机构地区:[1]Department of Landscape Architecture,Gold Mantis School of Architecture,Soochow University
出 处:《Agricultural Biotechnology》2018年第5期67-70,共4页农业生物技术(英文版)
基 金:Supported by Applied Basic Research Project of Suzhou City(SYN201405)
摘 要:[Objectives] This study was conducted to investigate the effect of paclobutrazol (PBZ) on heat tolerance of dahlia.[Methods] A dahlia variety Danbanhuang was selected as the experimental material in this study. After 100, 200, 300 or 400 mg/L paclobutrazol was sprayed evenly to the leaves of dahlia seedlings, they were cultured in an incubator at high temperature (35 ℃/30 ℃, day/night) for two days, and then transferred to an incubator at normal temperature (25 ℃/20 ℃, day/night). The physiological and biochemical parameters of the dahlia seedlings were measured before exposure to high temperature (D0), after exposure to high temperature for two days (D2) and exposure to normal temperature for one day (R1).[Results] Compared to the negative control, foliar application of paclobutrazol decreased the content of MDA, increased the contents of chlorophyll, proline, soluble protein, and the activity of SOD, POD and CAT in dahlia plants under heat stress. The contents of MDA, soluble protein and proline in PBZ treated dahlia plants increased when they were subject to high temperature stress (35 ℃/30 ℃, day/night), and then decreased when the temperature returned to normal (25 ℃/20 ℃, day/night), and CAT activity decreased at high temperature, and then increased at normal temperature, while the activity of SOD and POD kept rising during the entire experimental period.[Conclusions] Foliar application of paclobutrazol can alleviate the adverse effect caused by high temperature to dahlia plants, and the experimental data provide a theoretical basis for the application of paclobutrazol in dahlia cultivation in South China.[Objectives] This study was conducted to investigate the effect of paclobutrazol (PBZ) on heat tolerance of dahlia.[Methods] A dahlia variety Danbanhuang was selected as the experimental material in this study. After 100, 200, 300 or 400 mg/L paclobutrazol was sprayed evenly to the leaves of dahlia seedlings, they were cultured in an incubator at high temperature (35 ℃/30 ℃, day/night) for two days, and then transferred to an incubator at normal temperature (25 ℃/20 ℃, day/night). The physiological and biochemical parameters of the dahlia seedlings were measured before exposure to high temperature (D0), after exposure to high temperature for two days (D2) and exposure to normal temperature for one day (R1).[Results] Compared to the negative control, foliar application of paclobutrazol decreased the content of MDA, increased the contents of chlorophyll, proline, soluble protein, and the activity of SOD, POD and CAT in dahlia plants under heat stress. The contents of MDA, soluble protein and proline in PBZ treated dahlia plants increased when they were subject to high temperature stress (35 ℃/30 ℃, day/night), and then decreased when the temperature returned to normal (25 ℃/20 ℃, day/night), and CAT activity decreased at high temperature, and then increased at normal temperature, while the activity of SOD and POD kept rising during the entire experimental period.[Conclusions] Foliar application of paclobutrazol can alleviate the adverse effect caused by high temperature to dahlia plants, and the experimental data provide a theoretical basis for the application of paclobutrazol in dahlia cultivation in South China.
关 键 词:DAHLIA Heat stress PACLOBUTRAZOL Physiological response REGULATION
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