@article{HeisswolfPoethkeObermaier2006, author = {Heisswolf, Annette and Poethke, Hans-Joachim and Obermaier, Elisabeth}, title = {Multitrophic influences on oviposition site selection in a specialized leaf beetle at multiple spatial scales}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-47738}, year = {2006}, abstract = {Egg distribution in herbivorous beetles can be affected by bottom-up (host plant), and by top-down factors (parasitoids and predators), as well as by other habitat parameters. The importance of bottom-up and top-down effects may change with spatial scale. In this study, we investigated the influence of host plant factors and habitat structure on egg distribution in the leaf beetle Cassida canaliculata Laich. (Coleoptera: Chrysomelidae), a monophagous herbivore on Salvia pratensis L. (Lamiales: Lamiaceae), on four spatial scales: individual host plant, microhabitat, macrohabitat, and landscape. At the individual host plant scale we studied the correlation between egg clutch incidence and plant size and quality. On all other scales we analyzed the relationship between the egg clutch incidence of C. canaliculata and host plant percentage cover, host plant density, and the surrounding vegetation structure. Vegetation structure was examined as herbivores might escape egg parasitism by depositing their eggs on sites with vegetation factors unfavorable for host searching parasitoids. The probability that egg clutches of C. canaliculata were present increased with an increasing size, percentage cover, and density of the host plant on three of the four spatial scales: individual host plant, microhabitat, and macrohabitat. There was no correlation between vegetation structure and egg clutch occurrence or parasitism on any spatial scale. A high percentage of egg clutches (38-56\%) was parasitized by Foersterella reptans Nees (Hymenoptera: Tetracampidae), the only egg parasitoid, but there was no relationship between egg parasitism and the spatial distribution of egg clutches of C. canaliculata on any of the spatial scales investigated. However, we also discuss results from a further study, which revealed top-down effects on the larval stage.}, subject = {Eiablage}, language = {en} } @article{HeisswolfReichmannPoethkeetal.2009, author = {Heisswolf, Annette and Reichmann, Stefanie and Poethke, Hans-Joachim and Schr{\"o}der, Boris and Obermaier, Elisabeth}, title = {Habitat quality matters for the distribution of an endangered leaf beetle and its egg parasitoid in a fragmented landscape}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-47740}, year = {2009}, abstract = {Fragmentation, deterioration, and loss of habitat patches threaten the survival of many insect species. Depending on their trophic level, species may be differently affected by these factors. However, studies investigating more than one trophic level on a landscape scale are still rare. In the present study we analyzed the effects of habitat size, isolation, and quality for the occurrence and population density of the endangered leaf beetle Cassida canaliculata Laich. (Coleoptera: Chrysomelidae) and its egg parasitoid, the hymenopteran wasp Foersterella reptans Nees (Hymenoptera: Tetracampidae). C. canaliculata is strictly monophagous on meadow sage (Salvia pratensis), while F. reptans can also parasitize other hosts. Both size and isolation of habitat patches strongly determined the occurrence of the beetle. However, population density increased to a much greater extent with increasing host plant density ( = habitat quality) than with habitat size. The occurrence probability of the egg parasitoid increased with increasing population density of C. canaliculata. In conclusion, although maintaining large, well-connected patches with high host plant density is surely the major conservation goal for the specialized herbivore C. canaliculata, also small patches with high host plant densities can support viable populations and should thus be conserved. The less specialized parasitoid F. reptans is more likely to be found on patches with high beetle density, while patch size and isolation seem to be less important.}, subject = {Fragmentierung}, language = {en} } @phdthesis{Reifenrath2007, author = {Reifenrath, Kerstin}, title = {Effects of variable host plant quality on the oligophagous leaf beetle Phaedon cochleariae: Performance, host plant recognition and feeding stimulation}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-23459}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2007}, abstract = {Abiotic environmental stress, as evoked by short-term exposure of greenhousegrown plants to ambient ultraviolet radiation (UV), induces chemical and morphological adaptations of plants. Responses depend on the strength of stress and differ between species and tissues of variable age. In two Brassicaceae, Sinapis alba and Nasturtium officinale, stress responses towards short-term exposure to ambient radiation including or excluding UV reveal a high phenotypic plasticity, with strong differences their chemical composition compared to plants that remained in the greenhouse. The most pronounced defensive response against UV, the accumulation of flavonoid pigments, was strongest in young UV-exposed leaves, with an increase of the more effectice flavonol quercetin on the expense of less effectice kaempferol. Glucosinolates and myrosinase enzymes showed highly species-specific responses to UV-stress. Feeding behaviour and larval performance of the oligophagous Brassicaceae specialist, Phaedon cochleariae (Chrysomelidae; Coleoptera) were poorly affected by these differently UV-exposed host plants. Effects of plant stress on larval development were restricted to a minor variation in body mass due to variable food conversion of certain larval instars, which were compensated until pupation. Moreover, larval developmental times were unaffected by UV-exposure, but varied between species and leaves of different age. For P. cochleariae, this lack of variation in larval and pupal development towards UV-altered phytochemistry may suggest a strong genetic fixation of life history traits. In combination, the high plasticity towards variable food quality may correspond to the beetles's specialisation on a narrow range of