Mady, A. (2009). INCREASING THE PRODUCTIVITY AND WATER USE EFFICIENCY OF APPLE TREES AS AFFECTED BY DRIP IRRIGATION AND MULCHING IN NEW RECLAIMED SOILS. Journal of Soil Sciences and Agricultural Engineering, 34(6), 7273-7287. doi: 10.21608/jssae.2009.103822
A.A. Mady. "INCREASING THE PRODUCTIVITY AND WATER USE EFFICIENCY OF APPLE TREES AS AFFECTED BY DRIP IRRIGATION AND MULCHING IN NEW RECLAIMED SOILS". Journal of Soil Sciences and Agricultural Engineering, 34, 6, 2009, 7273-7287. doi: 10.21608/jssae.2009.103822
Mady, A. (2009). 'INCREASING THE PRODUCTIVITY AND WATER USE EFFICIENCY OF APPLE TREES AS AFFECTED BY DRIP IRRIGATION AND MULCHING IN NEW RECLAIMED SOILS', Journal of Soil Sciences and Agricultural Engineering, 34(6), pp. 7273-7287. doi: 10.21608/jssae.2009.103822
Mady, A. INCREASING THE PRODUCTIVITY AND WATER USE EFFICIENCY OF APPLE TREES AS AFFECTED BY DRIP IRRIGATION AND MULCHING IN NEW RECLAIMED SOILS. Journal of Soil Sciences and Agricultural Engineering, 2009; 34(6): 7273-7287. doi: 10.21608/jssae.2009.103822
INCREASING THE PRODUCTIVITY AND WATER USE EFFICIENCY OF APPLE TREES AS AFFECTED BY DRIP IRRIGATION AND MULCHING IN NEW RECLAIMED SOILS
Water Management and Irrigation System Research Institute, National Water Research Center, Cairo Egypt
Abstract
Two field experiments were conduced during 2003 and 2004 seasons to study the effect of three irrigation rates of 13.584, 10.188 and 6.792 m3/tree/year (I1, I2 and I3) and two mulching types viz, black polethylene and dry cut grass, (M1, M2, M0) comparing to bare soil respectively as well as their interactions on production, fruit quality, water consumptive use (WCU), crop coefficient (Kc) and water use efficiency (WUE) of anna apple trees bedded on Malus rootstock and grown in loamy sand soil at El-Bostan region, El-Beheira governorate. Reduced drip irrigation regime from 13.584 to 6.792 m3/tree/year significantly decreased fruit yield associated with decreasing fruit set and increasing preharvest fruit drop, and also decreasing average fruit weight length, diameter, total soluble solids (TSS%), water consumptive use and crop coefficient (Kc) values. The highest values always belonged to I1 and I2 rates in both seasons. While, the highest values of fruit firmness, water use efficiency (WUE) kg/m3 were obtained with the deficit (I3) and moderate (I2) irrigation regimes without significant difference between them. Meanwhile, total acidity was not affected by the tested irrigation regimes.
Soil mulching with dry cut grass or black P.E produced maximum yield with good physical and chemical properties, it also decreased monthly and seasonal water consumptive use and Kc values but, increased water use efficiency (WUE). The interaction (I x M) was usually significant which obtained the highest productivity, best quality, highest water use efficiency and less water consumptive use values were recorded with (I2 x black P.E) and (I2 x cut grass) combination treatments in the two seasons of study.
Thus, this study recommends "Anna" apple growers to use moderate irrigation rate I2 (10.188 m3/tree/year) under dry cut grass mulching in (I2 x cut grass) combination treatment which considered the best one for obtaining maximum yield with a good quality. This treatment also reduced water consumptive use and increased water use efficiency (WUE).
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