The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids
Current experiment was conducted to investigate the effects of foliar application of different nutrients (control, nano-chelated Fe, nano-chelated Zn, nano-TiO2, nano-Si) on seed yield and morpho-physiological characteristics of oilseed rape cultivars (Hydromel, Neptune, Nathalie, Danube, Alonso). T...
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Format: | Article |
Language: | English |
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Sciendo
2018-08-01
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Series: | Agriculture |
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Online Access: | https://doi.org/10.2478/agri-2018-0012 |
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author | Kheyrkhah Mohsen Janmohammadi Mohsen Abbasi Amin Sabaghnia Naser |
author_facet | Kheyrkhah Mohsen Janmohammadi Mohsen Abbasi Amin Sabaghnia Naser |
author_sort | Kheyrkhah Mohsen |
collection | DOAJ |
description | Current experiment was conducted to investigate the effects of foliar application of different nutrients (control, nano-chelated Fe, nano-chelated Zn, nano-TiO2, nano-Si) on seed yield and morpho-physiological characteristics of oilseed rape cultivars (Hydromel, Neptune, Nathalie, Danube, Alonso). The highest pod numbers was achieved by foliar application of Zn and nano-SiO2 in cv. Hydromel and Neptune. The heaviest seeds were recorded for plants treated with nano-SiO2. The highest seed yield was recorded for cv. Hydromel and Neptune treated with Fe and nano-TiO2. The highest indole acetic acid was recorded in cv. Hydromel treated with Zn and nano-SiO2. The evaluation of plant pigments revealed that foliar application of nano-SiO2 and TiO2 significantly increased the concentration of carotenoids and Chlorophyll a, b. Overall, the results indicate that cultivating the high yielding hybrids (Hydromel, Neptune, Nathalie) along with the application of iron, SiO2 and TiO2 nano-particles can greatly improve plant performance |
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institution | Directory Open Access Journal |
issn | 1338-4376 |
language | English |
last_indexed | 2024-04-11T16:00:01Z |
publishDate | 2018-08-01 |
publisher | Sciendo |
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series | Agriculture |
spelling | doaj.art-3362ebf850654c49a953caa1d89021872022-12-22T04:15:02ZengSciendoAgriculture1338-43762018-08-0164311612710.2478/agri-2018-0012agri-2018-0012The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape HybridsKheyrkhah Mohsen0Janmohammadi Mohsen1Abbasi Amin2Sabaghnia Naser3University of Maragheh,Maragheh, IranUniversity of Maragheh,Maragheh, IranUniversity of Maragheh,Maragheh, IranUniversity of Maragheh,Maragheh, IranCurrent experiment was conducted to investigate the effects of foliar application of different nutrients (control, nano-chelated Fe, nano-chelated Zn, nano-TiO2, nano-Si) on seed yield and morpho-physiological characteristics of oilseed rape cultivars (Hydromel, Neptune, Nathalie, Danube, Alonso). The highest pod numbers was achieved by foliar application of Zn and nano-SiO2 in cv. Hydromel and Neptune. The heaviest seeds were recorded for plants treated with nano-SiO2. The highest seed yield was recorded for cv. Hydromel and Neptune treated with Fe and nano-TiO2. The highest indole acetic acid was recorded in cv. Hydromel treated with Zn and nano-SiO2. The evaluation of plant pigments revealed that foliar application of nano-SiO2 and TiO2 significantly increased the concentration of carotenoids and Chlorophyll a, b. Overall, the results indicate that cultivating the high yielding hybrids (Hydromel, Neptune, Nathalie) along with the application of iron, SiO2 and TiO2 nano-particles can greatly improve plant performancehttps://doi.org/10.2478/agri-2018-0012hybrids cultivarsironmalondialdehydenano-particleszinc |
spellingShingle | Kheyrkhah Mohsen Janmohammadi Mohsen Abbasi Amin Sabaghnia Naser The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids Agriculture hybrids cultivars iron malondialdehyde nano-particles zinc |
title | The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids |
title_full | The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids |
title_fullStr | The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids |
title_full_unstemmed | The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids |
title_short | The Effects of Micronutrients (Fe And Zn) and Beneficial Nano-Scaled Elements (Si And Ti) on Some Morphophysiological Characteristics of Oilseed Rape Hybrids |
title_sort | effects of micronutrients fe and zn and beneficial nano scaled elements si and ti on some morphophysiological characteristics of oilseed rape hybrids |
topic | hybrids cultivars iron malondialdehyde nano-particles zinc |
url | https://doi.org/10.2478/agri-2018-0012 |
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