Since stress ran be defined as anything whirh reduces growth or performanre, it follows that, if appropriate genetic variability is present, classical evolutionary changes in populations arc to be expected in any situation where a consistent stress is orcurring. There is now considerable rvidcncc for such evolution, producing ronstitutive adaptations in plants in response to stress, whirh arr sprrific to the stress ronrrrned. Stress may however operate in a temporary or fluctuating manner. In thew situations, facultativr adaptations, able to be produced within a single genotype through phenotypic plasticity, will be more appropriate. Very different specific phenotypic response systems, both morphologiral or physiologiral, can be found in plants in relation to different flurtuating stresses, operating over a wide range of time scales. These response systems are under normal genetic control and appear to be products of normal evolutionary processes. They can however havr quitr romplex features, analogous to the behavioural response systems in animals.
It has been suggested that submerged aquatic plants can influence the nutritional quality of the periphyton which grows on their surfaces, making it more nutritious for grazing invertebrates, particularly snails. In return, these grazers might preferentially feed on the periphyton and clear the plants of a potential competitor, with the plants and grazers both gaining from this mutualistic relationship. A highly replicated experiment was conducted, in which the nature of the plant (isoetid and elodeid types compared with similar-shaped inert substrata), the nutrient loading, and the influence of periphyton grazers (the bladder snail, Physa fontinalis) of similar size and history were controlled. Plant growth and survival significantly increased in the presence of the periphyton grazer. Whilst the presence of the grazers had the largest influence on periphyton abundance, nutrient availability and plant type also had effects. Plant type had little influence on the nutritional quality of the periphyton measured as carbohydrate, protein and C:N. Effects of treatment on snail growth, and the timing and extent of snail reproduction disappeared when they were compared with the quantity of periphyton available. There was no evidence of enhanced grazer success in the presence of the live plants compared with inert substrata. Although submerged plants affect the growth and reproduction of the grazers which feed on their surfaces, through differences in the amount of periphyton which grows there, we found no evidence that they manipulate the periphyton to encourage such grazers.
The anatomy of diseased stems from brooms induced on cocoa (Theobroma cacao) by the fungus Crinipellis perniciosa was examined using the scanning electron microscope, and the amounts of selected cytokinins were measured by immunoassay.
Although the diseased stems were wider in diameter with a lower dry weight:fresh weight ratio than stems of healthy plants, the overall internal organization of tissues remained unchanged, and all the cell types were present. However, the vascular tissue was less differentiated in diseased stems since xylem vessels were absent and the ratio of phloem fibres and sieve tubes to phloem parenchyma was reduced. Cell sizes in diseased stems were larger for all tissues but cell numbers were unchanged except for xylem where fewer cells were seen.
Cytokinins (zeatin, zeatin riboside, isopentenyl adenine and isopentenyl adenosine) were measured in healthy plants and diseased stems at specific stages of disease development. Of these cytokinins only zeatin riboside was present in significantly greater amounts in diseased tissue. The likely role of plant growth regulator balance in stem enlargement and proliferation in witches' broom disease of cocoa is discussed.
In laboratory experiments, the growth characteristics of the submerged species Elodea nuttallii (Planch.) St. John and Potamogeton crispus L. were assessed in the presence and absence of floating mats of Azolla filiculoides Lam. and Lemna minuta Kunth. Light penetration and the development of pH and dissolved oxygen differences were monitored. The growth of P. crispus was suppressed much more than that of E. nuttallii and the effects of A. filiculoides were more severe than those of L. minuta. Findings are related to possible field responses of submerged plants under floating mats, especially their abilities to compensate for the potential suppressive effects of floating mats under natural conditions.
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