Your search keyword '"Bukacek, R."' showing total 8 results

1. Quantifying the Impact of Environmental Factors on Arthropod Communities in Agricultural Landscapes across Organizational Levels and Spatial Scales

Author

Schweiger, O., Maelfait, J. P., Van Wingerden, W., Hendrickx, F., Billeter, R., Speelmans, M., Augenstein, I., Aukema, B., Aviron, S., Bailey, D., Bukacek, R., Burel, F., Diekötter, T., Dirksen, J., Frenzel, M., Herzog, F., Liira, J., Roubalova, M., and Bugter, R.

Published

2005

2. Indicators for Biodiversity in Agricultural Landscapes: A Pan-European Study

Author

Billeter, R., Liira, J., Bailey, D., Bugter, R., Arens, P., Augenstein, I., Aviron, S., Baudry, J., Bukacek, R., Burel, F., Cerny, M., De Blust, G., De Cock, R., Diekötter, T., Dietz, H., Dirksen, J., Dormann, C., Durka, W., Frenzel, M., Hamersky, R., Hendrickx, F., Herzog, F., Klotz, S., Koolstra, B., Lausch, A., Le Coeur, D., Maelfait, J. P., Opdam, P., Roubalova, M., Schermann, A., Schermann, N., Schmidt, T., Schweiger, O., Smulders, M. J. M., Speelmans, M., Simova, P., Verboom, J., van Wingerden, W. K. R. E., Zobel, M., and Edwards, P. J.

Published

2008

3. Indicators for biodiversity in agricultural landscapes : a pan-European study

Author

Billeter, Regula, Liira, J., Bailey, D., Bugter, R., Arens, P., Augenstein, I., Aviron, S., Baudry, J., Bukacek, R., Burel, F., Cerny, M., De Blust, G., De Cock, R., Diekötter, T., Dietz, H., Dirksen, J., Dormann, C., Durka, W., Frenzel, M., Hamersky, R., Hendrickx, F., Herzog, F., Klotz, S., Koolstra, B., Lausch, A., Le Coeur, D., Maelfait, J. P., Opdam, P., Roubalova, M., Schermann, A., Schermann, N., Schmidt, T., Schweiger, O., Smulders, M.J.M., Speelmans, M., Simova, P., Verboom, J., Van Wingerden, W.K.R.E., Zobel, M., Edwards, P.J., Billeter, Regula, Liira, J., Bailey, D., Bugter, R., Arens, P., Augenstein, I., Aviron, S., Baudry, J., Bukacek, R., Burel, F., Cerny, M., De Blust, G., De Cock, R., Diekötter, T., Dietz, H., Dirksen, J., Dormann, C., Durka, W., Frenzel, M., Hamersky, R., Hendrickx, F., Herzog, F., Klotz, S., Koolstra, B., Lausch, A., Le Coeur, D., Maelfait, J. P., Opdam, P., Roubalova, M., Schermann, A., Schermann, N., Schmidt, T., Schweiger, O., Smulders, M.J.M., Speelmans, M., Simova, P., Verboom, J., Van Wingerden, W.K.R.E., Zobel, M., and Edwards, P.J.

Published

2018

4. Prediction uncertainty of environmental change effects on temperate European biodiversity

Author

Dormann, C., Schweiger, O., Arens, P.F.P., Augenstein, I., Aviron, S., Bailey, D., Baudry, J., Billeter, R., Bugter, R.J.F., Bukacek, R., Burel, F., Cerny, M., de Cock, R., de Blust, G., DeFilippi, R., Diekotter, T., Dirksen, J., Durka, W., Edwards, P.J., Frenzel, M., Hamersky, R., Hendrickx, F., Herzog, F., Klotz, S., Koolstra, B.J.H., Lausch, A., Le Coeur, D., Liira, J., Maelfait, J.P., Opdam, P., Roubalova, M., Schermann, A., Schermann, N., Schmidt, T., Smulders, M.J.M., Speelmans, M., Simova, P., Verboom, J., van Wingerden, W.K.R.E., Zobel, M., Dormann, C., Schweiger, O., Arens, P.F.P., Augenstein, I., Aviron, S., Bailey, D., Baudry, J., Billeter, R., Bugter, R.J.F., Bukacek, R., Burel, F., Cerny, M., de Cock, R., de Blust, G., DeFilippi, R., Diekotter, T., Dirksen, J., Durka, W., Edwards, P.J., Frenzel, M., Hamersky, R., Hendrickx, F., Herzog, F., Klotz, S., Koolstra, B.J.H., Lausch, A., Le Coeur, D., Liira, J., Maelfait, J.P., Opdam, P., Roubalova, M., Schermann, A., Schermann, N., Schmidt, T., Smulders, M.J.M., Speelmans, M., Simova, P., Verboom, J., van Wingerden, W.K.R.E., and Zobel, M.

