Khaled Y. Bashabsheh scite author profile

Khaled Y. Bashabsheh

2Publications

13Citation Statements Received

47Citation Statements Given

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Affiliations

National Energy Research Center, Jordan University of Science and Technology, Agricultural Research Center

Publications

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Treated wastewater outperformed freshwater for barley irrigation in arid lands

2020

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The high demand of barley for animal feed and the scarcity of fresh water increase the need for the reuse of treated wastewater as an alternative source for irrigation. Therefore, two-field experiments were conducted to study physiological processes, plant growth, grain yield and yield components of four-barley cultivars grown under four-irrigation treatments using treated wastewater or fresh water. Plants of four-barley cultivars (ACSAD176, Rum, Athroh, Yarmouk) were exposed to four-irrigation treatments: 1) Full-irrigation using treated wastewater (FWW); 2) Supplementary-irrigation using treated wastewater (SWW); 3) Supplementary-irrigation using fresh water (SFW); 4) Non-irrigation treatment (Rainfed). Full- or supplementary-irrigation using treated wastewater reduced stomatal resistance and increased plant photosynthetic rate, plant height, grain yield and yield components as estimated by grain number plant-1 and 1000-grain weight compared with rainfed conditions. Plants grown under supplementary-irrigation using treated wastewater produced higher grain yield than those grown under supplementary-irrigation using fresh water. Rum cultivar had the highest grain yield among cultivars grown under irrigation. Under rainfed conditions, Rum and ACSAD176 had the highest grain yield. In conclusion, supplementary-irrigation using treated wastewater improved grain yield of barley and can be a better choice to conserve water and reduce the risk of plant lodging at the end of the growing season. Irrigation barley using treated wastewater did not change heavy metal (Zn, Cd, and Pb) concentrations in soil or harvested grains.

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Production of sage (Salvia officinalis L.) in a hydroponics system using brackish water at low cost*

Bashabsheh

Al-Tabbal

Hani

et al. 2021

Irrigation and Drainage

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Reuse of brackish water from desalination units in agriculture will reduce the environmental impacts resulting from disposal in the soil and groundwater, thus reflecting positively in reducing costs. The purpose of this study was to evaluate the impact of reusing brackish water from a small water desalination unit as amended to morphology and productivity of salvia plants during the three growing seasons of 2014-2016. Brackish water from desalination treatment plants was used in hydroponic systems with three concentrations (10, 25 and 50 mM). Growth parameters (number of branches per plant, plant height (cm) and herbage yield weights (g m 2 )) and ion concentration percentage in the herbage of sage (Salvia officinalis L.) during three growing seasons 2014-2016 were measured. Results revealed that lateral branches per plant, plant height and dry weight of herbage were negatively affected by brackish water and decreased by 6, 8 and 10%, respectively, compared to control. In addition, the concentration of ions in herbage decreased by 35 and 20% for nitrogen, phosphorus and potassium, respectively. We conclude from this study that irrigating sage plants using rejected water from desalination plant units leads to a decrease in morphological characteristics compared to nonsaline water, but as an economic option this type of water can be used in agriculture to reduce the environmental impacts of disposal of this water.brackish water, ion concentration, morphology, sage plants Résumé La réutilisation de l'eau saumâtre des unités de dessalement dans l'agriculture réduira les impacts environnementaux résultant de l'élimination dans le sol et les eaux souterraines, ce qui se traduira positivement sur la réduction des coûts. Le but de cette étude était d'évaluer l'impact de la réutilisation de l'eau saumâtre d'une petite unité de dessalement d'eau sur la morphologie et la productivité des plantes de salvia au cours des trois saisons de croissance de * Production de sauge (Salvia officinalis L.) dans le système hydroponique à base d'eau à faible coût.

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