

Steel RG, Torrie JH, Dickey DA. 1980. Principles and procedures of statistics: a biometrical approach (Vol. 633). New York, USA: McGraw-Hill, New York.

Tahir M, Javed MR, Tanveer A, Nadeem MA, Wasaya A, Bukhari SAH, Rehman JU. 2009. Effect of different herbicides on weeds, growth and yield of spring planted maize (Zea mays L.). Pakistan J. Life Soc. Sci 7(2), pp. 168-174.

Tomar PK, Ganwar S, Grag RN, Deiwde BS, Gupta VK. 2005. Effect of tillage systems and moisture regimes on weed growth and productivity of rice-wheat sequence in Inceptisol of Indo-gignastic plains. Annals. Pl. Protc. Sci 13, 205-211.

Usman A, Elemo KA, Bala A, Umar A. 2001. Effect of weed interference and nitrogen on yields of a maize/rice intercrop. International journal of pest management 47(4), pp. 241-246.

Weston LA, Duke SO. 2003. Weed and crop allelopathy. Critical Reviews in Plant Sciences 22(3-4), pp. 367-389.