Faezeh Heidari; Jalal Jalilian; esmaeil gholinezhad
Abstract
Objective: Regarding the importance of nutritional management in saline conditions and the need to investigate the nutritional aspects of the new quinoa crop, this research was conducted with the aim of investigating the effect of different levels of salinity stress and different nano fertilizers on ...
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Objective: Regarding the importance of nutritional management in saline conditions and the need to investigate the nutritional aspects of the new quinoa crop, this research was conducted with the aim of investigating the effect of different levels of salinity stress and different nano fertilizers on the morphological characteristics and quantitative and qualitative characteristics of quinoa forage.
Methods: This experiment was conducted on factorial experimental based on a completely randomized design with three replications in the research field of Urmia University during 2017-2018. The first factor was salinity stress with water of Lake Urmia at three levels (0, 16, 32 dS m-1) and the second factor was nano-fertilizer at five levels (potassium, zinc calcium, silica, and no foliar application (control)).
Results: The results showed that the highest and lowest values of plant height, leaf dry weight and inflorescence dry weight were obtained from the treatment without salinity stress and salinity stress at 32 dS m-1, respectively. Salinity stress at 32 and 16 ds/m, compared to the control, increased crude protein (5% and 3%), soluble carbohydrates (15% and 14%), acid detergent fiber (23% and 7%), neutral detergent fiber (20% and 5%) and crude fiber (10% and 5%), respectively, while it reduced the total ash (27% and 17%) and dry matter digestibility (22% and 8%). Also, foliar application of nano-fertilizers improved forage quality traits such as crude protein, total ash, dry matter digestibility and soluble carbohydrate content and unfavorable qualitative traits such as neutral detergent fiber, acid detergent fiber and crude fiber decreased.
Conclusion: Therefore, in order to improve the growth, increase the quality of quinoa forage, and reduce the effects of salinity stress, foliar application with various nano-fertilizers, especially calcium nano-fertilizer, is highly recommended.
Faezeh Heidari; Jalal Jalilian; esmaeil gholinezhad
Abstract
This experiment was conducted to investigate the effect of foliar application different nano-fertilizers on modulating negativeeffectsof salt stress on quinoa, in factorial experiment based on completely randomized design with three replications in the research farm of Urmia University in the pot during ...
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This experiment was conducted to investigate the effect of foliar application different nano-fertilizers on modulating negativeeffectsof salt stress on quinoa, in factorial experiment based on completely randomized design with three replications in the research farm of Urmia University in the pot during 2018. The first factor was salinity of irrigation water using (Lake Urmia water at three levels: 0, 16 and 32 dS/m and the second factor was nano-fertilizers at five levels: calcium, silicon, zinc, potassium and control (no foliar application). The results showed that salinity stress caused negative effects on all traits affecting quinoa growth. The highest decrease in traits was observed in salinity stress of 32 dS/m. Salinity stress of 32 and 16 dS/m compared to control decreased plant height (20 and 17%), inflorescence number (48 and 36%), root volume (44 and 40%), main root length (41 and 23%), root dry weight (68 and 30%), relative leaf water content (26 and 13%), chlorophyll index (15 and 7%) and 1000-seed weight (31 and 23%), respectively; but increased ionic leakage by 14 and 6%, respectively. Foliar application with nano-fertilizer compared to control increased the yield, yield components and morphological traits. The highest seed yield was obtained under optimum conditions and severe salinity stress (32 dS/m) by foliar application with nano-fertilizer of zinc and silicon, respectively. Under severe salinity stress, foliar application with nano-fertilizer of silicon compared to non-foliar application increased the dry weight of inflorescences, total dry weight and seed yield by 35%, 16% and 43%, respectively, and moderated the effects of salinity stress. Foliar application with nano-fertilizer via enhancing chlorophyll index, relative leaf water content and improving root characteristics, led to increase yield and seed yield components of quinoa. Therefore, it seems that foliar application of nano-fertilizers is suitable to improve the yield of quinoa especially in salinity stress conditions.