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李平, 苏海虹, 关万春. 高CO2和UVR对叉节藻和刚毛藻生长及光化学效率的影响[J]. 水生生物学报, 2014, 38(4): 636-641. DOI: 10.7541/2014.90
引用本文: 李平, 苏海虹, 关万春. 高CO2和UVR对叉节藻和刚毛藻生长及光化学效率的影响[J]. 水生生物学报, 2014, 38(4): 636-641. DOI: 10.7541/2014.90
LI Ping, SU Hai-Hong, GUAN Wan-Chun. THE EFFECT OF HIGH CO2 CONCENTRATIONS AND UVR ON GROWTH AND PHOTOCHEMICAL EFFICIENCY IN AMPHIROA SP. (RHDOPHYTA) AND CLADOPHORA SP. (CHLOROPHYTA)[J]. ACTA HYDROBIOLOGICA SINICA, 2014, 38(4): 636-641. DOI: 10.7541/2014.90
Citation: LI Ping, SU Hai-Hong, GUAN Wan-Chun. THE EFFECT OF HIGH CO2 CONCENTRATIONS AND UVR ON GROWTH AND PHOTOCHEMICAL EFFICIENCY IN AMPHIROA SP. (RHDOPHYTA) AND CLADOPHORA SP. (CHLOROPHYTA)[J]. ACTA HYDROBIOLOGICA SINICA, 2014, 38(4): 636-641. DOI: 10.7541/2014.90

高CO2和UVR对叉节藻和刚毛藻生长及光化学效率的影响

THE EFFECT OF HIGH CO2 CONCENTRATIONS AND UVR ON GROWTH AND PHOTOCHEMICAL EFFICIENCY IN AMPHIROA SP. (RHDOPHYTA) AND CLADOPHORA SP. (CHLOROPHYTA)

  • 摘要: 为研究高CO2及UVR对大型海藻耦合效应的影响,实验选择红藻门可进行钙化的叉节藻(Amphiroa sp.)与绿藻门不具钙化能力的刚毛藻(Cladophora sp.)进行对比,探讨了高CO2与UVR对这两种藻生长及光化学效率的影响,并分析高CO2和UVR的耦合效应。结果表明,CO2浓度由360 mol/mol当前空气中CO2浓度)提高到1000 mol/mol培养73d后,叉节藻的生长下降了40.01%,而刚毛藻却增加了40.08%,UVR对叉节藻的光华学效率造成的抑制率增加了77.76%,对刚毛藻的抑制率增加了17.02%,这说明高CO2引起的海水酸化加剧了UVR对藻体的负面效应,且对具有钙化能力的叉节藻影响更显著。而叉节藻和刚毛藻之间的差异体现了藻体对海水酸化和UVR响应的种间特异性。

     

    Abstract: Human behaviors contribute to global changes of enhanced solar ultraviolet radiation (UVR, 280-400 nm) and ocean acidification. Macroalgae plays an important role in global carbon cycle as primary producers; however, the effects of ocean acidification and UVR on macroalgae are uncertain. To investigate the combined effects of ocean acidification and UVR on growth and photochemical efficiency, the calcified Amphiroa sp. and non-calcified Cladophora sp. were utilized in the present study. The results showed that increasing CO2 concentration from 360 ppmv (the current CO2 concentration in the air) to 1000 ppmv inhibited the growth of Amphiroa sp. by 40.01%, but stimulated the growth of Cladophora sp. by 40.08%. We also observed that UVR sensitivity was increased with acidification, and that acidification amplified the effects of elevated CO2 concentration in regulating the growth of algae. This suggested that ocean acidification may increase the negative effect of UVR to algae. These results indicated species-dependent effects of ocean acidification and UVR.

     

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