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  • Title: An in vivo analysis of the effect of season-long open-air elevation of ozone to anticipated 2050 levels on photosynthesis in soybean.
    Author: Morgan PB, Bernacchi CJ, Ort DR, Long SP.
    Journal: Plant Physiol; 2004 Aug; 135(4):2348-57. PubMed ID: 15299126.
    Abstract:
    Rising atmospheric carbon dioxide concentration ([CO(2)]) is widely recognized, but less appreciated is a concomitant rise in tropospheric ozone concentration ([O(3)]). In industrialized countries, [O(3)] has risen by 0.5% to 2.5% per year. Tropospheric [O(3)] is predicted to reach a global mean of >60 nL L(-1) by 2050 with greater averages locally. Previous studies in enclosures suggest that this level of [O(3)] will decrease leaf photosynthesis, thereby limiting growth and yield of Glycine max L. Merr. SoyFACE (Soybean Free Air gas Concentration Enrichment) is the first facility to elevate atmospheric [O(3)] (approximately 1.2x current) in replicated plots under completely open-air conditions within an agricultural field. Measurements of gas exchange (assimilation versus light and assimilation versus intercellular [CO(2)]) were made on excised leaves from control and treatment plots (n = 4). In contrast to expectations from previous chamber studies, elevated [O(3)] did not alter light-saturated photosynthesis (A(sat), P = 0.09), carboxylation capacity (V(c,max), P = 0.82), or maximum electron transport (J(max), P = 0.66) for the topmost most recently fully expanded leaf at any stage of crop development. Leaves formed during the vegetative growth stage did not show a significant ozone-induced loss of photosynthetic capacity as they aged. Leaves formed during flowering did show a more rapid loss of photosynthetic capacity as they aged in elevated [O(3)]. A(sat), V(c,max), and J(max) (P = 0.04, 0.004, and 0.002, respectively) were decreased 20% to 30% by treatment with ozone. This is noteworthy since these leaves provide photosynthate to the developing grain. In conclusion, a small (approximately 20%) increase in tropospheric [O(3)] did not significantly alter photosynthetic capacity of newly expanded leaves, but as these leaves aged, losses in photosynthetic carbon assimilation occurred.
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