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begutachtete Publikationen und Buchveröffentlichungen

Behavior of 14C-sulfadiazine and 14C-difloxacin during manure storage.

Lamshöft, M.; Sukul, P.; Zühlke, S.; Spiteller, M. (2010): Behavior of 14C-sulfadiazine and 14C-difloxacin during manure storage. Science of the Total Total Environment 408, 1563-1568.

Effect of sulfadiazine-contaminated pig manure on abundance of genes and transcripts involved in nitrogen transformation in the root-rhizosphere complexes of maize and clover.

Ollivier, J, Kleineidam, K, Reichel, T, Thiele-Bruhn, S, Kotzerke, A, Wilke, BM, Schloter, M (2010): Effect of sulfadiazine-contaminated pig manure on abundance of genes and transcripts involved in nitrogen transformation in the root-rhizosphere complexes of maize and clover. Applied Environmental Microbiology 76, 7903-7909.

Transport of sulfadiazine in undisturbed soil columns: the effect of flow rate and applied mass.

Unold, M.; Kasteel, R.; Groeneweg, J.; Vereecken, H. (2010): Transport of sulfadiazine in undisturbed soil columns: the effect of flow rate and applied mass. Journal of Environmental Quality 39, 2147-2159.

Long-term sorption and desorption of sulfadiazine in soil: Experiments and modeling.

Wehrhan, A., T. Streck, J. Groeneweg, H. Vereecken & R. Kasteel (2010): Long-term sorption and desorption of sulfadiazine in soil: Experiments and modeling. Journal of Environmental Quality 39, 654-666.

Manure and the antibiotic sulfadiazine are interacting on microbial biomass and structure.

Hammesfahr U., Bierl R., Thiele-Bruhn S. (2011a): Manure and the antibiotic sulfadiazine are interacting on microbial biomass and structure. Journal of Plant Nutrition and Soil Science 174, 614-623.

Sulfadiazine contaminated fresh and stored manure modifies the function and structure of soil microbial community.

Hammesfahr U., Kotzerke A., Lamshöft M., Wilke B.-M., Kandeler E., Thiele-Bruhn S. (2011b): Sulfadiazine contaminated fresh and stored manure modifies the function and structure of soil microbial community. European Journal of Soil Biology 47, 61-68.

Accumulation of sulfonamide resistance genes in arable soils due to repeated application of manure containing sulfadiazine.

Heuer H, Solehati Q, Zimmerling U, Kleineidam K, Schloter M, Müller T, Focks A, Thiele-Bruhn S, Smalla K (2011): Accumulation of sulfonamide resistance genes in arable soils due to repeated application of manure containing sulfadiazine. Appl Environ Microbiol 77: 2527-2530.

Antibiotic resistance gene spread due to manure application on agricultural fields.

Heuer, H, Schmitt, H, Smalla, K (2011): Antibiotic resistance gene spread due to manure application on agricultural fields. Current Opinion in Microbiology 14, 236-243.

Characterization of non-extractable C-14- and C-13-sulfadiazine residues in soil including simultaneous amendment of pig manure.

Junge, T., Meyer, K.C., Cielinski, K., Adams, A., Schäffer A., Schmidt, B., 2011. Characterization of non-extractable C-14- and C-13-sulfadiazine residues in soil including simultaneous amendment of pig manure. Journal of Environmental Science and Health B 46, 137-149.

Influence of difloxacin-contaminated manure on microbial community structure and function in soils.

Kotzerke A, Hammesfahr, U, Kleineidam, K, Lamshöft, M, Thiele Bruhn, S, Wilke, B.M., Schloter, M. (2011a): Influence of difloxacin-contaminated manure on microbial community structure and function in soils. Biology and Fertility of Soils 47, 177-186.

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