Ahmed Abed Gatea Al-Shammary scite author profile

The soil tillage system can notably influence soil solarization system under dry land farming in semiarid areas. Field experiments were conducted from 6/6/2013 to 1/9/2013, to evaluate the effects of soil tillage system, soil solarization system and fertilizer type on soil temperature at three depths as well as influence at gap between the mulch and soil surface. The experiment included three experimental factors. The first factor, soil tillage systems (moldboard plowing followed by spring disking {MP}, Rotary plough {RP}), the second factor represent the soil mulching systems in three levels (transparent mulch, black mulch and without mulch {control}), the third factor includes three fertilizers types (compose fertilizer; in compose fertilizer and chemical fertilizer). The results showed that the experimental factors effects on soil temperature, when used soil tillage system (MP), the higher soil temperature recorded at 10 cm depth ,its value 70 o C ( time 11 am) when mean solar radiation 1146 w/m 2 in soil transparent mulching system and chemical fertilizer, as well as for treatment soil black mulch and compose fertilizer, but the lower soil temperature recorded at 30 cm depth, its value 35.8 o C (time 1 pm) when mean solar radiation 1147 w/m 2 in soil transparent mulch and chemical fertilizer treatment. The highest soil temperature recorded at 10 cm depth, when used soil tillage system (RP), its value 78.3 o C (time 11 am) when mean solar radiation 1125 w/m 2 in soil black mulch and chemical fertilizer, but the low soil temperature recorded at 30 cm depth, its value 41 o C (time 3 pm) when mean solar radiation 900 w/m 2 in soil transparent mulch and compose fertilizer treatment. Moreover, the results showed the maximum temperature at gap between the mulch and the soil surface occurs at noon. Addition the obtained results demonstrated that all soil mulching system raised soil temperature substantially compared with without mulched.

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Experimental Investigation of Thermo-Physical Properties of Soil Using Solarisation Technology

Al-Shammary¹,

Kouzani

Kaynak

et al. 2017

American Journal of Applied Sciences

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Soil Thermo-Physical Properties (TPP) depend on heat transfer in the soil. This paper presents a study on different soil solarisation technologies influenced by soil TPP. This study evaluates three factors: The tillage depth for soil at three levels (15, 25 and 45 cm), the number of plastic film at three levels (single, double and without plastic film) and three cases of fertilizers (chemical fertilizer, organic fertilizer and without fertilizer). The parameters explored in this study include soil bulk density (Mg/cm 3 ), soil porosity (%), soil volumetric moisture content (cm 3 /cm 3 ) and soil thermal diffusivity (m 2 /sec). Data management and analysis were performed using SAS 9.1 statistical software and the spilt-plot under higher values for Φ and θ for soil (52.70% and 0.231 cm 3 /cm 3 , respectively). Furthermore, the current study shows significant differences between the types of fertilizers on ρ b . Organic Fertilizer (OF) obtained a lower value of ρ b (1.2 Mg/m 3 ), compared with chemical fertilizer and without fertilizer (1.28 and 1.31 Mg/m 3 , respectively). In contrast, contrary to expectations, this study did not find significant differences between the types of fertilizer on D and θ for soil. A positive correlation was found in the interaction between the studied factors in the parameters. Furthermore, D increased with increasing soil bulk density (pb) and tillage depth.

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Evaluation of a novel electromechanical system for measuring soil bulk density

Al-Shammary

Kouzani

Saeed

et al. 2019

Biosystems Engineering

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