Your search keyword '"Schwenk, K."' showing total 6 results

1. Mosquito control actions affect chironomid diversity in temporary wetlands of the Upper Rhine Valley.

Author

Theissinger K, Röder N, Allgeier S, Beermann AJ, Brühl CA, Friedrich A, Michiels S, and Schwenk K

Subjects

Animals, Bacillus thuringiensis physiology, Germany, Predatory Behavior, Species Specificity, Biodiversity, Chironomidae physiology, Mosquito Control, Wetlands

Abstract

The Upper Rhine Valley, a "hotspot of biodiversity" in Germany, has been treated with the biocide Bacillus thuringiensis var. israelensis (Bti) for mosquito control for decades. Previous studies discovered Bti nontarget effects in terms of severe chironomid abundance reductions. In this study, we investigated the impact of Bti on species level and addressed the community composition of the nontarget family Chironomidae by use of community metabarcoding. Chironomid emergence data were collected in three mosquito-control relevant wetland types in the Upper Rhine Valley. For all three sites the chironomid species composition, based on operational taxonomic units (OTUs), was different to varying degrees in the Bti-treated samples versus control samples, ranging from a significant 63% OTU reduction to an OTU replacement. We assumed that predatory chironomids are less prone to Bti than filter feeders, as the latter feed on floating particles leading to direct ingestion of Bti. However, a comparable percentage of predators and filter feeders (63% and 65%, respectively) was reduced in the Bti samples, suggesting that the feeding strategy is not the main driver for Bti sensitivity in chironomids. Finally, our data was compared to a three-year-old data set, indicating possible chironomid community recovery due to species recolonization a few years after the last Bti application. Considering the currently discussed worldwide insect decline we recommend a rethinking of the usage of the biocide Bti, and to prevent its ongoing application especially in nature protection reserves to enhance ecological resilience and to prevent boosting the current biodiversity loss., (© 2019 John Wiley & Sons Ltd.)

Published

2019

2. Cryptic animal species are homogeneously distributed among taxa and biogeographical regions.

Author

Pfenninger M and Schwenk K

Subjects

Animals, Genetic Variation, Sequence Analysis, DNA, Species Specificity, Biodiversity, Genetic Speciation, Phylogeny

Abstract

Background: Cryptic species are two or more distinct but morphologically similar species that were classified as a single species. During the past two decades we observed an exponential growth of publications on cryptic species. Recently published reviews have demonstrated cryptic species have profound consequences on many biological disciplines. It has been proposed that their distribution is non-random across taxa and biomes., Results: We analysed a literature database for the taxonomic and biogeographical distribution of cryptic animal species reports. Results from regression analysis indicate that cryptic species are almost evenly distributed among major metazoan taxa and biogeographical regions when corrected for species richness and study intensity., Conclusion: This indicates that morphological stasis represents an evolutionary constant and that cryptic metazoan diversity does predictably affect estimates of earth's animal diversity. Our findings have direct theoretical and practical consequences for a number of prevailing biological questions with regard to global biodiversity estimates, conservation efforts and global taxonomic initiatives.

Published

2007

3. Multi-Group Biodiversity in Shallow Lakes along Gradients of Phosphorus and Water Plant Cover

Author

Declerck, S., Vandekerkhove, J., Johansson, L., Muylaert, K., Conde-Porcuna, J. M., Van der Gucht, K., Pérez-Martínez, C., Lauridsen, T., Schwenk, K., Zwart, G., Rommens, W., López-Ramos, J., Jeppesen, E., Vyverman, W., Brendonck, L., and De Meester, L.

Published

2005

4. Assembly mechanisms determining high species turnover in aquatic communities over regional and continental scales.

Author

Viana, Duarte S., Figuerola, J., Schwenk, K., Manca, M., Hobæk, A., Mjelde, M., Preston, C. D., Gornall, R. J., Croft, J. M., King, R. A., Green, A. J., and Santamaría, L.

