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Is initial Si concentration determining the influence of warming and N-supply on stoichiometric changes during litter decomposition?
Schaller, J., Hines, J., & Brackhage, C. (2017). Is initial Si concentration determining the influence of warming and N-supply on stoichiometric changes during litter decomposition? Aquatic Botany, 138, 1-8. https://doi.org/10.1016/j.aquabot.2016.11.013
Density constrains cascading consequences of warming and nitrogen from invertebrate growth to litter decomposition
Hines, J., Reyes, M., & Gessner, M. O. (2016). Density constrains cascading consequences of warming and nitrogen from invertebrate growth to litter decomposition. Ecology, 97(7), 1635-1642. https://doi.org/10.1002/ecy.1447
Harmful effects of silver nanoparticles on a complex detrital model system
Tlili, A., Cornut, J., Behra, R., Gil-Allué, C., & Gessner, M. O. (2016). Harmful effects of silver nanoparticles on a complex detrital model system. Nanotoxicology, 10(6), 728-735. https://doi.org/10.3109/17435390.2015.1117673
Genotypic trait variation modifies effects of climate warming and nitrogen deposition on litter mass loss and microbial respiration
Hines, J., Reyes, M., Mozder, T. J., & Gessner, M. O. (2014). Genotypic trait variation modifies effects of climate warming and nitrogen deposition on litter mass loss and microbial respiration. Global Change Biology, 20(12), 3780-3789. https://doi.org/10.1111/gcb.12704
Trophic complexity enhances ecosystem functioning in an aquatic detritus-based model system
Jabiol, J., Mckie, B. G., Bruder, A., Bernadet, C., Gessner, M. O., & Chauvet, E. (2013). Trophic complexity enhances ecosystem functioning in an aquatic detritus-based model system. Journal of Animal Ecology, 82(5), 1042-1051. https://doi.org/10.1111/1365-2656.12079
A global experiment suggests climate warming will not accelerate litter decomposition in streams but might reduce carbon sequestration
Boyero, L., Pearson, R. G., Gessner, M. O., Barmuta, L. A., Ferreira, V., Graça, M. A. S., … West, D. C. (2011). A global experiment suggests climate warming will not accelerate litter decomposition in streams but might reduce carbon sequestration. Ecology Letters, 14(3), 289-294. https://doi.org/10.1111/j.1461-0248.2010.01578.x
Ecotoxicologial evaluation of wastewater ozonation based on detritus-detritivore interactions
Bundschuh, M., Gessner, M. O., Fink, G., Ternes, T. A., Sögding, C., & Schulz, R. (2011). Ecotoxicologial evaluation of wastewater ozonation based on detritus-detritivore interactions. Chemosphere, 82(3), 355-361. https://doi.org/10.1016/j.chemosphere.2010.10.006
Temperature oscillation coupled with fungal community shifts can modulate warming effects on litter decomposition
Dang, C. K., Schindler, M., Chauvet, E., & Gessner, M. O. (2009). Temperature oscillation coupled with fungal community shifts can modulate warming effects on litter decomposition. Ecology, 90(1), 122-131. https://doi.org/10.1890/07-1974.1
Breakdown and nutrient dynamics of submerged <I>Phragmites</I> shoots in the littoral zone of a temperate hardwater lake
Gessner, M. O. (2000). Breakdown and nutrient dynamics of submerged Phragmites shoots in the littoral zone of a temperate hardwater lake. Aquatic Botany, 66(1), 9-20. https://doi.org/10.1016/S0304-3770(99)00022-4
Microbial biomass, growth, and respiration associated with submerged litter of <I>Phragmites australis</I> decomposing in a littoral reed stand of a large lake
Komínková, D., Kuehn, K. A., Büsing, N., Steiner, D., & Gessner, M. O. (2000). Microbial biomass, growth, and respiration associated with submerged litter of Phragmites australis decomposing in a littoral reed stand of a large lake. Aquatic Microbial Ecology, 22(3), 271-282. https://doi.org/10.3354/ame022271