15 research outputs found
Encarsia berlesei (Hymenoptera: Aphelinidae) een voor Nederland nieuwe parasitoĂŻd van de schildluis Pseudaulacaspis pentagona (Hemiptera: Diaspididae)
In 2009 werden zware aantastingen van de uit Oost-Azië afkomstige schildluis Pseudaulacaspis pentagona bij honingbomen in Oss waargenomen. In de negentiende eeuw is de schildluis per ongeluk in Italië geïntroduceerd en is inmiddels in meerdere Europese landen te vinden, en zelfs in vrijwel alle warme gebieden ter wereld. Deze soort vormde indertijd een grote bedreiging voor de teelt van ondermeer perzik. Daarom werd de uit Azië afkomstige parasitoïd Encarsia berlesei in enkele Zuid-Europese landen geïntroduceerd voor biologische bestrijding in perzikboomgaarden. De schildluizen in Oss bleken te zijn geparasiteerd door E. berlesei en het is de eerste waarneming van deze parasitoïd in Nederland
The phenology and population dynamics of Culicoides spp. in different ecosystems in the Netherlands
The Netherlands has enjoyed a relatively free state of vector-borne diseases of economic importance for more than one century. Emerging infectious diseases may change this situation, threatening the health of humans, domestic livestock and wildlife. In order to be prepared for the potential outbreak of vector-borne diseases, a study was undertaken to investigate the distribution and seasonal dynamics of candidate vectors of infectious diseases with emphasis on bluetongue vectors (Culicoides spp.). The study focused primarily on the relationship between characteristic ecosystems suitable for bluetongue vectors and climate, as well as on the phenology and population dynamics of these vectors. Twelve locations were selected, distributed over four distinct habitats: a wetland area, three riverine systems, four peat land areas and four livestock farms. Culicoides populations were sampled continuously using CO2-baited counterflow traps from July 2005 until August 2006, with an interruption from November 2005 to March 2006. All vectors were identified to species level. Meteorological and environmental data were collected at each location. Culicoides species were found in all four different habitat types studied. Wetland areas and peat bogs were rich in Culicoides spp. The taxonomic groups Culicoides obsoletus (Meigen) and Culicoides pulicaris (Linnaeus) were strongly associated with farms. Eighty-eight percent of all Culicoides consisted of the taxon C. obsoletus/Culicoides scoticus. On the livestock farms, 3% of Culicoides existed of the alleged bluetongue vector Culicoides dewulfi Goetghebuer. Culicoides impunctatus Goetghebuer was strongly associated with wetland and peat bog. Many Culicoides species were found until late in the phenological season and their activity was strongly associated with climate throughout the year. High annual variations in population dynamics were observed within the same study areas, which were probably caused by annual variations in environmental conditions. The study demonstrates that candidate vectors of bluetongue virus are present in natural and livestock-farm habitats in the Netherlands, distributed widely across the country. Under favourable climatic conditions, following virus introduction, bluetongue can spread among livestock (cattle, sheep and goats), depending on the nature of the viral serotype. The question now arises whether the virus can survive the winter conditions in north-western Europe and whether measures can be taken that effectively halt further spread of the disease
Direct and indirect effects of resource quality on food web structure
The diversity and complexity of food webs (the networks of feeding relationships within an ecological community) are considered to be important factors determining ecosystem function and stability. However, the biological processes driving these factors are poorly understood. Resource quality affects species interactions by limiting energy transfer to consumers and their predators, affecting life history and morphological traits. We show that differences in plant traits affect the structure of an entire food web through a series of direct and indirect effects. Three trophic levels of consumers were influenced by plant quality, as shown by quantitative herbivoreÂżparasitoidÂżsecondary parasitoid food webs. We conclude, on the basis of our data, that changes in the food web are dependent on both trait- and density-mediated interactions among species
Culicoides species attracted to horses with and without insect hypersensitivity
The aims of this study were to determine (1) which species of Culicoides is most commonly attracted to horses, (2) whether horses suffering insect hypersensitivity attract more Culicoides spp. than unaffected horses, and (3) the times when Culicoides spp. are most active. Horses affected by insect hypersensitivity and unaffected horses were placed inside mosquito netting tents for 30 min at different times of the day. All Culicoides spp. trapped inside the tents were collected and identified. C. obsoletus was the most common species found, followed by C. pulicaris. Healthy horses attracted slightly more midges than horses that were affected with insect hypersensitivity. All of the Culicoides species were most active at sunset, less so at sunrise and very few or no midges were trapped in the afternoon or at night
