Photosynthetic characteristics and protective mechanisms against photooxidation during high temperature stress in two citrus species |
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Authors: | Yan-Ping Guo Hui-Fen Zhou Liang-Cheng Zhang |
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Institution: | 1. Department of Horticulture, Zhejiang University, Kaixuan Road 268, Hangzhou, Zhejiang 310029, PR China;2. Key Laboratory of Horticultural Plant Development and Biotechnology, Ministry of Agriculture, Hangzhou 310029, PR China;3. Cash Crops Bureau, Zhejiang Provincial Department of Agriculture, Hangzhou 310020, PR China |
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Abstract: | Exposure of Satsuma mandarin (Citrus unshiu Marc.) and Navel orange (Citrus sinensis Osbeck) plants to high temperature (38 °C) led to reductions of the net photosynthetic rate (Pn), the photorespiration rate (Pr), the quantum efficiency CO2 assimilation (ΦCO2), the maximal photochemical efficiency of PS2 (Fv/Fm), the photochemical quenching (qP) and the quantum efficiency of PS2 photochemistry (ΦPS2), whereas the minimal fluorescence yield (Fo) and the non-photochemical quenching (qN) increased. Increase in the value of Pr/Pn and ΦPS2/ΦCO2 was attributed to the greater decrease in Pn and ΦCO2 than Pr and ΦPS2. In addition, the superoxide radical (O2−) production, the H2O2 concentration and the activities of antioxidant enzymes such as the superoxide dismutase (SOD, EC 1.15.1.1), the ascorbate peroxidase (APX, EC 1.11.1.11), the dehydroascorbate reductase (DHAR, EC 1.8.5.1) and the catalase (CAT, EC 1.11.1.6) were raised. On the other hand, the chlorophyll concentration in leaves decreased during high temperature stress. These results suggest that decline in Pn related to inactivation of PS2 reaction centers may be due to the enhanced number of active oxygen species in the citrus leaves. The water–water cycle may play a role in limiting the degree of photodamage caused by high temperature. Lower O2− production rate, the H2O2 concentration and the antioxidant enzymes activity were observed in high temperature tolerant species of citrus. The exogenous active oxygen scavenger ascorbic acid (Asc) enhanced the ability to clear the O2− in citrus plants, and quicken the recovery of photosynthetic apparatus. |
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Keywords: | APX ascorbate peroxidase Asc ascorbic acid CAT catalase Chl chlorophyll DHAR dehydroascorbate reductase Fo minimal dark adapted fluorescence yield changes initial fluorescence Fv/Fm maximal photochemical efficiency of PS2 FW fresh weight O2&minus superoxide radical Pn net photosynthetic rate Pr rate of photorespiration qN non-photochemical quenching qP photochemical quenching SOD superoxide dismutase ΦCO2" target="_blank">gif" overflow="scroll">ΦCO2 quantum efficiency CO2 assimilation ΦPS2 quantum efficiency of PS2 photochemistry |
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