Submergence tolerance in Hordeum marinum: dissolved CO2 determines underwater photosynthesis and growth
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Floodwaters differ markedly in dissolved CO(2), yet the effects of CO(2) on submergence responses of terrestrial plants have rarely been examined. The influence of dissolved CO(2) on underwater photosynthesis and growth was evaluated for three accessions of the wetland plant Hordeum marinum Huds. All three accessions tolerated complete submergence, but only when in CO(2) enriched floodwater. Plants submerged for 7 days in water at air equilibrium (18 mM CO(2)) suffered loss of biomass, whereas those with 200 mM CO(2) continued to grow. Higher underwater net photosynthesis at 200 mM CO(2) increased by 2.7- to 3.2-fold sugar concentrations in roots of submerged plants, compared with at air equilibrium CO(2). Leaf gas films enhancing gas exchange with floodwater, lack of a shoot elongation response conserving tissue sugars and high tissue porosity (24-31% in roots) facilitating internal O(2) movement, would all contribute to submergence tolerance in H. marinum. The present study demonstrates that dissolved CO(2) levels can determine submergence tolerance of terrestrial plants. So, submergence experiments should be conducted with defined CO(2) concentrations and enrichment might be needed to simulate natural environments and, thus, provide relevant plant responses
Translated title of the contribution | Submergence tolerance in Hordeum marinum: dissolved CO(2) determines underwater photosynthesis and growth |
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Original language | English |
Journal | Functional Plant Biology |
Volume | 37 |
Issue number | 6 |
Pages (from-to) | 524-531 |
Number of pages | 8 |
ISSN | 1445-4408 |
DOIs | |
Publication status | Published - 2010 |
ID: 33980925