Samir Yacoubi scite author profile

Samir Yacoubi

5Publications

50Citation Statements Received

75Citation Statements Given

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Affiliations

National Research Institute of Rural Engineering, Water and Forests, University of Carthage

Publications

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Assessing alternate furrow strategies for potato at the Cherfech irrigation district of Tunisia

Slatni

Zayani

Zaı̈ri

et al. 2011

Biosystems Engineering

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6Irrigated agriculture faces intense competition for water in Mediterranean environments. In 7 this paper, alternate furrow irrigation was explored for a potato crop in the conditions of the 8Cherfech irrigation district, located in the Medjerda project of northern Tunisia. A field 9 experiment was performed involving seven furrow irrigations in three irrigation treatments: 10 alternate furrow irrigation (AFI), fixed furrow irrigation (FFI), and continuous furrow 11 irrigation (CFI). Crop yield and water productivity were determined in all treatments. The 12 experiment involved detailed irrigation evaluation and soil water measurements in the first 13 three irrigation events. Soil infiltration (estimated with a surface irrigation model) was larger 14 for CFI than for AFI or FFI. This finding was confirmed by the average irrigation depths, 15

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Assessing Sprinkler Irrigation Performance Using Field Evaluations at the Medjerda Lower Valley of Tunisia

Yacoubi¹,

Zayani²,

Slatni³

et al. 2012

ENG

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Irrigation uniformity and wind drift and evaporation losses (WDEL) are major concerns for the design and management of sprinkler irrigation systems under arid or semi-arid conditions. Field trials were carried out to assess irrigation uniformity and WDEL under various wind velocities, sprinkler spacings and operating pressure heads. Based on experimental data, a frequency analysis was performed to infer the occurrence probability of a given uniformity coefficient (UC). In addition, statistical regressions were used to model WDEL as a function of different climatic variables. Increasing the operating pressure head improved uniformity at low wind speeds. It was shown that UC has been severely impaired at wind speeds above 4 m/s. In the prevailing wind conditions, the frequency analysis showed that a sprinkler spacing of 12 m × 12 m provided the best uniformity. In the local conditions, it is recommended to stop irrigation when wind velocity exceeds 4 m/s. Moreover, it was shown that wind speed and relative humidity were the main significant variables influencing WDEL.

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Day and night time sprinkler irrigated tomato: Irrigation performance and crop yield

Yacoubi

Zayani²,

Zapata

et al. 2010

Biosystems Engineering

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The effect of day time vs. night time sprinkler irrigation on irrigation performance and tomato crop yield is assessed in this paper for the conditions of Tunisia. Field experiments were performed at the experimental station of Cherfech under two rectangular sprinkler spacings: 24 x 18 m and 18 x 18 m, denoted as plots M 1 and M 2 , respectively. Results of performance evaluations indicate a relevant effect of climatic and operation conditions on

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Improvement of water and energy use in sprinkler irrigation under semi-arid conditions

Yacoubi¹,

Slatni²,

Chebil³

et al. 2020

DWT

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Effect of Surface and Subsurface Drip Irrigation with Treated Wastewater on Soil and Water Productivity of Okra (Abemoschus esculentus) Crop in Semi-Arid Region of Tunisia

et al. 2022

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Under semi-arid conditions, irrigated agriculture faces hard competition for water. It is against this backdrop that appropriate management of irrigation techniques and water resources becomes a major concern. This study investigated the effect of surface (SDI) and subsurface drip irrigation (SSDI) with domestic treated wastewater (TWW) and fresh water (FW) on soil water dynamics, salinity, yield, and mineral nutrition of okra. The experimental design was set-up based on two adjacent plots according to the water quality: Fresh Water (FW) T1 and domestic Treated Wastewater (TWW) T2. Results showed that measured soil water contents (SWCs), under TWW treatment (T2), were greater than their corresponding measurements under FW (T1), and in particular at 35 cm depth. Meanwhile, for both water qualities, soil Electrical Conductivity (EC) registered at 5 cm depth was higher than those measured at 35 cm, with values ranging from 0.14 to 0.36 mS·cm−1 and from 0.20 to 0.47 mS·cm−m for T1 and T2, respectively. Regarding crop yield, a statistically significant increase (p = 0.05) in okra fresh yield was observed when TWW was used. Fresh yield in SDI was 2.55 t·ha−1 and 3.9 t·ha−1 in T1 and T2, respectively. Nevertheless, results indicated that lateral depth did not significantly affect okra fresh yield. Moreover, a significant higher irrigation water productivity (WPirrig) with TWW (1.08 ± 0.26 and 1.23 ± 0.18 kg m−1) was observed, which was nearly double those obtained with FW (0.72 ± 0.33 to 0.78 ± 0.18 kg m−1). Appropriate use of SSDI with TWW stands as an irrigation management technique to improve yield and irrigation water productivity of okra crops.

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Samir Yacoubi

Assessing alternate furrow strategies for potato at the Cherfech irrigation district of Tunisia

Assessing Sprinkler Irrigation Performance Using Field Evaluations at the Medjerda Lower Valley of Tunisia

Day and night time sprinkler irrigated tomato: Irrigation performance and crop yield

Improvement of water and energy use in sprinkler irrigation under semi-arid conditions

Effect of Surface and Subsurface Drip Irrigation with Treated Wastewater on Soil and Water Productivity of Okra (Abemoschus esculentus) Crop in Semi-Arid Region of Tunisia

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