Plant Adaptation in the
By Dr. Ori Fragman-Sapir
Head Scientist, the Jerusalem Botanical Gardens
Translation by Julie Baretz
More than half of
The
desert in
It
is difficult to generalize regarding plant adaptation to the extreme desert;
different plants make different adjustments.
The
important limiting factor in the desert is the quantity of water available to
the plant. In order to survive in the
extreme desert, a plant must, on one hand, utilize the little rainwater
available to it, and on the other hand, survive the very prolonged dry
periods. The lack of rainwater is not
the only problem; the rainfall does not arrive regularly. If the average annual rainfall in a
particular place in the southern
An
additional problematic factor in the extreme desert is the salinity level – the
scant rainfall is absorbed by the upper soil layer and evaporates very rapidly,
so that more and more minerals build up after each rainfall and the soil grows
saltier.
One
of the more common adaptations that characterize most desert plants is low
plant surface area, with mainly small leaves or no leaves at all. Limited surface area results in less water
loss for the plant.
Retama
raetam is the plant best know for this
mechanism.
Retamais a desert shrub with small leaves, blooming in early winter, but the
leaves fall off very rapidly and the plant remains leafless most of the
year. Photosynthesis is carried out by
its green stems. In addition to a lack
of leaves,
Retama’s stomata are sunken into
canals so that water is saved from evaporation.
The phenomena of lack of leaves and sunken stomata is
called spartioism.
Other spartioid plants in
Retama
raetam
Polygala
negevensis
Kickxia spartioides Gypsophila arabica
Another
important adaptation is being succulent.
The most famous succulents in the world are, of course, cactuses but
these are American plants and not wild Israeli plants (with the exception of
Opuntia, naturalyzing
after planted for its edible fruit and as a natural fence). Some of the Israeli succulents are: Caralluma
sinaica
, a plant with fat finger-like stems that grows along the
Caralluma
europaea
Anabasis atriculata
Zypophyllum
dumosum
Suaeda
fruticosa
Other
plants have developed different adaptations for conserving fluids. Hair growth is such an adaptation. The layer of hairs cools the plant, or at
least prevents its temperature from rising.
It also provides volume that insulates the plant body from its
surroundings, so the plant is less influenced by the outside temperature. Usually the hairs of desert plants are a
light-colored, whitish-gray. They
brighten the plant. Light colors reflect
most of the sun’s radiation so the plant is heated less and loses less
water. Examples of hair-covered plants
in our extreme desert are
Salvia lanigera;
Astragalus
sparsus (a
rare plant that creeps over the ground on rocky slopes of the south eastern
Species
of Anabasis and Zygophyllumhave
an additional adaptation: their green organs are divided into units. In times of drought a certain number of the
units dry up and fall off so that the remainder of the plant is protected and
does not wilt completely. In
Ababasis
, the stem is divided into joints, a phenomenon
that gives the plant its Hebrew name. In
Zygophyllumthe leaf is divided into a petiole on which sit two
leaflets, each of these three units can separate and fall off.
In
addition to the morphological-physiological adaptations, an additional
important adaptation of extreme desert plants is full or partial dormancy
during the dry seasons. Annual plants
are the big “specialists”
in this case – they germinate with the rain’s arrival, bloom and the fruits
ripen rapidly and remain as dry and dormant seeds during the dry period, which
may last a year or a few years. This
phenomenon is notable along the