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1.
In laboratory feeding choice experiments several species of insects and molluscs eat acyanogenic Lotus corniculatus leaves or petals in preference to cyanogenic alternatives. These species can be characterized as generalist feeders for which L. corniculatus forms only an occasional dietary item for any particular individual. Some of the insects that were found to display selective eating were maintained on exclusive diets of either cyanogenic or acyanogenic L. corniculatus . Survival times varied considerably between species, but there was no evidence that mortalities were higher amongst the groups exposed to cyanide. These results suggest that the major role of cyanogenesis may be as a feeding inhibitor, not as a toxin.  相似文献   

2.
Abstract. 1. Ants (Myrmica spp. and Formica lemani) visiting the extrafloral nectaries of bracken, Pteridium aquilinum, imposed heavy mortality on caterpillars of a novel moth species experimentally introduced onto bracken fronds. However, the exclusion of ants from bracken fronds had no significant effect on adapted bracken-feeding herbivores in Britain.
2. The feeding stages of British bracken-feeding insects are immune to, or can largely avoid, predation by ants in a variety of ways. Gall formers and miners cannot be attacked by these ants. Two other species hide, one inside tied leaves, the other in a mass of 'spittle'. Another group of species jumps away from, or falls off the plant when touched by ants. Sawfly caterpillars in the genera Strongylogaster, Aneugmenus and Tenthredo have viscous, distasteful haemolymph that repels ants.
3. No species of bracken herbivore has an absolute temporal refuge from ants; during their development they all overlap with ants to some degree.
4. Ant predation appears to have played a significant role in determining the contemporary structure of British bracken-feeding insect communities. Distasteful haemolymph in sawfly caterpillars may have evolved in response to selection from ant predation. Other species may fortuitously possess characteristics, evolved in response to a variety of selective forces, that also reduce the impact of ants; without such characteristics, however, we postulate that they would be unable to live on this plant. An absence of external, foliage feeding Lepidoptera early in the spring, a high proportion of sawfly species, and a high proportion of gall-formers and miners may all be characteristics of the bracken herbivore community which have been influenced by ant predation.  相似文献   

3.
Cyanogenic glucosides (CNglcs) are widespread plant defence compounds releasing toxic hydrogen cyanide when hydrolysed by specific β-glucosidases after plant tissue damage. In contrast to specialist herbivores that have mechanisms to avoid toxicity from CNglcs, it is generally assumed that non-adapted herbivores are negatively affected by CNglcs. Recent evidence, however, implies that the defence potential of CNglcs towards herbivores may not be as effective as previously anticipated. Here, performance, metabolism and excretion products of insects not adapted to CNglcs were analysed, including species with different degrees of dietary specialisation (generalists, specialists) and different feeding modes (leaf-snipping lepidopterans, piercing-sucking aphids). Insects were reared either on cyanogenic or acyanogenic plants or on an artificial cyanogenic diet. Lepidopteran generalists (Spodoptera littoralis, Spodoptera exigua, Mamestra brassicae) were compared to lepidopteran glucosinolate-specialists (Pieris rapae, Pieris brassicae, Plutella xylostella), and a generalist aphid (Myzus persicae) was compared to an aphid glucosinolate-specialist (Lipaphis erysimi). All insects were tolerant to cyanogenic plants; in lepidopterans tolerance was mainly due to excretion of intact CNglcs. The two Pieris species furthermore metabolized aromatic CNglcs to amino acid conjugates (Cys, Gly, Ser) and derivatives of these, which is similar to the metabolism of benzylglucosinolates in these species. Aphid species avoided uptake of CNglcs during feeding. Our results imply that non-adapted insects tolerate plant CNglcs either by keeping them intact for excretion, metabolizing them, or avoiding uptake.  相似文献   

4.
Selective grazing of acyanogenic and cyanogenic white cloverwas investigated by a field experiment using biocides to maintain(a) mollusc only, (b) insect only, (c) both mollusc and insect,and (d) neither mollusc nor insect, grazing regimes. Molluscsfed more on acyanogenic clover throughout the year, whereasinsects damaged more acyanogenic plants in late summer, butmore cyanogenic plants in spring. When both molluscs and insectswere present, the net effect was greater damage to acyanogenicplants. However, in situations where insects are more abundantthan molluscs there might be a net selection against cyanogenicclover. (Received 16 December 1988; accepted 22 February 1989)  相似文献   

5.
Chemotaxonomy and phytochemical ecology of bracken   总被引:3,自引:0,他引:3  
Variations in flavonoids extracted from fronds suggest that Pteridium aquilinum (L.) Kuhn is a monospecific genus. A wide range of secondary plant substances also occur in bracken including sesquiterpenoids, echydones, cyanogenic glycosides, tannins and phenolic acids.  相似文献   

6.
A survey of 682 accessions including 550 species and most genera of the Flacourtiaceae for cyclopentenoid cyanogenic glycosides showed the presence of only three compounds. These were found only in the tribes Berberidopsideae, Oncobeae, Pangieae and Banaraeae. The family is thus divided into cyanogenic and acyanogenic members. The former group possess compounds of similar structure to those of the Passifloraceae and have been considered primitive morphologically. It seems improbable that the Passifloraceae are derived from the acyanogenic, and putatively evolutionarily more advanced, group of Flacourtiaceae.  相似文献   