Abstract

Observed patterns of species richness at landscape scale (gamma diversity) cannot always be attributed to a specific set of explanatory variables, but rather different alternative explanatory statistical models of similar quality may exist. Therefore predictions of the effects of environmental change (such as in climate or land cover) on biodiversity may differ considerably, depending on the chosen set of explanatory variables. Here we use multimodel prediction to evaluate effects of climate, land-use intensity and landscape structure on species richness in each of seven groups of organisms (plants, birds, spiders, wild bees, ground beetles, true bugs and hoverflies) in temperate Europe. We contrast this approach with traditional best-model predictions, which we show, using cross-validation, to have inferior prediction accuracy. Multimodel inference changed the importance of some environmental variables in comparison with the best model, and accordingly gave deviating predictions for environmental change effects. Overall, prediction uncertainty for the multimodel approach was only slightly higher than that of the best model, and absolute changes in predicted species richness were also comparable. Richness predictions varied generally more for the impact of climate change than for land-use change at the coarse scale of our study. Overall, our study indicates that the uncertainty introduced to environmental change predictions through uncertainty in model selection both qualitatively and quantitatively affects species richness projections.

Published

2008

5. Plant functional group composition and large-scale species richness in European agricultural landscapes

Author

Liira, J., Schmidt, T., Aavik, T., Arens, P.F.P., Augenstein, I., Bailey, D., Billeter, R., Bukacek, R., Burel, F., de Blust, G., de Cock, R., Dirksen, J., Edwards, P.J., Hamersky, R., Herzog, F., Klotz, S., Kuhn, I., Le Coeur, D., Miklova, P., Roubalova, M., Schweiger, O., Smulders, M.J.M., van Wingerden, W.K.R.E., Bugter, R.J.F., Zobel, M., Liira, J., Schmidt, T., Aavik, T., Arens, P.F.P., Augenstein, I., Bailey, D., Billeter, R., Bukacek, R., Burel, F., de Blust, G., de Cock, R., Dirksen, J., Edwards, P.J., Hamersky, R., Herzog, F., Klotz, S., Kuhn, I., Le Coeur, D., Miklova, P., Roubalova, M., Schweiger, O., Smulders, M.J.M., van Wingerden, W.K.R.E., Bugter, R.J.F., and Zobel, M.

Abstract

Question: Which are the plant functional groups responding most clearly to agricultural disturbances? Which are the relative roles of habitat availability, landscape configuration and agricultural land use intensity in affecting the functional composition and diversity of vascular plants in agricultural landscapes? Location: 25 agricultural landscape areas in seven European countries. Methods: We examined the plant species richness and abundance in 4 km x 4 km landscape study sites. The plant functional group classification was derived from the BIOLFLOR database. Factorial decomposition of functional groups was applied. Results: Natural habitat availability and low land use intensity supported the abundance and richness of perennials, sedges, pteridophytes and high nature quality indicator species. The abundance of clonal species, C and S strategists was also correlated with habitat area. An increasing density of field edges explained a decrease in richness of high nature quality species and an increase in richness of annual graminoids. Intensive agriculture enhanced the richness of annuals and low nature quality species. Conclusions: Habitat patch availability and habitat quality are the main drivers of functional group composition and plant species richness in European agricultural landscapes. Linear elements do not compensate for the loss of habitats, as they mostly support disturbance tolerant generalist species. In order to conserve vascular plant species diversity in agricultural landscapes, the protection and enlargement of existing patches of ( semi-) natural habitats appears to be more effective than relying on the rescue effect of linear elements. This should be done in combination with appropriate agricultural management techniques to limit the effect of agrochemicals to the fields.

Published

2008

6. How landscape structure, land-use intensity and habitat diversity affect components of total arthropod diversity in agricultural landscapes

Author

Hendrickx, F., Maelfait, J.P., van Wingerden, W., Schweiger, Oliver, Speelmans, M., Aviron, S., Augenstein, Isabel, Billeter, R., Bailey, D., Bukacek, R., Burel, F., Diekötter, T., Dirksen, J., Herzog, F., Liira, J., Roubalova, M., Vandomme, V., Bugter, R., Hendrickx, F., Maelfait, J.P., van Wingerden, W., Schweiger, Oliver, Speelmans, M., Aviron, S., Augenstein, Isabel, Billeter, R., Bailey, D., Bukacek, R., Burel, F., Diekötter, T., Dirksen, J., Herzog, F., Liira, J., Roubalova, M., Vandomme, V., and Bugter, R.

