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Evolution of leaf-form in land plants linked to atmospheric CO2 decline in the Late Palaeozoic era

D. J. Beerling (), C. P. Osborne and W. G. Chaloner
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D. J. Beerling: University of Sheffield
C. P. Osborne: University of Sheffield
W. G. Chaloner: Royal Holloway, University of London

Nature, 2001, vol. 410, issue 6826, 352-354

Abstract: Abstract The widespread appearance of megaphyll leaves, with their branched veins and planate form, did not occur until the close of the Devonian period at about 360 Myr ago. This happened about 40 Myr after simple leafless vascular plants first colonized the land in the Late Silurian/Early Devonian1,2, but the reason for the slow emergence of this common feature of present-day plants is presently unresolved. Here we show, in a series of quantitative analyses using fossil leaf characters and biophysical principles, that the delay was causally linked with a 90% drop in atmospheric p CO 2 during the Late Palaeozoic era3,4. In contrast to simulations for a typical Early Devonian land plant, possessing few stomata5 on leafless stems, those for a planate leaf with the same stomatal characteristics indicate that it would have suffered lethal overheating, because of greater interception of solar energy and low transpiration. When planate leaves first appeared in the Late Devonian and subsequently diversified in the Carboniferous period, they possessed substantially higher stomatal densities6. This observation is consistent with the effects of the p CO 2 on stomatal development7 and suggests that the evolution of planate leaves could only have occurred after an increase in stomatal density, allowing higher transpiration rates that were sufficient to maintain cool and viable leaf temperatures.

Date: 2001
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DOI: 10.1038/35066546

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