Drying technologies for edible insects and their derived ingredients
Edible insects and their ingredients are considered as a novel, sustainable and high-quality nutritional source for their potential use as food and feed. However, they are highly oxidizable and potentially unsafe. Dehydration of insects removes moisture and extends their shelf life. Moreover, it is considered as a prerequisite and/or pretreatment for some extraction technologies for ingredient production. Drying technologies (sun drying, smoke drying, roasting, freeze drying and oven drying) have been used to dry insects, both at a laboratory and industrial level. Different drying pretreatments (thermal blanching, microwave-assisted drying and pulsed electric field) have been explored to improve the final quality of the insect products, extending their shelf life and reducing total energy consumption. Therefore, this article aimed to review the current research available in edible insect drying processing technologies, addressing their effectiveness and their influence over different quality parameters such as protein/lipid extraction efficiency, sensory characteristics of the final products, microbiological safety, shelf life and their impact on bioactive compounds
Hyperparasitoids Use Herbivore-Induced Plant Volatiles to Locate Their Parasitoid Host
Plants respond to herbivory with the emission of induced plant volatiles. These volatiles may attract parasitic wasps
(parasitoids) that attack the herbivores. Although in this sense the emission of volatiles has been hypothesized to be
beneficial to the plant, it is still debated whether this is also the case under natural conditions because other organisms such
as herbivores also respond to the emitted volatiles. One important group of organisms, the enemies of parasitoids,
hyperparasitoids, has not been included in this debate because little is known about their foraging behaviour. Here, we
address whether hyperparasitoids use herbivore-induced plant volatiles to locate their host. We show that hyperparasitoids
find their victims through herbivore-induced plant volatiles emitted in response to attack by caterpillars that in turn had
been parasitized by primary parasitoids. Moreover, only one of two species of parasitoids affected herbivore-induced plant
volatiles resulting in the attraction of more hyperparasitoids than volatiles from plants damaged by healthy caterpillars. This
resulted in higher levels of hyperparasitism of the parasitoid that indirectly gave away its presence through its effect on
plant odours induced by its caterpillar host. Here, we provide evidence for a role of compounds in the oral secretion of
parasitized caterpillars that induce these changes in plant volatile emission. Our results demonstrate that the effects of
herbivore-induced plant volatiles should be placed in a community-wide perspective that includes species in the fourth
trophic level to improve our understanding of the ecological functions of volatile release by plants. Furthermore, these
findings suggest that the impact of species in the fourth trophic level should also be considered when developing
Integrated Pest Management strategies aimed at optimizing the control of insect pests using parasitoids.
Combined effects of patch size and plant nutritional quality on local densities of insect herbivores
Plantâinsect interactions occur in spatially heterogeneous habitats. Understanding how such interactions shape density distributions of herbivores requires knowledge on how variation in plant traits (e.g. nutritional quality) affects herbivore abundance through, for example, affecting movement rates and aggregation behaviour. We studied the effects of plant patch size and herbivore-induced differences in plant nutritional quality on local densities of insect herbivores for two Brassica oleracea cultivars, i.e. white cabbage and Brussels sprouts. Early season herbivory as a treatment resulted in measurable differences in glucosinolate concentrations in both cultivars throughout the season. Herbivore induction and patch size both influenced community composition of herbivores in both cultivars, but the effects differed between species. Flea beetles (Phyllotreta spp.) were more abundant in large than in small patches, and this patch response was more pronounced on white cabbage than on Brussels sprouts. Herbivore-induction increased densities in all patches. Thrips tabaci was also more abundant in large patches and densities of this species were higher on Brussels sprouts than on white cabbage. Thrips densities were lower on induced than on control plants of both cultivars and this negative effect of induction tended to be more pronounced in large than in small patches. Densities of the cabbage moth (Mamestra brassicae) were lower on Brussels sprouts than on white cabbage and lower on herbivore-induced than on uninduced plants, with no effect of patch size. No clear effects of patch size and induction were found for aphids. This study shows that constitutive and herbivore-induced differences in plant traits interact with patch responses of insect herbivores.