chemically highly variable host plants. Apart from being involved in plant defence against generalist herbivores, glucosinolates may also act as recognition cues and feeding stimulants for specialist insects. In earlier studies, glucosinolates were assumed to stimulate feeding by P. cochleariae, and they were suggested to be present on outermost leaf surfaces. However, since these findings were based on crude extraction methods, the presence of feeding stimulants in epicuticular waxes of Brassicaceae was re-investigated. In our study, glucosinolates were not detectable in mechanically removed waxes in Brassica napus and N. officinale, whereas substrate concentrations in solvent leaf extracts corresponded to densities and closure of leaf surface stomata. Therefore, glucosinolates that originate from the mesophyll may have been washed out through open stomata. Neither leaf waxes, nor leaf waxes combined with sinigrin or pure sinigrin evoked feeding. Moreover, in choice tests, these leaf beetles clearly preferred to feed on de-waxed surfaces. Finally, the presence of feeding stimulants in epicuticular waxes is highly unlikely considering the physico-chemical properties of the plant cuticle. The lack of stimulants on the outermost surface corresponds to the plant's perspective, which should avoid easily accessible feeding stimulants. Nevertheless, the role of glucosinolates for feeding stimulation of P. cochleariae remained unclear. Therefore, S. alba leaf extracts of different polarities were tested in bioassays in order to identify which chemical leaf compounds act as stimulants. In bioassay-guided fractionations of methanol extracts by semi-preparative HPLC, two distinct fractions with stimulating activity were detected, whereas other fractions were not effective. Flavonoids were identified as main component in one stimulating fractions, the second fraction mainly contained glucosinolates, including sinalbin. The combination of both fractions was significantly more stimulating than each individual fraction, indicating additive effects of at least one compound of each fraction. However, since the combined fractions were less effective compared to the original extracts, other compounds may additionally be involved in the complex composition of leaf compounds acting as feeding stimulants for P. cochleariae. Finally, fractionated extracts of UV altered plants were used to test whether the strength of feeding responses depend on different ratios of glucosinolates and flavonoids. However, since the feeding behavior of this leaf beetle was not affected, such quantitative variations were concluded to be less important. The initiation of feeding behaviour may solely depend on the presence of stimulating compounds.}, subject = {Meerrettichk{\"a}fer}, language = {en} } @article{RostasBlassmann2009, author = {Rost{\´a}s, Michael and Blassmann, Katrin}, title = {Insects had it first: surfactants as a defence against predators}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-35031}, year = {2009}, abstract = {Insects have evolved an astonishing array of defences to ward off enemies. Well-known and widespread is the regurgitation of oral secretions (OS), fluids that repel attacking predators. In herbivores, the effectiveness of OS has been ascribed so far to the presence of deterrent secondary metabolites sequestered from the host plant. This notion implies, however, that generalists experience less protection on plants with low amounts of secondary metabolites or with compounds ineffective against potential enemies. Resolving the dilemma, we describe a novel defence mechanism that is independent of deterrents as it relies on the OS' intrinsic detergent properties. The OS of Spodoptera exigua (and other species) was found to be highly amphiphilic and well capable of wetting the hydrophobic cuticle of predatory ants. As a result, affected ants stopped attacking and engaged in extensive cleansing. The presence of surfactants was sufficient to explain the defensive character of herbivore OS. We hypothesize that detergency is a common but unrecognised mode of defence which provides a base level of protection that may or may not be further enhanced by plant-derived deterrents. Our study also proves that insects 'invented' the use of defensive surfactants long before modern agriculture had started applying them as insecticides.}, subject = {Pflanzenfressende Insekten}, language = {en} } @article{RostasEggert2008, author = {Rost{\´a}s, Michael and Eggert, Katharina}, title = {Ontogenetic and spatio-temporal patterns of induced volatiles in Glycine max in the light of the optimal defence hypothesis}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-26991}, year = {2008}, abstract = {Plants attacked by herbivorous insects emit a blend of volatile compounds that serve as important host location cues for parasitoid wasps. Variability in the released blend may exist on the whole-plant and within-plant level and can affect the foraging efficiency of parasitoids. We comprehensively assessed the kinetics of herbivore-induced volatiles in soybean in the context of growth stage, plant organ, leaf age, and direction of signal transport. The observed patterns were used to test the predictions of the optimal defence hypothesis (OD). We found that plants in the vegetative stage emitted 10-fold more volatiles per biomass than reproductive plants and young leaves emitted >2.6 times more volatiles than old leaves. Systemic induction in single leaves was stronger and faster by one day in acropetal than in basipetal direction while no systemic induction was found in pods. Herbivore-damaged leaves had a 200-fold higher release rate than pods. To some extent these findings support the OD: i) indirect defence levels were increased in response to herbivory and ii) young leaves, which are more valuable, emitted more volatiles. However, the fact that reproductive structures emitted no constitutive or very few inducible volatiles is in seeming contrast to the OD predictions. We argue that in case of volatile emission the OD can only partially explain the patterns of defence allocation due to the peculiarity that volatiles act as signals not as toxins or repellents.}, subject = {Chemische {\"O}kologie}, language = {en} }