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Título
Patterns of leaf morphology and leaf N content in relation to winter temperatures in three evergreen tree species
Autor(es)
Palabras clave
Grupo de Investigación en Biodiversidad, Sistemática y Conservación de Plantas Vasculares y Hongos
Leaf density
Leaf mass per unit area
Leaf N content
Leaf thickness
Winter temperature gradient
Fecha de publicación
2011
Citación
Mediavilla, S.,et al (2012). Patterns of leaf morphology and leaf N content in relation to winter temperatures in three evergreen tree species. International journal of biometeorology, 56(5), 915-926.
Resumen
[EN] The competitive equilibrium between deciduous and perennial species in a new scenario of climate
change may depend closely on the productivity of
leaves along the different seasons of the year and on
the morphological and chemical adaptations required for
leaf survival during the different seasons. The aim of
the present work was to analyze such adaptations in the
leaves of three evergreen species (Quercus ilex, Q. suber
and Pinus pinaster) and their responses to between-site
differences in the intensity of winter harshness. We
explore the hypothesis that the harshness of winter would
contribute to enhancing the leaf traits that allow them to
persist under conditions of stress. The results revealed that
as winter harshness increases a decrease in leaf size occurs
in all three species, together with an increase in the
content of nitrogen per unit leaf area and a greater leaf
mass per unit area, which seems to be achieved only
through increased thickness, with no associated changes in
density. P. pinaster was the species with the most intense
response to the harshening of winter conditions, undergoing a more marked thickening of its needles than the two
Quercus species. Our findings thus suggest that lower
winter temperatures involve an increase in the cost of leaf
production of evergreen species, which must be taken into
account in the estimation of the final cost and benefit
balance of evergreens. Such cost increases would be more
pronounced for those species that, like P. pinaster, show a
stronger response to the winter cold.
URI
ISSN
0020-7128
DOI
10.1007/s00484-011-0498-2
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- BIOCONS. Artículos [42]