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Changes in the chloroplastic CO 2 concentration explain much of the observed Kok effect: a model
Author(s) -
Farquhar Graham D.,
Busch Florian A.
Publication year - 2017
Publication title -
new phytologist
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.742
H-Index - 244
eISSN - 1469-8137
pISSN - 0028-646X
DOI - 10.1111/nph.14512
Subject(s) - respiration , photosynthesis , compensation point , carbon dioxide , respiration rate , irradiance , oxygen , photorespiration , assimilation (phonology) , chemistry , darkness , biophysics , botany , atmospheric sciences , biology , ecology , physics , optics , linguistics , transpiration , organic chemistry , philosophy
Summary Mitochondrial respiration often appears to be inhibited in the light when compared with measurements in the dark. This inhibition is inferred from the response of the net CO 2 assimilation rate ( A ) to absorbed irradiance ( I ), changing slope around the light compensation point ( I c ). We suggest a model that provides a plausible mechanistic explanation of this ‘Kok effect’. The model uses the mathematical description of photosynthesis developed by Farquhar, von Caemmerer and Berry; it involves no inhibition of respiration rate in the light. We also describe a fitting technique for quantifying the Kok effect at low I . Changes in the chloroplastic CO 2 partial pressure ( C c ) can explain curvature of A vs I , its diminution in C 4 plants and at low oxygen concentrations or high carbon dioxide concentrations in C 3 plants, and effects of dark respiration rate and of temperature. It also explains the apparent inhibition of respiration in the light as inferred by the Laisk approach. While there are probably other sources of curvature in A vs I , variation in C c can largely explain the curvature at low irradiance, and suggests that interpretation of day respiration compared with dark respiration of leaves on the basis of the Kok effect needs reassessment.

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