How Can Stomata Contribute to Salt Tolerance?

doi:10.1006/anbo.1996.0435

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Annals of Botany 80: 387-393, 1997
© 1997 Annals of Botany Company

How Can Stomata Contribute to Salt Tolerance?

MICHAEL F. ROBINSON, ANNE-ALIÉNOR VÉRY, DALE SANDERS and T. A. MANSFIELD

Division of Biological Sciences, Institute of Environmental and Biological Sciences, Lancaster University, Lancaster, LA1 4YQ, U.K. Department of Biology, University of York, P.O. Box 373, York, YO1 5YW, U.K.

Received December 20, 1996 ; Revised February 9, 1997 . Accepted April 1, 1997 .

Although some of the physiological mechanisms which contributeto salt tolerance in plants are known, there are still somemajor gaps in understanding and it remains impossible to providea satisfactory integrated picture for the plant as a whole.The operation of stomata in halophytes has received little attentioneven though all of the salt present in the shoot (apart fromthat taken in during submergence) is thought to be carried inthe transpiration stream. In non-halophytes, stomatal functionis damaged by sodium ions, and disruption of the normal regulationof transpiration should be seen as a possible contributor totheir inability to survive in salt-laden soils. The developmentof salt-tolerant cultivars of crops may require attention tothe need for appropriate adaptations to the ionic relationsof stomatal guard cells. Despite the small amount of evidenceavailable, it is possible to identify two alternative adaptationsthat occur in the stomata of halophytes: (1) the guard cellscan utilize Na⁺instead of K⁺to achieve their normal regulationof turgor; (2) the guard cells continue to use K⁺and are ableto limit their intake of Na⁺. The second adaptation is worthyof further exploration because it may provide a means for ‘topdown’ control of transpiration and, therefore, of theamount of salt delivered to the shoot. This mechanism may bevery important in some of the glandless halophytes, and it couldbe of particular interest as a potential contributor to thedevelopment of salt tolerance in crops.

Salt tolerance; stomata; transpiration; halophytes; ionic regulation; sodium ions

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