Foliar dehydration tolerance of twelve deciduous tree species

The potential for foliar dehydration tolerance and maximum capacity for osmotic adjustment were compared among 12 temperate, deciduous tree species, under standardized soil and atmospheric conditions. Dehydration tolerance was operationally defined as lethal leaf water potential (ψ): the ψ of the la...

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Bibliographic Details
Published in:Journal of experimental botany 1998-04, Vol.49 (321), p.753-759
Main Authors: Augé, Robert M., Duan, Xiangrong, Croker, Jennifer L., Witte, Willard T., Green, Craig D.
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Arid soils
Biological and medical sciences
Deciduous trees
Dehydration
Dehydration tolerance
Drought
Drying
Economic plant physiology
Forest soils
Fundamental and applied biological sciences. Psychology
Leaves
lethal leaf water potential
maples
oaks
Plant physiology and development
Plants
Plants and the Environment
Soil water
temperate trees
Trees
Water and solutes. Absorption, translocation and permeability
Water relations, transpiration, stomata
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Summary:The potential for foliar dehydration tolerance and maximum capacity for osmotic adjustment were compared among 12 temperate, deciduous tree species, under standardized soil and atmospheric conditions. Dehydration tolerance was operationally defined as lethal leaf water potential (ψ): the ψ of the last remaining leaves surviving a continuous, lethal soil drying episode. Nyssa sylvatica Marsh., and Liriodendron tulipifera L. were most sensitive to dehydration, having lethal leaf ψ of −2.04 and −2.38 MPa, respectively. Chionanthus virginicus L., Quercus prinus L., Acer saccharum Marsh., and Quercus acutissima Carruthers withstood the most dehydration, with leaves not dying until leaf ψ dropped to −5.63 MPa or below. Lethal leaf ψ (in MPa) of other, intermediate species were: Quercus rubra L. (−3.34), Oxydendrum arboreum (L.) D.C. (−3.98), Halesia carolina L. (−4.11), Acer rubrum L. (−4.43), Quercus alba L. (−4.60), and Corpus florida L. (−4.88). Decreasing lethal leaf ψ was significantly correlated with increasing capacity for osmotic adjustment. C. virginicus and Q. acutissima showed the most osmotic adjustment during the lethal soil drying episode, with osmotic potential at full turgor declining by 1.73 and 1.44 MPa, respectively. Other species having reductions in osmotic potential at full turgor exceeding 0.50 MPa were (in MPa) Q. prinus (0.89), A. saccharum (0.71), Q. alba (0.68), H. carolina (0.67), Q. rubra (0.60), and C. florida (0.52).
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/49.321.753