Leaf day respiration (R ) strongly influences carbon-use efficiencies of whole plants and the global terrestrial biosphere. It has long been thought that R is slower than respiration in the dark at a given temperature, but measuring R by gas exchange remains a challenge because leaves in the light are also photosynthesizing. The Kok method and the Laisk method are widely used to estimate R . We highlight theoretical limitations of these popular methods, and recent progress toward their improvement by using additional information from chlorophyll fluorescence and by accounting for the photosynthetic reassimilation of respired CO . The latest evidence for daytime CO and energy release from the oxidative pentose phosphate pathway in chloroplasts appears to be important to understanding R .
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