Changes of growth, photosynthesis and alteration of leaf antioxidative defence system of tea [Camellia sinensis (L.) O. Kuntze] seedlings under aluminum stress
Autor: | Parthadeb Ghosh, Akan Das, Pranay Bantawa, Bipasa Sarkar, Mainaak Mukhopadyay, Biswajit Bera, Tapan Kumar Mondal |
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Rok vydání: | 2012 |
Předmět: |
Stomatal conductance
Citrate (si)-Synthase Biology Antioxidants Camellia sinensis Citric Acid General Biochemistry Genetics and Molecular Biology Biomaterials Lipid peroxidation chemistry.chemical_compound Botany Hyperaccumulator Photosynthesis Transpiration Dose-Response Relationship Drug Tea Metals and Alloys food and beverages Plant physiology Hydroponics Plant Leaves Oxidative Stress chemistry Seedlings Shoot General Agricultural and Biological Sciences Aluminum |
Zdroj: | BioMetals. 25:1141-1154 |
ISSN: | 1572-8773 0966-0844 |
Popis: | Tea [Camellia sinensis (L.) O. Kuntze] is an aluminum (Al) hyperaccumulator plant and is commercially important due to its high content of antioxidants. Although Al induced growth is well-known for the plants growing in acid soil, yet the cause underlying the stimulatory effect of Al has not been fully understood. To investigate the possible role of Al in growth induction, we studied morphological, physiological as well as biochemical changes of tea plant under different Al concentrations (0-4,000 μM). In hydroponics, Al (15 μM), enhanced shoot and root growth, but at higher concentrations, it caused oxidative damage which culminated in a cascade of biochemical changes, Al content increased concurrently with the maturity of the leaf as well as stem tissues than their younger counterparts. Hematoxylin staining indicated that Al accumulation started after 6 h of exposure in the tips of young roots and accumulation was dose dependent. The physiological parameters such as pigments, photosynthetic rate, transpiration and stomatal conductance were declined due to Al toxicity. Alteration in activated oxygen metabolism was also evidenced by increasing lipid peroxidation, membrane injury, evolution of superoxide anions and accumulation of H(2)O(2). Contents of phenols initially exhibited an acceleration which gradually plummeted at higher levels whereas total sugar and starch contents decimated beyond 15 μM of Al concentration. Activities of antioxidant defense enzymes were increased with the elevated concentration of Al. Expression of citrate synthase gene was up-regulated in the mature leaves, young as well as old roots simultaneously with increased concentration of Al in those parts; indicating the formation of Al-citrate complex. These results cooperatively specified that Al concentration at lower level promoted growth but turned out to be a stressor at elevated stages indicating the sensitivity of the cultivar (T-78) to Al. |
Databáze: | OpenAIRE |
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