Ágnes Szénási

Short-term effects of different genetically modified maize varieties on arthropod food web properties: an experimental field assessment

There is concern that genetically modified (GM) plants may have adverse affects on the arthropod biodiversity comprising agricultural landscapes. The present study report on a two year field experimental test of whether four different genotypic lines, some are novel with no previous field tests, of GM maize hybrids alter the structure of arthropod food webs that they harbour, relative to non-GM maize (control) that is widely used in agriculture. The different GM genotypes produced either Bt toxins, conferred glyphosate tolerance or a combination of the two traits. Quantitative food web analysis, based on short-term assessment assigning a total of 243,896 arthropod individuals collected from the treatments to their positions in food webs, revealed that complex and stable food webs persisted in each maize treatment. Moreover, food web structure remained relatively unchanged by the GM-genotype. The results suggest that at least in short-term period these particular GM maize genotypes will not have adverse effects on arthropod biota of agricultural landscapes.

Analysis of soil dwelling rove beetles (Coleoptera: Staphylinidae) in cultivated maize fields containing the Bt toxins, Cry34/35Ab1 and Cry1F×Cry34/35Ab1

In this study, the potential exposure of non-targeted adult rove beetles and their larvae to Bt toxins (Cry34Ab1, Cry35Ab1, Cry1F (59122 and 1507×59122) designed to target western corn rootworm and European corn borer has been determined. The overall assemblage was not significantly affected by the production of stacked proteins.

Effects of genetically modified maize events expressing Cry34Ab1, Cry35Ab1, Cry1F, and CP4 EPSPS proteins on arthropod complex food webs

Abstract Four genetically modified (GM) maize (Zea mays L.) hybrids (coleopteran resistant, coleopteran and lepidopteran resistant, lepidopteran resistant and herbicide tolerant, coleopteran and herbicide tolerant) and its non‐GM control maize stands were tested to compare the functional diversity of arthropods and to determine whether genetic modifications alter the structure of arthropods food webs. A total number of 399,239 arthropod individuals were used for analyses. The trophic groups’ number and the links between them indicated that neither the higher magnitude of Bt toxins (included resistance against insect, and against both insects and glyphosate) nor the extra glyphosate treatment changed the structure of food webs. However, differences in the average trophic links/trophic groups were detected between GM and non‐GM food webs for herbivore groups and plants. Also, differences in characteristic path lengths between GM and non‐GM food webs for herbivores were observed. Food webs parameterized based on 2‐year in‐field assessments, and their properties can be considered a useful and simple tool to evaluate the effects of Bt toxins on non‐target organisms.

Observations on the flight pattern of some Phlaeothripidae (Thysanoptera) species by using suction trap in Hungary

Abstract In this study, the seasonal flight activity of the Phlaeothripidae (Thysanoptera) species was studied by using suction trap, in South-East Hungary, in the years 2000 and 2004 from April to October. The flight period of two dominant species, namely Haplothrips angusticornis Priesner and Haplothrips aculeatus Fabricius (Thysanoptera: Phlaeothripidae), was observed in high number in Europe. Also, it was the first record of mass flight observation of H. angusticornis. In addition, the effect of meteorological factors, such as temperature, sunshine duration, relative humidity, air pressure, and their influences, were evaluated.

Arthropods dataset from different genetically modified maize events and associated controls

Arthropods from four genetically modified (GM) maize hybrids (coleopteran resistant, coleopteran and lepidopteran resistant, lepidopteran resistant+herbicide tolerant and coleopteran resistant and herbicide tolerant) and non-GM varieties were sampled during a two-year field assessment. A total number of 363 555 arthropod individuals were collected. This represents the most comprehensive arthropod dataset from GM maize, and together with weed data, is reasonable to determine functional groups of arthropods and interactions between species. Trophic groups identified from both phytophagous and predatory arthropods were previously considered non-target organisms on which possible detrimental effects of Bacillus thuringiensis (Bt) toxins may have been directly (phytophagous species) or indirectly (predators) detected. The high number of individuals and species and their dynamics through the maize growing season can predict that interactions are highly correlational, and can thus be considered a useful tool to assess potential deleterious effects of Bt toxins on non-target organisms, serving to develop biosafety risk hypotheses for invertebrates exposed to GM maize plants.

The first record of subtropical insects (Thysanoptera) in central Europe: long‐distance transport of airborne thrips, applying three‐dimensional backward trajectories

The present study reports the first occurrence and flight period of three species, namely Scolothrips tenuipennis zur Strassen 1965, Frankliniella schultzei Trybom, 1910 and Zurstrassenia figuratus zur Strassen, 1968 (Thysanoptera: Thripidae), in Hungary. A fourth, undescribed species belonging to the genus Caliothrips was also captured. The distribution area of these species is North Africa and it is hypothesized that they are transported to Hungary via long‐distance air currents. Data for a suction trap are examined in South–East Hungary, in the 3‐year period 2002–2004 from May to September. A three‐dimensional back‐trajectory analysis based on the Hybrid Single‐Particle Lagrangian Integrated Trajectory (HYSPLIT) transport and dispersion model was performed for the observation days to determine the origin and path of air masses and evaluate of the possibility of long‐distance transport of thrips species. Surprisingly, the analysis showed that only a few percent of the back trajectories originated or passed over North Africa. The results suggest that the captured thrips species could survive long‐distance transport at low‐level trajectories and establish new populations in Western Europe, the eastern part of Europe and Northern Central Europe, which together serve as source areas for the long‐range transport of thrips to the target station.

Can we use the predatory mites against the invasive bamboo pest spider mites

Two invasive spider mite species (Stigmaeopsis nanjingensis Ma and Yuan, 1980 and Schizotetranychus bambusae Reck, 1941) were spotted on bamboo collections in Hungary. The possibilities of biological control were investigated on these mites with two different predatory mite species (Phytoseiulus persimilis Athias-Henriot, 1957 and Hypoaspis miles Berlese, 1892 [Stratiolaelaps scimitus Womersley, 1956]). The species Phytoseiulus persimilis consumed larger amount of S. bambusae mites than Stratiolaelaps scimitus mites and none of the predatory mite species could consume the S. nanjingensis species with its special nets.