Net Photosynthetic CO2 Compensation Concentrations of Some Lichens

Zeitschrift für Pflanzenphysiologie Pub Date : 1984-03-01 DOI:10.1016/S0044-328X(84)80077-X

H. Bauer

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引用次数: 10

Abstract

CO₂ compensation concentrations (Γ) and rates of net photosynthetic CO₂ uptake and of respiration in light and darkness were determined at 20°C, 300 μmol photons m_-2s_-1 and 21% O₂ in some foliose and fruticose lichens. Large differences were found in the values of F which ranged between 5 and 70 μl CO₂ l_-1 air. Γ values higher than typical for vascular C₃ plants (30 to 35 μll_-1 under the same conditions) may be due to fungal respiration but were found in foliose and fruticose lichens irrespective of the mass proportion of the phycobiont to mycobiont. Low Γ levels were detected in a lichen with a cyanobacterium as phycobiont (Peltigera polydactyla) but also in lichens with green algae (Cladonia rangiferina, C stellaris, Evernia prunastri). In low Γ species with green algae a dense plectenchyma of fungal hyphae forms the thallus surface and this high diffusive resistance may assist a CO₂-concentrating mechanism. There was no correlation between the values of Γ and the absolute rates of the other CO₂ exchange parameters investigated.

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某些地衣的净光合CO2补偿浓度

在20°C、300 μmol光子m-2s-1和21% O2条件下，测定了部分卵叶和果藓地衣在光照和黑暗条件下的CO2补偿浓度(Γ)、净光合CO2吸收率和呼吸速率。F值在5 ~ 70 μl CO2 l-1空气之间存在较大差异。Γ值高于维管C3植物的典型值(在相同条件下为30 ~ 35 μl -1)，这可能是由于真菌呼吸作用所致，但无论菌体与菌体的质量比例如何，在foliose和frutise地衣中都发现了Γ值。在以蓝藻为共生菌的地衣(polydactyla Peltigera)和绿藻(Cladonia rangiferina, C stellaris, Evernia prunastri)的地衣中检测到低Γ水平。在含有绿藻的低Γ物种中，真菌菌丝密集的全壁组织形成菌体表面，这种高扩散阻力可能有助于二氧化碳的集中机制。Γ的值与所研究的其他CO2交换参数的绝对速率之间没有相关性。

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Zeitschrift für Pflanzenphysiologie

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