期刊
FUNCTIONAL PLANT BIOLOGY
卷 29, 期 12, 页码 1387-1392出版社
C S I R O PUBLISHING
DOI: 10.1071/FP02052
关键词
carbon dioxide; climate change; growth; morphology; photosynthesis
Using climate-controlled growth chambers, the growth, morphology and photosynthetic response of Canada thistle (Cirsium arvense L. Scop.), a recognized invasive weed, was determined at CO 2 concentrations ([CO2]) of 285, 382 and 721 mumol mol(-1) during the vegetative state. These concentrations correspond roughly to ambient [CO2] from 1900, 2001 and those projected for 2100, respectively. At the end of the vegetative stage, leaves grown at 721 mumol mol(-1) still had significantly higher photosynthetic rates under the growth conditions, relative to the 285 or 382 mumol mol(-1) CO2 treatment. Significant differences in leaf morphology, particularly the number and length of leaf spines, were also observed, with spine number and length increasing as a function of [CO2]. At the end of the vegetative stage, at 54 d after sowing (DAS), whole plant biomass had increased by 69% for the elevated (720 mumol mol(-1)) CO2 treatment relative to current ambient CO2. However, biomass had increased by 126% for current ambient (380 mumol mol(-1)) relative to the concentration that existed in 1900 (285 mumol mol(-1)). Data from this study indicate that rising [CO2] may have already had a substantial influence on the vegetative development of Canada thistle, by significantly stimulating growth and photosynthesis, as well as altering leaf defenses to potential herbivory. Overall, these changes could have important implications for growth and control of this noxious weed as atmospheric CO2 continues to increase.
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