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Effect of fertilizer placement for different tillage options on the growth and yield of wheat

By: Md. Ilias Hossain, Md. Israil Hossain, Md. Bodruzzaman, Md. Nur-E-Alam Siddquie, Md. Moksadul Amin, Md. Shahidul Haque

Key Words: Tillage options, Wheat yield, RCT, Fertilizer placement

Int. J. Agron. Agri. Res. 12(2), 15-23, February 2018.

Certification: ijaar 2018 0081 [Generate Certificate]

Abstract

To enhance the improvement of wheat yield, a two years field experiment was conducted to find the effect of fertilizer placement with different tillage options. The experiment was laid out in a randomized complete block design with fifteen treatments: i) zero tillage plus fertilizer in between rows, ii) zero tillage plus fertilizer in seed line, iii) zero tillage plus fertilizer in broadcast, iv) strip tillage plus fertilizer in between rows, v) strip tillage plus fertilizer in seed line, vi) strip tillage plus fertilizer in broadcast, vii) bed planting plus fertilizer in between rows, viii) bed planting plus fertilizer in seed line, ix) bed planting plus fertilizer in broadcast, x) PTOS plus fertilizer in between rows, xi) PTOS plus fertilizer in seed line, xii) PTOS plus fertilizer in broadcast, xiii) conventional tillage plus fertilizer in between rows, xiv) conventional tillage plus fertilizer in seed line and xv) conventional tillage plus fertilizer in broadcast. Using above treatments, the grain yields were recorded as 4.22, 3.89, 3.55, 4.39, 4.19, 3.84, 4.16, 3.89, 3.62, 4.01, 3.85, 3.94, 3.94, 3.44, 3.34 t ha-1 respectively for 2010-2011 and 3.63, 3.57, 3.50, 3.50, 3.73, 3.63, 4.60, 4.20, 4.47, 3.80, 3.57, 3.63, 4.20, 3.63, 3.53 t ha-1 respectively for 2011-2012 years. The maximum yield was found for strip tillage plus fertilizer placement in between rows in 2010-2011 and bed planting plus fertilizer placement in between rows in 2011-2012 years showing the strategy might be a significant tool for getting higher yield of wheat.

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Effect of fertilizer placement for different tillage options on the growth and yield of wheat

Aown M, Raza S, Saleem MF, Anjum SA, Khaliq T, Wahid MA. 2012. Foliar application of potassium under water deficit conditions improved the growth and yield of wheat (Triticum aestivum L.). Journal of Animal & Plant Sciences 22(2), 431-437.

Ali S, Shah A, Arif M, Miraj G, Ali I, Sajjad F,Khan MY, Khan NM. 2009. Enhancement of wheat grain yield and yield components through foliar application of zinc and boron. Sarhad Journal of Agriculture 25(1), 15-19.

Alam SM, Azam S, Ali S, Iqbal M. 2003. Wheat yield and P fertilizer efficiency as influenced by rate and integrated use of chemical and organic fertilizers. Pakistan Journal of Soil Science 22(2), 72-76.

Adjetey JA, Campbell LC, Searleand PGE, Saffigna P. 1999. Studies on depth of placement of urea on nitrogen recovery in wheat grown on a red-brown earth in Australia. Nutrient Cycling in Agro ecosystems 54(3), 227-232.

https://doi.org/10.1023/A:1009775622609

Bandaogo A, Bidjokazo F, Youl S, Safo E, Abaidoo R, Andrews O. 2015. Effect of fertilizer deep placement with urea supergranule on nitrogen use efficiency in Sourou Valley (Burkina Faso). Nutrient Cycling in Agroecosystems 102, 79-89.

https://doi.org/10.1007/s10705-014-9653-6

Busari MA, Kukal SS, Kaur A,  Bhatt R, Dulazi AA. 2015. Conservation tillage impacts on soil, crop and the environment. International Soil and Water Conservation Research, 3(2), 119-129.

https://doi.org/10.1016/j.iswcr.2015.05.002

Bertholdsson NO. 2005. Early vigor and Allelopathy-Two useful traits for enhancing barley and wheat competitiveness against weeds. Weed Research 45(20), 94.

https://doi.org/10.1111/j.1365-3180.2004.00442.x

Chen Z, Wang H, Liu X, Liu Y, Gao S, Zhou J. 2016. The effect of N fertilizer placement on the fate of urea-15N and yield of winter wheat in Southeast China. PLoS One 11(4), e0153701.

https://doi.org/10.1371/journal.pone.0153701

Duan W, Shi Y, Zhao J, Zhang Y, Yu Z. 2015. Depth of nitrogen fertiliser placement affects nitrogen accumulation, translocation and nitrate-nitrogen content in soil of rainfed wheat. International Journal of Plant Production 9(2), 237-256.

Devasenapathy P, Palaniappan SP. 1996. Urea-nitrogen on yield and NUE in lowland rice as affected by band placement of urea solution. Indian Journal of Agronomy 41(3), 379-385.

