WHEAT RESPONSE TO N APPLICATION METHOD UNDER SOME IRRIGATION SYSTEMS AT NORTH DELTA

Gazia, E. A. E.; Abd EL Aziz, M. A.

doi:10.21608/jssae.2013.52071

	WHEAT RESPONSE TO N APPLICATION METHOD UNDER SOME IRRIGATION SYSTEMS AT NORTH DELTA
Journal of Soil Sciences and Agricultural Engineering
Article 4, Volume 4, Issue 8, August 2013, Page 707-717 PDF (378.95 K)
Document Type: Original Article
DOI: 10.21608/jssae.2013.52071
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Authors
E. A. E. Gazia; M. A. Abd EL Aziz
Soil, Water & Environment Res. Inst., Agric. Res. Centre ,Giza , Egypt
Abstract
A Field experiment was conducted during 2011 - 2012 cultivation season at Sakha Agricultural Research Station Farm, Kafr El-Sheikh Governorate to evaluate the effect of some irrigation systems (surface irrigation "I₁", semiportable sprinkler "I₂", minisprinkler "I₃", floppy sprinkler "I₄", surface drip "I₅" and sub-surface drip "I₆" and N application methods (100 % fertigation "N₁", 75 % fertigation + 25% soil application "N₂", 50 % fertigation + 50% soil application "N₃", 25 % fertigation + 75% soil application "N₄" and 100 % soil application "N₅") on wheat (var. Sakha 93) yield, N uptake, N use efficiency and soil available N remained after harvesting. The main results could be summarized as follows: 1- Surface irrigation system (I₁) and N₁ treatment achieved the highest values of wheat grain and straw yields, while the lowest values were recorded with subsurface drip irrigation system and N₄ treatment. 2- I₁ and N₂ treatment gave the highest 1000 kernel weight, while I₆ and N₄ treatment gave the lowest value. 3- The highest values of N uptake, and N use efficiency were recorded with I₁and N₁, while, the lowest values were achieved under I₆ and N₅. The opposite trend was observed with available nitrogen remained in soil after wheat harvest. This means surface irrigation and N fertigation increase the ability of wheat plants to N uptake from the soil and consequently increase yield. 4- The response of wheat grain yield to N application method under surface drip irrigation could be expressed by equations 1 and 2 as follow:- Y_{Soil app} = 3107.4 (N soil app.) + 56.1 (R² = 0.9973), (1) Y_fert = 2756.2 (N fert.) + 31.7 (R² = 0.9991), (2) While, equations 3 and 4 summarized the response of grain yield to different N treatments under sub-surface drip irrigation as follow:- Y_fert = 2478.1 (N fert.) - 33.298 (R² = 0.9992), (3) Y_{Soil app} = 2064.3 (N soil app.) + 70.15 (R² = 0.9913 ), (4) Where: Y_{Soil app}= the estimated wheat grain yield (kg fed^-1) according to the contribution ratio of N soil application. Y_fert = the estimated wheat grain yield (kg fed^-1) according to the contribution ratio N fertigation method. N soil app.= N soil application ratio (%). N fert = N fertigation ratio (%). From equation 1, 2, 3 and 4 it could be concluded that nitrogen fertilizer is preferable to add as soil application with surface drip irrigation, while N fertigation method has to be used with sub-surface drip irrigation.
Keywords
wheat grain yield; surface drip; sub-surface drip irrigation; N soil application and N fertigation


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