Three types of experiments indicate that the functional organization of the mountain birch may influence the ways in which the tree responds to simulated or natural herbivory. The first experiment showed that herbivory to both short and long shoot leaves affects plant development but, because growth largely proceeds by resources of the previous year, is manifested only in the year following the damage. The second experiment showed that even partial damage to a single long shoot leaf caused the axillary bud of that leaf to produce a shorter shoot the next year. Therefore, the value of a leaf depends also on the organ which it is subtending. In the third experiment we manipulated the apical dominance of shoots in ramets and caused improvement to leaf quality in extant shoots. Ramets within a tree responded individually, probably mediated by disturbance of the hormonal control because removal of apical buds elicited the response although removal of the same number of basal buds did not. Induced amelioration is a different response to induced resistance. The two responses are triggered by different cues and may occur in the same plant. By altering hormonal balance of shoots it is potentially possible for herbivores to induce amelioration of food quality. The ways in which herbivory is simulated may explain variability of results obtained when herbivory-induced responses in plants have been studied.
Over the past 50 years, human beings have influenced ecosystems more rapidly than at any similar time in human history, drastically altering ecosystem functioning. Along with ecosystem transformation and degradation, a number of studies have addressed the functioning, assessment and management of ecosystems.
The study was carried out to assess the effect of both short-and long-term copper exposure on five cladoceran species differing in body size and habitat, i.e. Daphnia magna, D. pulex, D. galeata, Bosmina longirostris, and Chydorus sphaericus. The species-specific 48 h EC,, values for fed neonates were used to determine the chronic exposure levels (52% and 65% of the EC,, values). The experiment was run at two food levels. Long-term copper exposure retarded growth in each of the species studied. However, the copper treatments did not affect the clutch sizes of the experimental animals. At a low food level, copper exposure increased mortality in every species studied. The intrinsic rate of increase, r, was reduced in the copper-exposed populations. The sensitivity to copper was higher in the small lake species, compared to D. magna and D. pulex that are commonly used in standard toxicity tests. Of the species studied, B. longirostris had the highest sensitivity to both acute and chronic copper stress. The different sensitivities of the species studied are discussed in an ecological context.
We examined the chemical responses of 10 silver birch (Betula pendula) clones to fertilization and defoliation in a field experiment. In defoliation, every second leaf was removed from the saplings. Three days later, two undamaged short-shoot leaves were collected, air-dried, and analyzed for condensed tannins and 34 nontannin phenolic compounds by high-performance liquid chromatography. The clones showed substantial variation in phenolic composition of the leaves and in chemical responses to fertilization and defoliation. A cluster analysis by UPGMA indicated that the phenolic profiles of birch leaves were affected more by genotype than fertilization or defoliation, and the clones could thus be distinguished from each other. In addition, on the basis of their overall phenolic composition, the clones were clustered loosely in three clone groups.The leaves of fertilized saplings contained lower levels of condensed tannins than controls, as predicted by carbon/nutrient balance (CNB) hypothesis. However, fertilization had no effect on the total amount of nontannin phenolics. The concentrations of (ϩ)catechin, 3,4Ј-dihydroxypropiophenone 3-glucoside (DHPPG), 3-cinnamoylquinic acids, and flavone aglycones were lower in fertilized saplings, whereas the opposite was true for 5-cinnamoylquinic acids and the total amount of flavonol glycosides. Although our results provide support for the CNB hypothesis, they also show that the accumulation of phenolic compounds in birch leaves is strongly coordinated. Different branches of the biosynthetic pathway of phenolic compounds may compete for substrates, and such internal metabolic trade-offs may explain the differential accumulation of the compounds. In fertilized saplings, the concentration of condensed tannins was also negatively correlated with the amount of triterpenoid resin droplets measured from the same saplings. We suggest that a linkage via malonyl-CoA between the biosynthetic routes to terpenoids and flavonoid derivatives, such as condensed tannins, may explain the different responses to fertilization reported for terpenoids and phenolics.Undamaged leaves of partially defoliated saplings contained more DHPPG and flavone aglycones and less cinnamic acid derivatives and (ϩ)-catechin than did leaves of control saplings. The induction of DHPPG and flavonoid aglycones was significantly and negatively correlated with the concentration of myricetin glycosides in fertilized saplings, which may indicate a trade-off between induced and constitutive defense. Moreover, in fertilized saplings, the three clone groups formed by UPGMA clustering differed significantly in the magnitude of induction of DHPPG and flavone aglycones. Different birch genotypes may thus have different modes of chemical defense, and the magnitude of chemical response of a genotype may partly depend on resource availability. In general, our results show that new insights in the theory of chemical defense can be gained by accomplishing studies on plant-herbivore interaction with high chemical resolution.