Doran JW. 1980. Soil microbial and biochemical changes associated with reduced tillage. Soil Science Society of America Journal 44, 765-771.

https://doi.org/10.2136/sssaj1980.03615995004400040022x

Györi Z. 2007. Sulphur content of winter wheat grain in long term field experiments. Communications in Soil Science and Plant Analysis 36, 373-382.

https://doi.org/10.1081/CSS-200043098

Kaleem S, Ansar M, Ali MA, Rashid M. 2009. Effect of phoshorus on the yield and yield components of wheat variety “Inquilab-91” under rainfed conditions. Sarhad Journal of Agriculture 25(1), 21-24.

Kapoor V, Singh U, Patil SK, Magre H, Shrivastava LK, Mishra VN, Das RO, Samadhiya VK, Sanabria J,  Diamond R. 2008. Rice growth, grain yield, and floodwater nutrient dynamics as affected by nutrient placement method and rate. Agronomy Journal 100, 526-536.

https://doi.org/10.2134/agronj2007.0007

Kjeldahl J. 1883. A New method for the determination of nitrogen in organic substances. Zeitschrift für analytische Chemie 22(1), 366-382. http://dx.doi.org/10.1007/BF01338151

López-Bellido L, López-Bellido RJ, Redondo R. 2005. Nitrogen efficiency in wheat under rainfed Mediterranean conditions as affected by split nitrogen application. Field Crop Research 94(1), 86-97.

https://doi.org/10.1016/j.fcr.2004.11.004

Mallarino AP, Borges R. 2006. Phosphorus and potassium distribution in soil following long term deep band fertilization in different tillage systems. Soil Science Society of America Journal 70, 702-707. https://doi.org/10.2136/sssaj2005.0129

Nazim H, Khan MB, Ahmad R. 2008. Influence of phosphorous application and sowing time on performance of wheat in calcareous soils. International Journal of Agriculture and Biology 10(4), 399-404.

Olsen SR, Cole CV, Watanabe FS, Dean LA. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. USDA Circular No. 939, United States Department of Agriculture, Washington, DC., USA., 1-18P.

Radhika K, Hemalatha S, Maragatham S, Kathrine SP. 2013. Placement of nutrients in soil: A review. Research and Reviews: Journal of Agriculture and Allied Sciences 2(2), 12-19.

Rehim A, Farooq M, Ahmad F, Hussain M. 2012. Band placement of phosphorus improves the phosphorus use efficiency and wheat productivity under different irrigation regimes. International Journal of Agriculture and Biology 14, 727-733.

Rajaie M, Ejraie AK, Owliaie HR, Tavakoli AR. 2009. Effect of zinc and boron interaction on growth and mineral composition of lemon seedlings in a calcareous soil. International Journal of Plant Production 3(1), 39-50.

Rehman O, Zaka MA, Rafa HU, Hassan NM. 2006. Effect of balanced fertilization on yield and phosphorus uptake in wheat-rice rotation. Journal of Agricultural Research 44(2), 105-113.

Silwana TT, Lucas EO, Olaniyan AB. 2007. The effects of inorganic and organic fertilizers on the growth and development of component crops in maize/bean intercrop in Eastern Cape of South Africa. Journal of Food Agriculture and Environment 5, 267-272.

Schomberg HH, Ford PB, Hargrove WL. 1994. Influence of crop residues on nutrient cycling and chemical soil properties. In: Unger P.W. (Ed.), Managing Agricultural Residues. CRC Press Inc., Boca Raton, Florida, 99-123 p.

Wu M, Li G, Li W, Liu J, Liu M, Jiang C, Li Z. 2017. Nitrogen fertilizer deep placement for increased grain yield and nitrogen recovery efficiency in rice grown in subtropical China. Frontiers in Plant Science 8, 1227.

https://doi.org/10.3389/fpls.2017.01227

Wiese MV. 1993. Wheat and other small grains. In Nutrient Deficiencies and Toxicities in Crop Plants. St. Paul, MN. APS Press, 202 p.

Wilhelm WW, Doranand JW, Power JF. 1986. Corn and soybean yield response to crop residue management under no-till production systems. Agronomy Journal 78, 184-189.

https://doi.org/10.2134/agronj1986.00021962007800010036x

Yongqing MA. 2005. Allelopathic studies of common wheat (Triticum aestivum L.). Weed Biology and Management 5(3), 93-104.

https://doi.org/10.1111/j.1445-6664.2005.00164.x

Md. Ilias Hossain, Md. Israil Hossain, Md. Bodruzzaman, Md. Nur-E-Alam Siddquie, Md. Moksadul Amin, Md. Shahidul Haque.
Effect of fertilizer placement for different tillage options on the growth and yield of wheat.
Int. J. Agron. Agri. Res. 12(2), 15-23, February 2018.
https://innspub.net/ijaar/effect-fertilizer-placement-different-tillage-options-growth-yield-wheat/
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