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Effect of Exogenous Calcium and Calcium Inhibitors on the Heat Tolerance in Phalaenopsis Seedlings

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ã€Authorã€‘ YANG Huageng;YANG Yimin;College of Tropical Crops, Hainan University;

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ã€Abstractã€‘ The objective of the study is to explore the underlying physiological mechanism of Ca²⁺ signal participating in the enhancement of Phalaenopsis heat tolerance.The seedlings of Phalaenopsis were sprayed appropriate concentration of exogenous calcium(Ca²⁺),extracellular Ca²⁺chelatorï¼ˆEGTAï¼‰ and plasma membrane Ca²⁺channel inhibitorï¼ˆLaCl₃ï¼‰respectively,taking distilled water as the control.The effects of antioxidant enzyme activity,malondialdehydeï¼ˆMDAï¼‰,osmotic regulators and photosynthetic pigment contents in Phalaenopsis leaves under high temperature stress were investigated.The results showed that SOD,POD and CAT activities,proline,soluble sugar,soluble protein,total chlorophyll and carotenoids contents were significantly increased and MDA content was significantly reduced in the CaCl₂ treatment group,stress damages in Phalaenopsis seedlings caused by high temperature were alleviated.while the activities of three antioxidant enzymes and contents of three osmoregulation substances and contents of two photosynthetic pigments mentioned above were decreased to different extents and MDA content was significantly improved in LaCl₃ and EGTA treatments group compared with the control group,thereby aggravating the damage of high temperature stress in Phalaenopsis seedlings.The study showed that Ca²⁺signaling could improve the resistance of Phalaenopsis seedlings to high temperature stress by participating in antioxidant enzyme activity,proline and photosynthetic pigment metabolism processes.æ›´å¤š è¿˜åŽŸ