Agriculture Reference
In-Depth Information
experiments suggested that seed germination rate, root regeneration abil-
ity and plant growth rate were all significantly increased when plants were
grown under a resonant rhythmical light regime (Shabala et al. 1989; Sha-
bala 1989). It is also worth mentioning that a 2.5-fold increase in
31
Puptake
by plant roots was observed under these conditions (Shabala 1989). These
findings may eventually bring studies on plant oscillations from a category
of being merely “curious phenomena” to an important practical aspect of
controlling plant growth and development.
18.4
Conclusions and Future Perspectives
It is obvious that ultradian oscillations in plants are more widespread than
might appear at first glance. Being governed by non-linear mechanisms,
virtually every physiological parameter in a plant may (and
should
)display
oscillatory behaviour under certain conditions. The evidence for important
physiological roles of such oscillations is beginning to emerge. Future re-
search should be focused on molecular and cellular aspects of mechanisms,
underlying such oscillatory behaviour at various levels of plant structural
organisation, as well as on more direct evidence for the physiological role of
oscillations in plant growth, development and adaptive responses to the en-
vironment. As for now, despite the phenomena being known for hundreds
of years, we have only examined the tip of the iceberg.
References
Anderson-Bernadas C, Cornelissen G, Turner CM, Koukkari WL (1997) Rhythmic nature of
thigmomorphogenesis and thermal stress of
Phaseolus vulgaris
Lshoots.JPlantPhysiol
151:575-580
Antkowiak B, Engelmann W (1995) Oscillations of apoplasmic K
+
and H
+
activities in
Desmodium motorium
(Houtt.) Merril. pulvini in relation to the membrane potential of
motor cells and leaflet movements. Planta 196:350-356
Ashoff J (1981) A survey on biological rhythms. Hand Behav Neurobiol 3-10
Barlow PW, Parker JS, Brain P (1994) Oscillations of axial plant organs. Adv Space Res
14:149-158
Barrio RA, Zhang LM, Maini PK (1997) Hierarchically coupled ultradian oscillators gener-
ating robust circadian rhythms. Bull Math Biol 59:517-532
Barrs HD (1971) Cyclic variations in stomatal aperture, transpiration, and leaf water po-
tential under constant environmental conditions. The phenomenon. Annu Rev Plant
Physiol 22:223-236
Blatt MR (2000) Cellular signalling and volume control in stomatal movements in plants.
Annu Rev Cell Dev Biol 16:221-241
Buer CS, Masle J, Wasteneys GO (2000) Growth conditions modulate root-wave phenotypes
in
Arabidopsis
. Plant Cell Physiol 41:1164-1170
Search WWH ::
Custom Search