Elastic and collapsible: current understanding of cell walls in succulent plants

The mechanistic adaptations that allow the cell walls of succulent plants to fold provide insights into cellular water storage and the reversible responses to drought and rehydration. Abstract Succulent plants represent a large functional group of drought-resistant plants that store water in special...

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Bibliographic Details
Published in:Journal of experimental botany 2022-04, Vol.73 (8), p.2290-2307
Main Authors: Fradera-Soler, Marc, Grace, Olwen M, Jørgensen, Bodil, Mravec, Jozef
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Cell Wall
Droughts
Photosynthesis
Review Papers
Water
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Summary:The mechanistic adaptations that allow the cell walls of succulent plants to fold provide insights into cellular water storage and the reversible responses to drought and rehydration. Abstract Succulent plants represent a large functional group of drought-resistant plants that store water in specialized tissues. Several co-adaptive traits accompany this water-storage capacity to constitute the succulent syndrome. A widely reported anatomical adaptation of cell walls in succulent tissues allows them to fold in a regular fashion during extended drought, thus preventing irreversible damage and permitting reversible volume changes. Although ongoing research on crop and model species continuously reports the importance of cell walls and their dynamics in drought resistance, the cell walls of succulent plants have received relatively little attention to date, despite the potential of succulents as natural capital to mitigate the effects of climate change. In this review, we summarize current knowledge of cell walls in drought-avoiding succulents and their effects on tissue biomechanics, water relations, and photosynthesis. We also highlight the existing knowledge gaps and propose a hypothetical model for regulated cell wall folding in succulent tissues upon dehydration. Future perspectives of methodological development in succulent cell wall characterization, including the latest technological advances in molecular and imaging techniques, are also presented.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erac054