Influence of the acetolactate synthase inhibitor metsulfuron-methyl on the operation, regulation and organisation of photosynthesis in Solanum nigrum
2006
Riethmuller-Haage, I.C.P. | Bastiaans, L. | Harbinson, J. | Kempenaar, C. | Kropff, M.J.
The influence of the acetolactate synthase inhibitor metsulfuron-methyl on the operation of the photosynthetic apparatus was examined on 4-weeks-old climate chamber-grown Solanum nigrum plant. To have an indication on the relative performance of the photosynthetic apparatus of ALS-treated plants, the level of carbon dioxide (CO2) fixation, the relative quantum efficiency of photosystem I (¿PSI) or photosystem II (¿PSII) electron transport and leaf chlorophyll content were assessed for both control and treated plants at 2, 4 and 7 days after application of the herbicide. Results indicated a progressive inhibition of the level of CO2 fixation, the relative quantum efficiency of photosystem I (¿PSI) and II (¿PSII) electron transport and the leaf chlorophyll content already 2 days after application of the herbicide. The linear relationship between the photosystem I and II was unaltered by herbicidal treatment and was sustained under conditions where large changes in pigment composition of the leaves occurred. It appears that the stress-induced loss of leaf chlorophyll is not a catastrophic process but rather is the consequence of a well-organised breakdown of components. Under photorespiratory and non-photorespiratory conditions, the relationship between the index of electron transport flow through photosystem I and II and the rate of CO2 fixation is altered so that electron transport becomes less efficient at driving CO2 fixation. Keywords Herbicide - Photosystem I - Photosystem II - Quantum efficiency - Sulfonylurea - CO2 fixation - Chlorophyll - Chlorophyll fluorescence
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