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The effects of elevated CO2 and light environment on growth and reproductive performance of four annual species

Published online by Cambridge University Press:  01 December 1999

MICHELLE R. LEISHMAN
Affiliation:
NERC Centre for Population Biology, Imperial College at Silwood Park, Ascot, Berks SL5 7PY, UK Present address: Department of Biological Sciences, Macquarie University, NSW 2109, Australia (tel +61 2 9850 8194; fax +61 2 9850 8245; e-mail mleishma@rna.bio.mq.edu.au).
KAREN J. SANBROOKE
Affiliation:
NERC Centre for Population Biology, Imperial College at Silwood Park, Ascot, Berks SL5 7PY, UK Present address: 3 Ivy Close, Uttoxeter, Staffordshire ST14 7PX, UK.
RICHARD M. WOODFIN
Affiliation:
NERC Centre for Population Biology, Imperial College at Silwood Park, Ascot, Berks SL5 7PY, UK Present address: Weycroft, Ashorne, Warwick, Warwickshire CV35 9DS, UK.
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Abstract

To predict changes in the range and density of plant species as a consequence of elevated atmospheric CO2, it is essential to characterize the effect of elevated CO2 on key components of plant life history stages such as rate of establishment and maturation of individuals, reproductive output and offspring fitness. We measured vegetative response, phenology, reproductive output and seed quality of four annual C3 plant species, grown from seed to senescence under ambient and elevated (ambient+200 ppm) CO2 and ambient and reduced (33% shade) light. Few previous studies have included all stages of a plant's life as well as characteristics of the next generation. Elevated CO2 had no effect on the vegetative attributes of Cardamine hirsuta, Spergula arvensis or Poa annua whereas Senecio vulgaris produced longer leaves and greater biomass. Both Senecio and Poa had faster maturation times. The vegetative response of Senecio was not translated into increased seed output, although seed mass and carbon[ratio ]nitrogen ratios were significantly increased. By contrast, Poa showed no vegetative response to elevated CO2, but had significantly increased seed production. Thus we found no evidence for a simple translation from vegetative response to elevated CO2 into reproductive response. There was also no consistent light-mediated response to elevated CO2 among the four species. However, the effect of reduced light (33% shade) on vegetative and reproductive output was consistent across the four species and significantly stronger than the effect of elevated CO2. On the basis of this glasshouse study, we predict that Poa would be most likely of the four species to show significant increases in population size and migration potential, as a result of increased reproductive output, under elevated atmospheric CO2. However, this response may be relatively small compared with variation in growth and reproduction as a result of environmental heterogeneity in resources such as light.

Type
Research Article
Copyright
© Trustees of the New Phytologist 1999

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