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Effect of irrigation system and plants distribution on growth, yield and water use efficiency of some snap bean cultivars [electronic resource].

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Darwish, W. M. B

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Language: English Summary language: Arabic Description: p. 333 – 348Other title:

تأثيرنظام الري وتوزيع النباتات على النمو والمحصول وكفاءة استخدام المياه لبعض أصناف الفاصوليا [Added title page title]

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Misr journal of agricultural engineering, 2021 v.38 (4) [electronic resource].

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In: Misr Journal of Agricultural Engineering 2021.v.38(4)Summary: An experimental field trial was conducted at on a farm in Al-Khatatba area, Menoufia Governorate, Egypt (latitude of 30o 52/ 66// and a Longitude of 30o 38/ 11//), during the growing season of 2019 and 2020. This study aimed to assess the optimum irrigation system and plants distribution on growth, yield and water use efficiency (WUE) of some snap bean cultivars under sandy soil condition. The field trial was arranged in a split- split -plot design with two irrigation systems (drip and micro-sprinkler), two plants distribution (regular and irregular distribution) and four snap bean cultivars (Alfa, Giza 6, Alkarnak, and Nebraska). The Results showed that drip irrigation system exhibited the highest values of vegetative growth {(number of plants/ha), (number of branches/ plant), (number of leaves/plant), (number of pods/plant), (weight of the pods, Mg/ha), (weight of dry seeds, Mg/ha) and (weight of 100 dry seeds (g)}; and WUE while micro-sprinkler irrigation system produced the lowest values in the same concern during studied seasons. However, under the interaction (drip irrigation + regular distribution + Alfa cultivar) exhibited its superiority in growth parameters. While, under the interaction (micro-sprinkler irrigation + irregular distribution + Nebraska cultivar) recorded the lowest in growth parameters. In conclusion under the conditions of the experiment Alfa snap bean cultivar is recommended in cultivation (for export or local marketing) with drip irrigation at 5851 m3/ha/season and regular distribution, due to its superiority in yield/ha and (WUE). Keywords: Irrigation system; Water use efficiency; Snap bean; Yield

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Previous	ART MJAE V38 No4 2 Development of a machine for cutting sugar cane buds \| [electronic resource].	ART MJAE V38 No4 3 Manufacture of tomatoes halving prototype for natural drying process \| [electronic resource].	ART MJAE V38 No4 4 Comparative effects of raised bed and traditional flat basin on wheat yield and water productivity under Egyptian conditions \| [electronic resource].	ART MJAE V38 No4 6 Effect of irrigation system and plants distribution on growth, yield and water use efficiency of some snap bean cultivars \| [electronic resource].	ART MJAE V38 No4 7 Quality characteristics and shelf life of pepper fruits as influenced by storage conditions and pepper varieties \| [electronic resource].	ART MJAE V38 No4 8 Determination of some physical and mechanical properties of summer squash (Cucurbita Pepo) related to post-harvest processes \| [electronic resource].	ART MJAE V38 No4 9 Influence of opaque photovoltaic shading on microclimate and growth of strawberry in greenhouses \| [electronic resource].	Next

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An experimental field trial was conducted at on a farm in Al-Khatatba area, Menoufia Governorate, Egypt (latitude
of 30o 52/ 66// and a Longitude of 30o 38/ 11//), during the growing season of 2019 and 2020. This study aimed to
assess the optimum irrigation system and plants distribution on growth, yield and water use efficiency (WUE) of
some snap bean cultivars under sandy soil condition. The field trial was arranged in a split- split -plot design
with two irrigation systems (drip and micro-sprinkler), two plants distribution (regular and irregular distribution)
and four snap bean cultivars (Alfa, Giza 6, Alkarnak, and Nebraska). The Results showed that drip irrigation system
exhibited the highest values of vegetative growth {(number of plants/ha), (number of branches/ plant), (number of leaves/plant),
(number of pods/plant), (weight of the pods, Mg/ha), (weight of dry seeds, Mg/ha) and (weight of 100 dry seeds (g)}; and WUE
while micro-sprinkler irrigation system produced the lowest values in the same concern during studied seasons.
However, under the interaction (drip irrigation + regular distribution + Alfa cultivar) exhibited its superiority in growth parameters.
While, under the interaction (micro-sprinkler irrigation + irregular distribution + Nebraska cultivar) recorded the lowest in growth parameters.
In conclusion under the conditions of the experiment Alfa snap bean cultivar is recommended in cultivation (for export or local marketing)
with drip irrigation at 5851 m3/ha/season and regular distribution, due to its superiority in yield/ha and (WUE).
Keywords: Irrigation system; Water use efficiency; Snap bean; Yield

Summary in Arabic.

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