Journal
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
Volume 59, Issue 3, Pages 340-346Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.envexpbot.2006.04.003
Keywords
carbon dioxide; climate change; genetic variation; greenhouse gas; indirect effect; ozone
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The effects of CO2 and tropospheric O-3 on forest trees are increasingly the subject of experimental evaluation. Little is known, however, about the effects of these gases on understory plant taxa. At the Aspen free-air CO2 and O-3 enrichment (Aspen FACE) site we assessed colonization and establishment of two common forest understory species, red (Trifolium pratense) and white (Trifolium repens) clover. To better understand these natural patterns in red clover, the more responsive of the two clover species, we also assessed intraspecific variation in growth performance to altered atmospheric conditions. Natural red clover populations were larger in enriched CO2 atmospheres, whereas white clover populations showed no response to CO2. Neither species showed beneficial or detrimental responses to enriched O-3 atmospheres. Nine red clover genotypes exhibited similar, but counterintuitive, decreases in shoot and root biomass, and increases in foliar nitrogen concentrations and root nodule numbers, under elevated CO2. We suggest that in enriched CO2 habitats, increased shading from rapidly growing trees offsets the positive benefits of CO2 for understory plant performance. Enriched CO2 and O-3 atmospheres may have large direct and indirect effects on colonization, establishment, and performance of common understory plants. Such changes may in turn alter forest community and ecosystem dynamics. (c) 2006 Elsevier B.V. All rights reserved.
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