Leaf morphology varies predictably with altitude and leaf morphological features have been used to estimate average temperatures from fossil leaves. The altitude-leaf morphology relationship is confounded by the two processes of acclimation and adaptation, which reflect environmental and genetic influences respectively. Here we describe the relationship between altitude and leaf morphology for Southern Beech, Nothofagus cunninghamii. Cuttings from several trees from each of four altitudes were grown in a common-glasshouse experiment and leaf morphology related to both genotype and altitude of origin. Genotype had a significant impact on leaf morphology, but in the field there was also a significant, overriding effect of altitude. This altitude effect disappeared in glasshouse-grown plants for all morphological variables other than leaf thickness and specific leaf area. These results show that while leaf length, width and area are partially controlled by genetic factors, these variables are plastic and respond to environmental influences associated with a particular altitude. Thus, altitudinal trends in leaf size in N. cunninghamii are unlikely to be the result of adaptation.
History
Publication title
New Phytologist
Volume
161
Article number
2
Number
2
Pagination
585-594
ISSN
0028-646X
Publication status
Published
Rights statement
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