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郭宏勇, 朱俊杰, 沈伊洁, 王茜, 金鹏, 夏建荣. 高浓度CO2与磷浓度对葛仙米生长和光合作用的耦合效应[J]. 水生生物学报, 2022, 46(7): 1045-1051. DOI: 10.7541/2022.2021.052
引用本文: 郭宏勇, 朱俊杰, 沈伊洁, 王茜, 金鹏, 夏建荣. 高浓度CO2与磷浓度对葛仙米生长和光合作用的耦合效应[J]. 水生生物学报, 2022, 46(7): 1045-1051. DOI: 10.7541/2022.2021.052
GUO Hong-Yong, ZHU Jun-Jie, SHEN Yi-Jie, WANG Xi, JIN Peng, XIA Jian-Rong. INTERACTIVE EFFECTS OF ELEVATED CO2 AND PHOSPHORUS ON THE GROWTH AND PHOTOSYNTHESIS IN NOSTOC SPHAEROIDES[J]. ACTA HYDROBIOLOGICA SINICA, 2022, 46(7): 1045-1051. DOI: 10.7541/2022.2021.052
Citation: GUO Hong-Yong, ZHU Jun-Jie, SHEN Yi-Jie, WANG Xi, JIN Peng, XIA Jian-Rong. INTERACTIVE EFFECTS OF ELEVATED CO2 AND PHOSPHORUS ON THE GROWTH AND PHOTOSYNTHESIS IN NOSTOC SPHAEROIDES[J]. ACTA HYDROBIOLOGICA SINICA, 2022, 46(7): 1045-1051. DOI: 10.7541/2022.2021.052

高浓度CO2与磷浓度对葛仙米生长和光合作用的耦合效应

INTERACTIVE EFFECTS OF ELEVATED CO2 AND PHOSPHORUS ON THE GROWTH AND PHOTOSYNTHESIS IN NOSTOC SPHAEROIDES

  • 摘要: 在不同CO2(400和2000 ppm)和磷浓度下(0.088—0.350 mmol/L)培养葛仙米(拟球状念珠藻, Nostoc sphaeroides Kutzing), 研究CO2和磷对葛仙米相对生长速率、色素含量、光系统Ⅱ光化学活性和光合速率等的影响。结果显示CO2或磷浓度对葛仙米的相对生长速率、球体粒径和数量、光饱和光合速率、呼吸速率和光合效率均有显著影响, 且两者对球体粒径和数量、叶绿素a含量、呼吸速率和光合效率存在明显交互作用。高CO2浓度培养明显提高磷对球体粒径和数量和光合效率的效应, 同时降低高磷浓度对叶绿素a合成的抑制作用, 但两者对相对生长速率、藻胆蛋白含量、光饱和光合速率、Fv/Fm和Yield的交互作用均不显著。以上研究结果表明高CO2浓度或磷浓度增加促进葛仙米生长主要是通过提高光合速率和光合效率来实现; 两者交互作用表明高CO2浓度可能通过提升磷的利用效率, 降低高磷浓度对叶绿素a合成的抑制, 提高光合效率, 使球体明显增大。

     

    Abstract: Nostoc sphaeroides is an edible nitrogen-fixing cyanobacteria in paddy fields with high economic values. However, little is known about its physiological response to CO2 and phosphorus which are essential for the growth of N. sphaeroides. In this study, we cultured N. sphaeroides at two levels of pCO2 (400 and 2000 ppm) and different phosphorus concentrations (0.088—0.350 mmol/L) to investigate the interactive effects of CO2 and phosphorus on the relative growth rate, pigment content, photochemical activity of PSII and photosynthetic rate. The results showed that individual CO2 or phosphorus concentrations had significant effects on the relative growth rate (RGR), particle size and mass, light-saturated photosynthetic rate (Pm), dark respiration rate (Rd) and photosynthetic efficiency (α) of N. sphaeroides. Furthermore, CO2 and phosphorus had obvious interaction on its particle size and mass, chlorophyll a content, dark respiration rate and photosynthetic efficiency. High CO2 concentration significantly increased the effect of phosphorus on the particle size and mass, dark respiration rate and photosynthetic efficiency, and decreased the inhibitory effect of high phosphorus concentrations on chlorophyll a synthesis. In addition, the interactions of CO2 and phosphorus on the relative growth rate, phycobiliproteins content, light-saturated photosynthetic rate, the maximum photochemical efficiency (Fv/Fm) and actual photochemical efficiency (Yield) were not significant. The results suggest that elevated CO2 or high phosphorus concentrations promoted the growth of N. sphaeroides mainly by enhancing photosynthetic rate and photosynthetic efficiency. The interaction between CO2 and phosphorus concentrations indicated that high CO2 concentration may increase the utilization efficiency of phosphorus, and reduced the inhibition of chlorophyll a synthesis by high phosphorus concentration to improve photosynthetic efficiency.

     

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