Plant photosynthesis under heat stress: Effects and management

Climate change and global warming have increased the frequency of extreme heat stress events that severely affect plant production. Photosynthesis is an intricate heat-sensitive physiological process. Heat stress affects CO2 assimilation, photochemical reactions, D1 and D2 protein turnover, and chlo...

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Bibliographic Details
Published in:Environmental and experimental botany 2023-02, Vol.206, p.105178, Article 105178
Main Authors: Zahra, Noreen, Hafeez, Muhammad Bilal, Ghaffar, Abdul, Kausar, Abida, Zeidi, Maryam Al, Siddique, Kadambot H.M., Farooq, Muhammad
Format: Article
Language:English
Subjects:
Chloroplast
Heat stress
High temperature
Photosynthesis
Retrograde signaling
Tolerance
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Summary:Climate change and global warming have increased the frequency of extreme heat stress events that severely affect plant production. Photosynthesis is an intricate heat-sensitive physiological process. Heat stress affects CO2 assimilation, photochemical reactions, D1 and D2 protein turnover, and chlorophyll biosynthesis. Heat stress-induced damage to chloroplast downregulates important chloroplast components and inactivates heat-sensitive proteins, including RuBisCo activase, causing redox imbalance, reducing photosynthetic efficiency, and possibly causing cell death. As all photochemical processes in the Calvin cycle in the stroma and thylakoid lamellae of the chloroplast are prone to heat stress injury, these organelles are the primary activators of cellular heat stress responses and signaling. This review describes approaches to protect crop plants against heat-induced photochemical damage and discusses chloroplast responses, sensitivity, and retrograde signaling that contribute to the sensitivity and tolerance of photosynthetic apparatus. •Plant photosynthesis is an intricate heat-sensitive physiological process.•Heat stress affects chlorophyll biosynthesis, CO2 assimilation, and D1 and D2 protein turnover.•Heat stress downregulates chloroplast components and inactivates heat-sensitive proteins.•Heat stress causes redox imbalance and reduces photosynthetic efficiency.
ISSN:0098-8472
1873-7307
DOI:10.1016/j.envexpbot.2022.105178