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Effects of irrigation systems and water stress with low water and soil quality on quinoa yield in arid conditions [electronic resource].

By:

Mostafa, H

Contributor(s):

Farag, A

Language: English Summary language: Arabic Description: p. 15 – 26Other title:

تأثير أنظمة الري والإجهاد المائي مع انخفاض جودة المياه والتربة على محصول الكينوا في الظروف الجافة [Added title page title]

Uniform titles:

Misr journal of agricultural engineering, 2021 v.38 (1) [electronic resource].

Subject(s):

Online resources:

Full Text Article

In: Misr Journal of Agricultural Engineering 2021.v.38(1)Summary: Due to the water scarcity in the recent period in dry areas, as is the case in Egypt, so some means have to be used to save water as the use of irrigation systems under water stress, the use of low-quality water, as well as plants that tolerate these conditions. Two field experiments were conducted on a clayey soil with low quality (3.1 dSm-1) in southern Nile Delta of Egypt for evaluating the influence of low quality soil and water on quinoa productivity (initial experiment) and the effects of surface drip (SDI) and subsurface drip (SSDI) irrigation methods with three irrigation regimes (100%, 80% and 60% of irrigation requirements) and humic acid (0 and 50 mgl-1) on soil moisture and salinity, yield and water use efficiency of quinoa (main experiment). The initial experiment was done on pots to measure the effect of water quality (fresh water (0.45 dSm-1), ground water (2.8 dSm-1) and saline water (5 and 7 dSm-1)) on productivity. Regarding to results, the yield was significantly decreased by using saline water (5 and 7 dSm-1), while there were no differences between fresh and ground water. The results of the main experiment indicate that using ground water to irrigate quinoa with SSDI, 80% water stress and 50 mgl-1 humic acid improved soil salinity, pH and moisture content. These favorable conditions of the improved soil reflected on the vegetative growth parameters of quinoa and showed significant increases in seed yield (4.17 Mg ha-1) and water productivity (3.78 kg m-3). Keywords: Ground water, soil salinity, water stress, productivity.

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Previous	ART MJAE V34 No2 30 Improving biogas production from organic and agricultural wastes using wastewater and starter slurry /	ART MJAE V34 No2 31 Some physical properties of rice straw briqeuttes /	ART MJAE V34 No11 A study on mechanization of aeration in turfgrass	ART MJAE V38 No1 2 Effects of irrigation systems and water stress with low water and soil quality on quinoa yield in arid conditions \| [electronic resource].	ART MJAE V39 NO1 5 Effect of fertilization with surge flow technique on application efficiency, water productivity, yield and irrigation cost of maize crop (Zea Mays L.) \| [electronic resource]	ART MJAR V38 NO3 P2 4 Effect of biofertilizers application on the growth and yield of Hibiscus sabdariffa L. plant	ART MJPPD V5 June 2 Effect of irrigation with magnetic water on vegetative growth, chemical contents and essential oil in rosemary grown in different levels of salinity \| [electronic resource].	Next

Includes bibliographic reference.

Due to the water scarcity in the recent period in dry areas, as is the case in Egypt, so some means have to be used to save water
as the use of irrigation systems under water stress, the use of low-quality water, as well as plants that tolerate these conditions.
Two field experiments were conducted on a clayey soil with low quality (3.1 dSm-1) in southern Nile Delta of Egypt for evaluating the
influence of low quality soil and water on quinoa productivity (initial experiment) and the effects of surface drip (SDI) and subsurface
drip (SSDI) irrigation methods with three irrigation regimes (100%, 80% and 60% of irrigation requirements) and humic acid (0 and 50 mgl-1)
on soil moisture and salinity, yield and water use efficiency of quinoa (main experiment). The initial experiment was done on pots to measure
the effect of water quality (fresh water (0.45 dSm-1), ground water (2.8 dSm-1) and saline water (5 and 7 dSm-1)) on productivity.
Regarding to results, the yield was significantly decreased by using saline water (5 and 7 dSm-1), while there were no differences
between fresh and ground water. The results of the main experiment indicate that using ground water to irrigate quinoa with SSDI,
80% water stress and 50 mgl-1 humic acid improved soil salinity, pH and moisture content. These favorable conditions of the improved
soil reflected on the vegetative growth parameters of quinoa and showed significant increases in seed yield (4.17 Mg ha-1) and water
productivity (3.78 kg m-3).
Keywords: Ground water, soil salinity, water stress, productivity.

Summary in Arabic.

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