We examined the chemical responses of 10 silver birch (Betula pendula) clones to fertilization and defoliation in a field experiment. In defoliation, every second leaf was removed from the saplings. Three days later, two undamaged short-shoot leaves were collected, air-dried, and analyzed for condensed tannins and 34 nontannin phenolic compounds by high-performance liquid chromatography. The clones showed substantial variation in phenolic composition of the leaves and in chemical responses to fertilization and defoliation. A cluster analysis by UPGMA indicated that the phenolic profiles of birch leaves were affected more by genotype than fertilization or defoliation, and the clones could thus be distinguished from each other. In addition, on the basis of their overall phenolic composition, the clones were clustered loosely in three clone groups.The leaves of fertilized saplings contained lower levels of condensed tannins than controls, as predicted by carbon/nutrient balance (CNB) hypothesis. However, fertilization had no effect on the total amount of nontannin phenolics. The concentrations of (ϩ)catechin, 3,4Ј-dihydroxypropiophenone 3-glucoside (DHPPG), 3-cinnamoylquinic acids, and flavone aglycones were lower in fertilized saplings, whereas the opposite was true for 5-cinnamoylquinic acids and the total amount of flavonol glycosides. Although our results provide support for the CNB hypothesis, they also show that the accumulation of phenolic compounds in birch leaves is strongly coordinated. Different branches of the biosynthetic pathway of phenolic compounds may compete for substrates, and such internal metabolic trade-offs may explain the differential accumulation of the compounds. In fertilized saplings, the concentration of condensed tannins was also negatively correlated with the amount of triterpenoid resin droplets measured from the same saplings. We suggest that a linkage via malonyl-CoA between the biosynthetic routes to terpenoids and flavonoid derivatives, such as condensed tannins, may explain the different responses to fertilization reported for terpenoids and phenolics.Undamaged leaves of partially defoliated saplings contained more DHPPG and flavone aglycones and less cinnamic acid derivatives and (ϩ)-catechin than did leaves of control saplings. The induction of DHPPG and flavonoid aglycones was significantly and negatively correlated with the concentration of myricetin glycosides in fertilized saplings, which may indicate a trade-off between induced and constitutive defense. Moreover, in fertilized saplings, the three clone groups formed by UPGMA clustering differed significantly in the magnitude of induction of DHPPG and flavone aglycones. Different birch genotypes may thus have different modes of chemical defense, and the magnitude of chemical response of a genotype may partly depend on resource availability. In general, our results show that new insights in the theory of chemical defense can be gained by accomplishing studies on plant-herbivore interaction with high chemical resolution.
We investigated the effect of the cyanobacterium Microcystis aeruginosa (strain PCC7820) on the survival of juvenile and adult Daphnia pulex (Cladocera) in different food concentrations (the green alga Scenedesmus obtusiusculus). M. aeruginosa reduced survival in D. pulex. The peptide toxin microcystin‐LR is present in this strain of M. aeruginosa. The toxic effect decreased with increasing concentrations of S. obtusiusculus. Juvenile D. pulex generally died faster than adults at high concentrations of cyanobacteria. However, juvenile D. pulex did better than adults at the lowest concentration of S. obtusiusculus.
We studied both the cues for spine induction and costs of spinc production in Daphnia pulex (Cladocera). A significant number of D. pulex cultured individually in water treated with Chaoborus crystallinus larvae that were fed carried spines to the end of the fourth instar. Water treated with Chaoborus that were starved induced only minor morphological changes in D. pulex. Treatments with crushed D. pulex did not affect neck spine induction.Spine production carries a cost evident in the timing Iof first reproduction of D. pulex. Over half (58%) of D. pulex grown in culture conditions with a high density of Chaoborus postponed first reproduction from the fifth to the sixth instar. A decrease in growth of the spined morphs was attributable to an increase in duration of instars. Fitness effects persisted through the third reproductive instar. The intrinsic rate of increase was lowest in D. p&x populations cultured in Chaoborus-treated water. Treatments with crushed D. pulex did not affect growth but did significantly increase clutch size of D. pulex.
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