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W3045140090 endingPage "6470" @default.
W3045140090 startingPage "6460" @default.
W3045140090 abstract "Abstract In vascular plants, more rigid leaves have been linked to lower photosynthetic capacity, associated with low CO2 diffusion across the mesophyll, indirectly resulting in a trade-off between photosynthetic capacity (An) and bulk modulus of elasticity (ε). However, we evaluated mosses, liverworts, and Chara sp., plus some lycophytes and ferns, and found that they behaved as clear outliers of the An–ε relationship. Despite this finding, when vascular and non-vascular plants were plotted together, ε still linearly determined the cessation of net photosynthesis during desiccation both in species with stomata (either actively or hydro-passively regulated) and in species lacking stomata, and regardless of their leaf structure. The latter result challenges our current view of photosynthetic responses to desiccation and/or water stress. Structural features and hydric strategy are discussed as possible explanations for the deviation of these species from the An–ε trade-off, as well as for the general linear dependency between ε and the full cessation of An during desiccation." @default.
W3045140090 created "2020-07-29" @default.
W3045140090 creator A5027481260 @default.
W3045140090 creator A5034106140 @default.
W3045140090 creator A5054232287 @default.
W3045140090 date "2020-07-20" @default.
W3045140090 modified "2023-10-03" @default.
W3045140090 title "What drives photosynthesis during desiccation? Mosses and other outliers from the photosynthesis–elasticity trade-off" @default.
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W3045140090 doi "https://doi.org/10.1093/jxb/eraa328" @default.