Effects of elevated CO2 and soil–nitrogen supply on chlorophyll fluorescence and gas exchange in Scots pine, based on a branch-in-bag experiment

KAI-YUN WANG; SEPPO KELLOMÄKI

doi:10.1046/j.1469-8137.1997.00744.x

Abstract

Applying the branch-in-bag method, naturally seeded Scots pine (Pinus sylvestris L.) trees, 25–30 yr old, were subjected to two CO2 concentrations (350 and 700 μmol mol−1) and two soil-nitrogen-supply regimes for three growing seasons (1994–96). Gas exchange and chlorophyll a fluorescence in detached shoots were measured simultaneously in a diffuse radiation field. Elevated CO2 did not lead to a significant ‘downward regulation’ in the light-saturated rate of net photosynthesis (Pn.max), the maximum apparent quantum yield (αA.max) or the maximum photochemical efficiency (Fv/Fm) of photosystem II (PS II). However, the elevated CO2 significantly decreased the light-saturated stomatal conductance and increased the sensitivity of stomatal conductance to change in low photon-flux densities. The high soil–nitrogen supply significantly increased photosynthetic capacity, as manifested by increases in Pn.max, αA.max, Fv/Fm, and the effective photochemical efficiency (ΔF/F′m) at low photon-flux densities, did not, on the other hand, enhance the magnitude of photosynthetic response to elevated CO2 concentration. In addition, the treatment-induced modifications in fluorescence parameters are discussed in detail.

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Effects of elevated CO2 and soil–nitrogen supply on chlorophyll fluorescence and gas exchange in Scots pine, based on a branch-in-bag experiment

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Effects of elevated CO2 and soil–nitrogen supply on chlorophyll fluorescence and gas exchange in Scots pine, based on a branch-in-bag experiment

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