Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.)
El-Shazoly, R. (2019). Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.). EKB Journal Management System, 18(1), 125-137. doi: 10.21608/cat.2019.28622
Rasha M. El-Shazoly. "Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.)". EKB Journal Management System, 18, 1, 2019, 125-137. doi: 10.21608/cat.2019.28622
El-Shazoly, R. (2019). 'Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.)', EKB Journal Management System, 18(1), pp. 125-137. doi: 10.21608/cat.2019.28622
El-Shazoly, R. Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.). EKB Journal Management System, 2019; 18(1): 125-137. doi: 10.21608/cat.2019.28622

Ameliorating Effect of Silicon on Growth Vigor, Physiological and biochemical Traits of Salinized Canola Seedlings (Brassica napus L.)

Catrina: The International Journal of Environmental Sciences
Article 13, Volume 18, Issue 1, March 2019, Page 125-137  XML PDF (756.19 K)
Document Type: Original Article
DOI: 10.21608/cat.2019.28622
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Author
Rasha M. El-Shazoly email
Botany and Microbiology Department, Faculty of Science, New Valley University, 72511, Al-Kharja, New Valley, Egypt
Abstract
In the present study the ameliorating effects of Si nutrition supplied as 1 mmol L−1 sodium silicate were proved on the seedling growth of canola (Brassica napus L.) seedlings under salinity stress (i.e. 0, 30, 60, 90 and 120 mmol L−1sodium chloride). Salinity obviously disrupted cellular homeostasis, something was evident in the decreased percent of scavenging HO-free radical and Metal chelating %, and hence reduction in photosynthetic pigments contents (chl.a and carotenoids). Silicon nutrition, however, enabled canola cells to balance between the steady-state levels of different ROS through improving the detoxification of the excess ROS. This was prevalent in higher scavenging percent of HO- and metal chelating. In addition, Si maintained membranes integrity through improved levels of lipid peroxidation inhibition %. Si buffered oxidative stress through sustaining the enzymatic and non-enzymatic scavenging capacity of reactive oxygen species in salt-stressed plants. Enzymatic antioxidants such as (CAT, SOD, APX, and POS) activities as well as non-enzymatic antioxidants such as carotenoids contents phenolics contents increased at 120 mmol L−1 sodium chloride. Thus, silicon nutrition alleviated the deleterious effects of salinity on the growth of canola plants through increased reactive oxygen species scavenging capacity (enzymatically and non-enzymatically), maintaining the membrane integrity of seedling cells as evidenced by raising the reducing power contents, sustained higher levels of chlorophyll. Consequently, enhance seedlings growth observations.
Keywords
salinity; silicon; Antioxidant enzymes; lipid peroxidation inhibition%; HO radical scavenging %; metal chelating %
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