Journal
AOB PLANTS
Volume -, Issue -, Pages -Publisher
OXFORD UNIV PRESS
DOI: 10.1093/aobpla/plr030
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Funding
- Danish Council for Independent Research Natural Science [645-06-0287]
- Centre for Lake Restoration
- Villum Kann Rasmussen Centre of Excellence
- Australian Research Council [LP0882350]
- AoB PLANTS
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Background and aims Wetland plants inhabit flood-prone areas and therefore can experience episodes of complete submergence. Submergence impedes exchange of O-2 and CO2 between leaves and the environment, and light availability is also reduced. The present review examines limitations to underwater net photosynthesis (P-N) by terrestrial (i.e. usually emergent) wetland plants, as compared with submerged aquatic plants, with focus on leaf traits for enhanced CO2 acquisition. Scope Floodwaters are variable in dissolved O-2, CO2, light and temperature, and these parameters influence underwater P-N and the growth and survival of submerged plants. Aquatic species possess morphological and anatomical leaf traits that reduce diffusion limitations to CO2 uptake and thus aid P-N under water. Many aquatic plants also have carbon-concentrating mechanisms to increase CO2 at Rubisco. Terrestrial wetland plants generally lack the numerous beneficial leaf traits possessed by aquatic plants, so submergence markedly reduces P-N. Some terrestrial species, however, produce new leaves with a thinner cuticle and higher specific leaf area, whereas others have leaves with hydrophobic surfaces so that gas films are retained when submerged; both improve CO2 entry. Conclusions Submergence inhibits P-N by terrestrial wetland plants, but less so in species that produce new leaves under water or in those with leaf gas films. Leaves with a thinner cuticle, or those with gas films, have improved gas diffusion with floodwaters, so that underwater P-N is enhanced. Underwater P-N provides sugars and O-2 to submerged plants. Floodwaters often contain dissolved CO2 above levels in equilibrium with air, enabling at least some P-N by terrestrial species when submerged, although rates remain well below those in air.
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