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United States Department of Agriculture

Agricultural Research Service

Research Project: Response and Adaptation of Crops and Weeds to Elevated C02 and Global Warming

Location: Crop Systems & Global Change

Title: Leaf transpiration efficiency in corn varieties grown at elevated carbon dioxide

Author
item Bunce, James

Submitted to: Crop Science
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: June 21, 2012
Publication Date: November 1, 2012
Citation: Bunce, J.A. 2012. Leaf transpiration efficiency in corn varieties grown at elevated carbon dioxide. Crop Science. 52:2714-2717.

Interpretive Summary: Increasing the efficiency with which plants use water may help to adapt them to the increased frequency of drought which is projected to occur as the climate changes. In corn, varieties have been identified which have increased efficiency of water use at the current concentration of carbon dioxide in the atmosphere. This work tested whether these varieties maintained their superior water use efficiency when grown at projected higher carbon dioxide concentrations. It was found that identification of varieties with higher water use efficiency at elevated carbon dioxide concentrations would be more efficiently accomplished at those concentrations. This work will be of interest to crop scientists attempting to adapt crop plants to global climate change conditions.

Technical Abstract: Higher leaf transpiration efficiency (TE) without lower photosynthesis has been identified in some varieties of corn in field tests, and could be a useful trait to improve yield under dry conditions without sacrificing yield under favorable conditions. However, because the carbon dioxide concentration in the atmosphere continues to increase rapidly, and stomatal conductance and photosynthesis sometimes acclimate to elevated carbon dioxide concentrations, it is not certain that varietal differences in leaf TE occurring at the current ambient carbon dioxide concentration would still occur at elevated carbon dioxide. Two varieties of sweet corn found in previous field studies to have high leaf TE and two with low TE were grown for two seasons in plots equipped with free-air carbon dioxide enrichment systems to determine whether development and measurement at elevated carbon dioxide would alter the ranking of the varieties in leaf TE. Measurements were also made at ambient carbon dioxide two hours and five days after termination of the carbon dioxide application to separate effects of growth and measurement carbon dioxide concentration on the comparative TE of the varieties. The results indicated that growth at 1.4 times the current carbon dioxide concentration resulted in one variety having about 25% higher leaf TE than the other three varieties, which did not differ significantly from each other. The changed ranking of one variety was a result of growth at elevated carbon dioxide, not the elevated measurement concentration. Thus, in one variety, the high leaf TE trait was stable across growth carbon dioxide conditions, but in another variety, the high TE trait was no longer evident when the plants were grown at elevated carbon dioxide. Based on these results, screening of corn genotypes for high leaf TE at projected future carbon dioxide concentrations may be more efficiently accomplished at those concentrations.

Last Modified: 10/31/2014
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