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More recently, Graham Noctor's team has begun to study the relationship between CO2 levels and plant stress as part of the ANR HIPATH project (2018-2022), which he coordinates at the national level. "We know that the increase in CO2 in the atmosphere will have unpredictable effects on the climate. But let us imagine that more CO2 could be beneficial to plants, because by absorbing it, they transform it into carbohydrates. In general, the more they "consume", the more they photosynthesize and the better they grow," explains the researcher. But if the relationship between CO2, photosynthesis and growth is very well studied in France and internationally, the link between CO2 levels and stress is much less so. Will the increase in CO2 change the plant's resistance to stress? "This is a very important issue for agriculture and therefore for humans. As with any study on the impact of future CO2 levels, definitive answers are not easy to provide. It is hard to carry out experiments spread over several decades that would simulate the reality of the slow and continuous increase in atmospheric CO2. But it is certain that, without global political change, CO2 will continue to rise. Nevertheless, we must try to provide some initial answers to this question, which has not been sufficiently studied yet! »
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Journal of experimental botany (2024)
Guillaume Née, Fuzheng Wang,Gilles Châtel-Innocenti,Amna Mhamdi, Eugénie Juranville,Hélène Vanacker,Graham Noctor,Emmanuelle Issakidis-Bourguet
Frontiers in plant science (2023): 1179112-1179112
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The Plant Journalno. 4 (2023): 836-854
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