Abstract
Drought stress is known to limit plant performance
in Mediterranean-type ecosystems. We have
investigated the dynamics of the hydraulics, gas exchange
and morphology of six co-existing Mediterranean woody
species growing under natural field conditions during a
drought that continued during the entire summer. Based on
the observed minimum leaf water potentials, our results
suggest that the six co-existing species cover a range of
plant hydraulic strategies, from isohydric to anisohydric.
These differences are remarkable since the selected individuals
grow within several meters of each other, sharing
the same environment. Surprisingly, whatever the leaf
water potentials were at the end of the dry period, stomatal
conductance, photosynthesis and transpiration rates were
relatively similar and low across species. This result contradicts
the classic view that anisohydric species are able to
maintain gas exchange for longer periods of time during
drought stress. None of the plants showed the expected
structural acclimation response to the increasing drought
(reduction of leaf-to-sapwood area ratio), thereby rejecting
the functional equilibrium hypothesis for our study system.
Instead, three of the six species increased photosynthetic
area at the branch level. The observed dissimilar patterns of
gas exchange, hydraulics and morphology across species
seem to be equally successful given that photosynthesis at
the leaf level was maintained at similar rates over the
whole dry period.
Original language | English |
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Pages (from-to) | 45-57 |
Journal | Oecologia |
Volume | 166 |
Issue number | 1 |
DOIs | |
Publication status | Published - 2011 |
Keywords
- nighttime transpiration
- xylem cavitation
- induced embolism
- stomatal control
- quercus-ilex
- scots pine
- plants
- conductance
- potentials
- seedlings