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Carbon Dioxide Exchange in Lichens: Relationship Between the Diffusive Resistance of Carbon Dioxide and Water Vapour

Published online by Cambridge University Press:  28 March 2007

T. G. A. Green
Affiliation:
Biological Sciences, Waikato University, Private Bag, Hamilton, New Zealand.
W. P. Snelgar
Affiliation:
Biological Sciences, Waikato University, Private Bag, Hamilton, New Zealand.

Abstract

Gaseous diffusion resistances for carbon dioxide and water vapour, thallus water content and thallus water potential were experimentally determined on species of the Stictaceae. The diffusion resistance to water loss was high only at low water contents and correlated closely with thallus water potential. Carbon dioxide diffusion resistances, however, were high at both low and high water contents and, even at medium water contents, were still an order of magnitude greater than the water resistance. These results indicate that carbon dioxide and water vapour exchange occur by different pathways in these lichens. Consequently it is suggested that the lichens have structural adaptations which separate the functions of water uptake, water storage and carbon dioxide exchange.

Type
Research Article
Copyright
Copyright © British Lichen Society 1982

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