The effects of saline water application on yield and water productivity of red bean in vegetative and reproductive growth stages

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Article Type:
Research/Original Article (دارای رتبه معتبر)
Abstract:

Water is the source of life and one of the important resources for the sustainable development of countries. Population growth and consequently the need for more agricultural commodities and food products and on the other hand, the limitation of water resources, have led human beings to the optimal use of available water resources and the use of low-quality water (Dehghan et al. 2015). To make more efficient use of limited water resources in the agricultural sector, new strategies such as the use of unconventional and saline water in irrigation operations should be considered (Mardani Nejad et al. 2017). Knowing how plants respond to different degrees of salinity of irrigation water, which is used in different stages of vegetative and reproductive growth, is necessary for proper and optimal management of the use of unconventional water resources in agriculture. Beans are one of the most important crops in terms of high protein content and use in the diet. This plant is one of the annual legumes and is sensitive to water salinity, which is cultivated for seed production (Salehi, 2015b). Bean is one of the plants sensitive to salinity and tolerates salinity up to 2 dS/m, but its yield reduction starts from 0.8 dS/m (Kamel et al. 2016).This experiment was carried out to compare the effects of saline water application in vegetative and reproductive growth stage for irrigation of Derakhshan red bean cultivar, which is suitable for Shahrekord climatic conditions. Experiments of this pot study in open space, were performed in factorial form in a completely randomized design, with three replications in pots with a diameter of 40 and a height of 70 cm in the research farm of Shahrekord University with UTM coordinates (Zone = 39), X = 482573 m and Y = 3579364 m and altitude of 2070 m above sea level. The first factor of the experiment was the use of saline water at the mentioned three levels for irrigation in the vegetative growth stage and the second factor was the use of the same salinity levels for irrigation of reproductive growth stage. The data collected included yield, yield components and water productivity.The results of analysis of variance showed that salinity stress in the vegetative and reproductive growth stage of bean plant significantly reduces yield, yield components, water uptake, water productivity and biological productivity index (α <0.01). Harvest index was not affected by salinity stress at vegetative growth stage, while the effect of salinity stress at reproductive growth stage on harvest index was significant (α <0.01). The highest value of water productivity was achieved in the control treatment with a rate of 0.67 kg/m3; the lowest value of 0.39 kg/m3 was observed in the treatment of applying 2 dS/m saline water in two stages of vegetative and reproductive growth. Regardless of salinity level, the mean effects of salinity in vegetative growth stage led to the productivity of 0.64 kg/m3 and in reproductive growth stage led to the productivity of 0.59 kg/m3. The results also showed that the highest yield (3349 kg/ha) was related to the control treatment and the lowest yield with rate of 1779 kg/ha was related to the treatment of applying 2 dS/m saline water in two stages of vegetative and reproductive growth. Regardless of the salinity level, the mean effects of salinity led to the production of 3067 and 2892 kg / ha grain yield in the vegetative and reproductive growth stage, respectively. The highest amount of water uptake was observed in the control treatment with the rate of 10 mm/day and the lowest amount of 9 mm/day without significant difference in the treatment with a salinity of 2 dS/m in the whole growth period and the treatment of 2 dS/m in the vegetative growth period And 1.5 dS/m was observed during reproductive growth.The results of this experiment, like the results of Ben Usher et al., 2006, showed that increasing salinity during the vegetative growth period of the plant reduces the storage content of plant organs, which affects the yield and its components at the end of the period. On the other hand, the application of salinity stress during reproductive growth period has a direct negative effect on yield and its indicators. These effects will be exacerbated when salinity stress is applied simultaneously during the vegetative and reproductive growth stages. The effects of salinity stress on grain yield and water productivity were more significant in the reproductive growth stage. The result is that in conditions of limited water quality, in order to achieve higher yield and optimal use of water, water with suitable quality should be used in the reproductive growth stage, and saline water could be used in the vegetative growth stage.

Language:
Persian
Published:
Iranian Water Research Journal, Volume:15 Issue: 43, 2022
Pages:
97 to 105
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