7.
Abstract. 1. Seventeen species of phytophagous arthropods (sixteen insects and one gall-forming eryiophyid mite) were found feeding on the above-ground parts of bracken ( Pteridium aquilinum (L.) Khun.) in surveys throughout the geographic range of the plant in South Africa. A further thirteen species of insects may possibly feed on the plant in this region.
2. Given the area over which bracken grows in South Africa, this is very close to the number of species expected on the plant, based on species-area calculations and comparisons with bracken in other geographic regions.
3. The species-richness of bracken-feeding arthropods in local communities reflects the size of the regional pool of species in different geographic areas. Local richness in South Africa is intermediate between that in south-western U.S.A. and Britain.
4. In both Britain and South Africa there is a weak tendency (0.05 < P < 0.07) for larger local patches of bracken to support more species of phytophages than small patches, with similar very shallow slopes (0.083 and 0.086) in plots of log species versus log area on both continents.
5. The taxonomic composition of bracken-feeding arthropods in South Africa is markedly different from that in other pants of the world, suggesting very different and largely independent evolutionary histories in different regions.
6. There is no sign of convergence in the feeding niches of communities of bracken-feeding arthropods in different parts of the world, and the pattern of feeding relationships is very different in South Africa to patterns observed elsewhere. Conspicuous vacant niches (ways of exploiting the plant that are observed in other geographic regions) are easily identified in the South African communities.  相似文献   

8.
Goverde M  Bazin A  Kéry M  Shykoff JA  Erhardt A 《Oecologia》2008,157(3):409-418
Cyanogenesis is a widespread chemical defence mechanism in plants against herbivory. However, some specialised herbivores overcome this protection by different behavioural or metabolic mechanisms. In the present study, we investigated the effect of presence or absence of cyanogenic glycosides in birdsfoot trefoil (Lotus corniculatus, Fabaceae) on oviposition behaviour, larval preference, larval development, adult weight and nectar preference of the common blue butterfly (Polyommatus icarus, Lycaenidae). For oviposition behaviour there was a female-specific reaction to cyanogenic glycoside content; i.e. some females preferred to oviposit on cyanogenic over acyanogenic plants, while other females behaved in the opposite way. Freshly hatched larvae did not discriminate between the two plant morphs. Since the two plant morphs differed not only in their content of cyanogenic glycoside, but also in N and water content, we expected these differences to affect larval growth. Contrary to our expectations, larvae feeding on cyanogenic plants showed a faster development and stronger weight gain than larvae feeding on acyanogenic plants. Furthermore, female genotype affected development time, larval and pupal weight of the common blue butterfly. However, most effects detected in the larval phase disappeared for adult weight, indicating compensatory feeding of larvae. Adult butterflies reared on the two cyanogenic glycoside plant morphs did not differ in their nectar preference. But a gender-specific effect was found, where females preferred amino acid-rich nectar while males did not discriminate between the two nectar mimics. The presented results indicate that larvae of the common blue butterfly can metabolise the surplus of N in cyanogenic plants for growth. Additionally, the female-specific behaviour to oviposit preferably on cyanogenic or acyanogenic plant morphs and the female-genotype-specific responses in life history traits indicate the genetic flexibility of this butterfly species and its potential for local adaptation.  相似文献   

9.
Summary Collections of the slug Deroceras reticulatum were made from grassland sites containing contrasting frequencies of the cyanogenic morph of white clover, Trifolium repens. In choice chamber experiments, slugs obtained from sites with a low frequency of cyanogenic clover showed a significantly greater degree of selective eating of acyanogenic morphs than slugs taken from a site containing a high frequency of cyanogenic clover. Differences in selectivity between populations were caused both by differences in the rate of initiation of feeding on cyanogenic morphs, and by differences in the extent of damage once feeding had been initiated. The implications of these results for the cyanogenic polymorphism of T. repens are discussed.  相似文献   

10.
Fern-feeding insects in Britain are mainly found on mature fronds in late summer. Six fern species (Dtyopteris filix-mas, D. dilatata, D. borreri, Phyllitis scolopendrium, Polyslkhum setiferum and Polypodium vulgare) were analysed for fibre, lignin, cellulose, tannins, cyanogenesis and thiaminase activity in an attempt to determine the biochemical basis for this seasonal pattern of attack. A bioassay was also carried out, using frond material incorporated in the diet of Spodoptera littoralis, to determine the effects of seasonal changes in fern toxins on a non-adapted, insect herbivore. The young fronds of all six species had a high protein content and low fibre-lignocellulose; protein levels decreased and cell wall materials increased as the fronds matured. Tannin concentrations and thiaminase activity showed a less consistent seasonal pattern. Tannins were present in the highest concentration in the young fronds of D. borreri, Polystichum and Polypodium and decreased with season; D. dilatata, Polystichum and Polypodium showed a similar pattern of thiaminase activity. The other species showed no strong seasonality in the levels of either tannins or thiaminase. No cyanogenic activity was detected in any of the fern species. Frond material from all six species decreased survivorship and growth rates of Spodoptera larvae. Larval performance and growth on diets containing fern material from young immature fronds was generally poorer than on diets containing material from mature fronds, collected later in the season. Neither tannin concentrations nor thiaminase activity levels closely corresponded to the observed interspecific and seasonal patterns of larval development and mortality, and other toxins must be involved. It is concluded that ferns are highly toxic to non-adapted herbivorous insects but the effects on adapted species are unknown. The restricted seasonal occurrence of a small number of insect species exhibiting specialized feeding habits suggests, however, that biochemical properties of the ferns determine this pattern of attack and limit the number of species which are able to exploit ferns as food resources.  相似文献   

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