Subjects

ECOLOGICAL niche, METAPOPULATION (Ecology), DISPERSAL (Ecology), BIODIVERSITY, AQUATIC plants, BIOGEOGRAPHY

Abstract

Niche and neutral processes drive community assembly and metacommunity dynamics, but their relative importance might vary with the spatial scale. The contribution of niche processes is generally expected to increase with increasing spatial extent at a higher rate than that of neutral processes. However, the extent to what community composition is limited by dispersal (usually considered a neutral process) over increasing spatial scales might depend on the dispersal capacity of composing species. To investigate the mechanisms underlying the distribution and diversity of species known to have great powers of dispersal (hundreds of kilometres), we analysed the relative importance of niche processes and dispersal limitation in determining beta-diversity patterns of aquatic plants and cladocerans over regional (up to 300 km) and continental (up to 3300 km) scales. Both taxonomic groups were surveyed in five different European regions and presented extremely high levels of beta-diversity, both within and among regions. High beta-diversity was primarily explained by species replacement (turnover) rather than differences in species richness (i.e. nestedness). Abiotic and biotic variables were the main drivers of community composition. Within some regions, small-scale connectivity and the spatial configuration of sampled communities explained a significant, though smaller, fraction of compositional variation, particularly for aquatic plants. At continental scale (among regions), a significant fraction of compositional variation was explained by a combination of spatial effects (exclusive contribution of regions) and regionally-structured environmental variables. Our results suggest that, although dispersal limitation might affect species composition in some regions, aquatic plant and cladoceran communities are not generally limited by dispersal at the regional scale (up to 300 km). Species sorting mediated by environmental variation might explain the high species turnover of aquatic plants and cladocerans at regional scale, while biogeographic processes enhanced by dispersal limitation among regions might determine the composition of regional biotas. [ABSTRACT FROM AUTHOR]

Published

2016

5. Biodiversity in European Shallow Lakes: a Multilevel-Multifactorial Field Study.

Author

Caldwell, M. M., Heldmaier, G., Jackson, R. B., Lange, O. L., Mooney, H. A., Schulze, E. -D., Sommer, U., Bobbink, Roland, Beltman, Boudewijn, Verhoeven, Jos T. A., Whigham, Dennis F., De Meester, L., Declerck, S., Janse, J. H., Dagevos, J. J., Portielje, R., Lammens, E., Jeppesen, E., Lauridsen, T., and Schwenk, K.

Abstract

This chapter is based on the premise that the precipitous decline in freshwa- ter wetlands and species can only be arrested through conservation and sus- tainable management at a large scale, based on water (usually river) basins. A number of approaches to large-scale freshwater wetlands conservation are presented and assessed to draw conclusions on future conservation priori- ties. [ABSTRACT FROM AUTHOR]

Published

2006

6. The impact of human-made ecological changes on the genetic architecture of Daphnia species

Author

Nora Brede, Bruno Streit, Dietmar Straile, Thomas Jankowski, Klaus Schwenk, Piet Spaak, Christoph Sandrock, University of Zurich, and Schwenk, K

Subjects

10127alt Institute of Zoology (former), Species complex, Time Factors, Genotype, invasiveness, Biodiversity, introgression, Ecological and Environmental Phenomena, Introgression, Fresh Water, Biology, DNA, Mitochondrial, Algal bloom, Daphnia, 10127 Institute of Evolutionary Biology and Environmental Studies, ddc:570, Animals, Humans, hybridization, 1000 Multidisciplinary, Multidisciplinary, Ecology, Aquatic ecosystem, Biological Sciences, biology.organism_classification, biological archive, Europe, eutrophication, Habitat, 570 Life sciences, biology, 590 Animals (Zoology), Eutrophication

Abstract

The overenrichment (eutrophication) of aquatic ecosystems with nutrients leading to algal blooms and anoxic conditions has been a persistent and widespread environmental problem. Although there are many studies on the ecological impact of elevated phosphorus (P) levels (e.g., decrease in biodiversity and water quality), little is known about the evolutionary consequences for animal species. We reconstructed the genetic architecture of a Daphnia species complex in 2 European lakes using diapausing eggs that were isolated from sediment layers covering the past 100 years. Changes in total P were clearly associated with a shift in species composition and the population structure of evolutionary lineages. Although environmental conditions were largely re-established after peak eutrophication during the 1970s and 1980s, original species composition and the genetic architecture of species were not restored but evolved along new evolutionary trajectories. Our data demonstrate that anthropogenically induced temporal alterations of habitats are associated with long-lasting changes in communities and species via interspecific hybridization and introgression.

Published

2009