Autor: |
Gong, Xiao Ying, Schäufele, Rudi, Lehmeier, Christoph Andreas, Tcherkez, Guillaume, Schnyder, Hans |
Předmět: |
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Zdroj: |
Plant, Cell & Environment; Mar2017, Vol. 40 Issue 3, p401-412, 12p |
Abstrakt: |
Plant carbon-use-efficiency (CUE), a key parameter in carbon cycle and plant growth models, quantifies the fraction of fixed carbon that is converted into net primary production rather than respired. CUE has not been directly measured, partly because of the difficulty of measuring respiration in light. Here, we explore if CUE is affected by atmospheric CO2. Sunflower stands were grown at low (200 μmol mol−1) or high CO2 (1000 μmol mol−1) in controlled environment mesocosms. CUE of stands was measured by dynamic stand-scale 13C labelling and partitioning of photosynthesis and respiration. At the same plant age, growth at high CO2 (compared with low CO2) led to 91% higher rates of apparent photosynthesis, 97% higher respiration in the dark, yet 143% higher respiration in light. Thus, CUE was significantly lower at high (0.65) than at low CO2 (0.71). Compartmental analysis of isotopic tracer kinetics demonstrated a greater commitment of carbon reserves in stand-scale respiratory metabolism at high CO2. Two main processes contributed to the reduction of CUE at high CO2: a reduced inhibition of leaf respiration by light and a diminished leaf mass ratio. This work highlights the relevance of measuring respiration in light and assessment of the CUE response to environment conditions. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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