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Journal of Plant Nutrition Volume 27, 2005 - Issue 12
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Original Articles

Influence of Silicon Supply on Chlorophyll Content, Chlorophyll Fluorescence, and Antioxidative Enzyme Activities in Tomato Plants Under Salt Stress

Khalid Al-aghabary KeyLab of Horticultural Plant Growth Development and Biotechnology, Ministry of Agriculture, Hangzhou, P.R. China
,
Zhujun Zhu Department of Horticulture, College of Agriculture and Biotechnology, Zhejiang University, Huajiachi Campus, Hangzhou, P.R. ChinaCorrespondence[email protected]
&
Qinhua Shi KeyLab of Horticultural Plant Growth Development and Biotechnology, Ministry of Agriculture, Hangzhou, P.R. China
Pages 2101-2115 | Published online: 14 Feb 2007
 
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Abstract

The influence of silicon (Si) (2.5 mM), sodium chloride (NaCl) (100 mM), and Si (2.5 mM) + NaCl (97.5 mM) supply on chlorophyll content, chlorophyll fluorescence, the concentration of malondialdehyde (MDA), H2O2 level, and activities of superoxide dismutase (SOD; E.C.1.15.1.1.), ascorbate peroxidase (APx; E.C.1.11.1.11.), catalase (CAT; E.C.1.11.1.6.), guaiacol peroxidase (G-POD; E.C.1.11.1.7.) enzymes, and protein content were studied in tomato (Lycopersicon esculentum Mill c.v.) leaves over 10-day and 27-day periods. The results indicated that silicon partially offset the negative impacts of NaCl stress with increased the tolerance of tomato plants to NaCl salinity by raising SOD and CAT activities, chlorophyll content, and photochemical efficiency of PSII. Salt stress decreased SOD and CAT activities and soluble protein content in the leaves. However, addition of silicon to the nutrient solution enhanced SOD and CAT activities and protein content in tomato leaves under salt stress. In contrast, salt stress slightly promoted APx activity and considerably increased H2O2 level and MDA concentration and Si addition slightly decreased APx activity and significantly reduced H2O2 level and MDA concentration in the leaves of salt-treated plants. G-POD activity was slightly decreased by addition of salt and Si. Enhanced activities of SOD and CAT by Si addition may protect the plant tissues from oxidative damage induced by salt, thus mitigating salt toxicity and improving the growth of tomato plants. These results confirm that the scavenging system forms the primary defense line in protecting oxidative damage under stress in crop plants.

Acknowledgments

Financial support was provided by National Natural Science Foundation of China (No. 30230250) and Natural Science Foundation of Zhejiang Province (No. 300257). The authors would like to express our thanks to Dr. Raddy for correction of the English text.

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