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The roles of photorespiration and alternative electron acceptors in the responses of photosynthesis to elevated temperatures in cowpea

Isaac Osei‐Bonsu, Alan M. McClain, Berkley J. Walker, Thomas D. Sharkey, David Kramer

2021Plant Cell & Environment31 citationsDOIOpen Access PDF

Abstract

Abstract We explored the effects, on photosynthesis in cowpea ( Vigna unguiculata ) seedlings, of high temperature and light—environmental stresses that often co‐occur under field conditions and can have greater impact on photosynthesis than either by itself. We observed contrasting responses in the light and carbon assimilatory reactions, whereby in high temperature, the light reactions were stimulated while CO 2 assimilation was substantially reduced. There were two striking observations. Firstly, the primary quinone acceptor (Q A ), a measure of the regulatory balance of the light reactions, became more oxidized with increasing temperature, suggesting increased electron sink capacity, despite the reduced CO 2 fixation. Secondly, a strong, O 2 ‐dependent inactivation of assimilation capacity, consistent with down‐regulation of rubisco under these conditions. The dependence of these effects on CO 2 , O 2 and light led us to conclude that both photorespiration and an alternative electron acceptor supported increased electron flow, and thus provided photoprotection under these conditions. Further experiments showed that the increased electron flow was maintained by rapid rates of PSII repair, particularly at combined high light and temperature. Overall, the results suggest that photodamage to the light reactions can be avoided under high light and temperatures by increasing electron sink strength, even when assimilation is strongly suppressed.

Topics & Concepts

PhotorespirationPhotosynthesisPhotoprotectionElectron transport chainRuBisCOElectron acceptorSink (geography)Assimilation (phonology)Carbon fixationPhotochemistryBiophysicsChemistryElectron flowBotanyBiologyGeographyLinguisticsCartographyPhilosophyPlant responses to elevated CO2Plant Water Relations and Carbon DynamicsPlant Parasitism and Resistance
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