Research at our department is devoted to the analysis of patterns in biological diversity and to the ecological and evolutionary processes driving these patterns.

On the community level we are primarily interested in
(a) determinants of biodiversity along environmental gradients and
(b) consequences of anthropogenic habitats alteration on the composition of species assemblages.

The comparative approach is a backbone of our scientific interests. We contrast patterns and processes prevalent in species-rich animal assemblages of tropical forest ecosystems with those in far less diverse temperate-zone biomes. Thereby, we touch upon the dimensions of species, functional, and phylogenetic diversity. Much of our research in tropical ecology is centered around the field station La Gamba in Costa Rica.

On the population level we study requirements and dynamics of individual species, especially animals of conservation concern.

On the individual level, we address the significance of genetic variation and phenotypic plasticity for the evolutionary ecology of organisms (e.g. with regard to micro-evolution and speciation).

Using selected phytophagous insects as main examples, we study the evolution of animal diversity, from the population level (phylogeography) across species to higher systematic levels (phylogeny). These studies open new insights into radiation processes in relation to historical factors as well as in co-evolutionary interaction with host plants.

Focal organisms range from insects (butterflies, moths, ants, beetles, dragonflies, etc.) to vertebrates (especially birds).

Recent publications

Truxa C, Fiedler K. Massive structural redundancies in species composition patterns of floodplain forest moths. Ecography: pattern and diversity in ecology. 2016 Mar;39(3):253-260. Epub 2015 Jun 15. doi: 10.1111/ecog.01430
Letsch H, Gottsberger B, Ware J. Not going with the flow: a comprehensive time-calibrated phylogeny of dragonflies (Anisoptera: Odonata: Insecta) provides evidence for the role of lentic habitats on diversification. Molecular Ecology. 2016 Mar;25(6):1340-1353. doi: 10.1111/mec.13562
Brehm G, Hebert PDN, Hebert PDN, Adams MO, Bodner F, Friedemann K et al. Turning Up the Heat on a Hotspot: DNA Barcodes Reveal 80% More Species of Geometrid Moths along an Andean Elevational Gradient. PLoS ONE. 2016 Mar;11(3):e0150327. doi: 10.1371/journal.pone.0150327
Seifert CL, Schulze C, Dreschke T, Frötscher H, Fiedler K. Day vs. night predation on artificial caterpillars in primary rainforest habitats – an experimental approach. Entomologia Experimentalis et Applicata. 2016 Jan;158(1):54-59. Epub 2015 Dec 12. doi: 10.1111/eea.12379
Brehm G, Fiedler K. Andean Rainforests: Studying the Global Hotspot of Lepidopteran Diversity. Biodiversity Hotspot: publication of the Swiss Biodiversity Forum. 2016;110-115.
Wölfling M, Mira C. B, Uhl B, Anja T, Fiedler K. How differences in the settling behaviour of moths (Lepidoptera) may contribute to sampling bias when using automated light traps. European Journal of Entomology. 2016;113:502-506. doi: 10.14411/eje.2016.066
Brehm G, Fiedler K. Lepidoptera, Schmetterlinge. In Brohmer - Fauna von Deutschland: ein Bestimmungsbuch unserer heimischen Tierwelt. 24., komplett überarbeitete ed. Wiebelsheim: Quelle & Meyer. 2016. p. 464-496
Robert K. C, Brehm G, Fiedler K, Gotelli NJ, Louise A. A, Beck J et al. Midpoint attractors and species richness: Modelling the interaction between environmental drivers and geometric constraints. Ecology Letters. 2016;19(9):1009-1022. Epub 2016.
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