Abstract

Agricultural intensification poses a serious threat to biodiversity as a consequence of increased land-use intensity, decreased landscape heterogeneity and reduced habitat diversity. Although there is interest in the preservation of total species richness of an agricultural landscape (gamma diversity), the effects of intensification have been assessed primarily by species richness at a local scale (alpha diversity). This ignores species richness between local communities (beta diversity), which is an important component of total species richness. In this study, measures of land-use intensity, landscape structure and habitat diversity were related to gamma, alpha and beta diversity of wild bees (Apoidea), carabid beetles (Carabidae), hoverflies (Syrphidae), true bugs (Heteroptera) and spiders (Araneae) within 16 local communities in 24 temperate European agricultural landscapes.The total landscape species richness of all groups was most strongly affected by increased proximity of semi-natural habitat patches. Bees also decreased in landscapes with a high intensity of farmland management, demonstrating additive effects of both factors.Separating total species diversity into components, the decrease in total species richness could be attributed primarily to a decrease in species diversity between local communities. Species richness of the local communities of all investigated groups decreased with increasing land-use intensity and, in the case of spiders, decreasing proximity of the semi-natural habitat patches.The effect of increased habitat diversity appeared to be of secondary importance to total species richness but caused a shift in the relative contribution of alpha and beta diversity towards the latter.Synthesis and applications. This study demonstrates that the effects of agricultural change operate at a landscape level and that examining species diversity at a local level fails to explain the total species richness of an agricultural landscape. The coincidence

Published

2007

7. Quantifying the impact of environmental factors on arthropod communities in agricultural landscapes across organizational levels and spatial scales

Author

Schweiger, Oliver, Maelfait, J.P., van Wingerden, W., Hendrickx, F., Billeter, R., Speelmans, M., Augenstein, Isabel, Aukema, B., Aviron, S., Bailey, D., Bukacek, R., Burel, F., Diekötter, T., Dirksen, J., Frenzel, Mark, Herzog, F., Liira, J., Roubalova, M., Bugter, R., Schweiger, Oliver, Maelfait, J.P., van Wingerden, W., Hendrickx, F., Billeter, R., Speelmans, M., Augenstein, Isabel, Aukema, B., Aviron, S., Bailey, D., Bukacek, R., Burel, F., Diekötter, T., Dirksen, J., Frenzel, Mark, Herzog, F., Liira, J., Roubalova, M., and Bugter, R.

Abstract

1. In landscapes influenced by anthropogenic activities, such as intensive agriculture, knowledge of the relative importance and interaction of environmental factors on the composition and function of local communities across a range of spatial scales is important for maintaining biodiversity.2. We analysed five arthropod taxa covering a broad range of functional aspects (wild bees, true bugs, carabid beetles, hoverflies and spiders) in 24 landscapes (4 × 4 km) across seven European countries along gradients of both land-use intensity and landscape structure. Species-environment relationships were examined in a hierarchical design of four main sets of environmental factors (country, land-use intensity, landscape structure, local habitat properties) that covered three spatial scales (region, landscape, local) by means of hierarchical variability partitioning using partial canonical correspondence analyses.3. Local community composition and the distribution of body size classes and trophic guilds were most affected by regional processes, which highly confounded landscape and local factors. After correcting for regional effects, factors at the landscape scale dominated over local habitat factors. Land-use intensity explained most of the variability in species data, whereas landscape characteristics (especially connectivity) accounted for most of the variability in body size and trophic guilds.4. Synthesis and applications. Our results suggest that management effort should be focused on land-use intensity and habitat connectivity in order to enhance diversity in agricultural landscapes. Since these factors are largely independent, specific conservation programmes may be developed with regards to socio-economic and agri-environmental requirements. Changes in either of these factors will enhance diversity but will also result in specific effects on local communities related to dispersal ability and the resource use of species.

Published

2005

8. Indicators for biodiversity in agricultural landscapes: a pan-European study

Author

Billeter, R., primary, Liira, J., additional, Bailey, D., additional, Bugter, R., additional, Arens, P., additional, Augenstein, I., additional, Aviron, S., additional, Baudry, J., additional, Bukacek, R., additional, Burel, F., additional, Cerny, M., additional, De Blust, G., additional, De Cock, R., additional, Diekötter, T., additional, Dietz, H., additional, Dirksen, J., additional, Dormann, C., additional, Durka, W., additional, Frenzel, M., additional, Hamersky, R., additional, Hendrickx, F., additional, Herzog, F., additional, Klotz, S., additional, Koolstra, B., additional, Lausch, A., additional, Le Coeur, D., additional, Maelfait, J. P., additional, Opdam, P., additional, Roubalova, M., additional, Schermann, A., additional, Schermann, N., additional, Schmidt, T., additional, Schweiger, O., additional, Smulders, M.J.M., additional, Speelmans, M., additional, Simova, P., additional, Verboom, J., additional, Van Wingerden, W.K.R.E., additional, Zobel, M., additional, and Edwards, P.J., additional

Published

2007