Dissertationen und andere Publikationen
Integrative Modelling Approaches as a Basis for Environmental Risk Assessment.
Focks, A. (2009): Effects of Sulfadiazine in Soil: Integrative Modelling Approaches as a Basis for Environmental Risk Assessment. Dissertation. Dr.Hut-Verlag (München), ISBN 978 3 86853 041 4.
Sequestration of sulfadiazine in soil
Förster, M. (2011): Sequestration of sulfadiazine in soil, Dissertation, Universität Bonn, 97 S.
Alterations in soil microbial structure and function due to different manure and antibiotic loads.
Hammesfahr, U. (2011): Alterations in soil microbial structure and function due to different manure and antibiotic loads. Dissertation, Trierer Bodenkundliche Schriften 16, 98 S.
Antibiotikaresistenzgene im Ackerboden.
Jechalke, S., Heuer, H. Smalla, K (2013): Antibiotikaresistenzgene im Ackerboden. Biospektrum 19, 243-246.
Abbau und Rückstandsdynamik von Tierarzneimitteln in Boden-Pflanzen-Systemen.
Junge, T. (2012): Abbau und Rückstandsdynamik von Tierarzneimitteln in Boden-Pflanzen-Systemen. Dissertation, RWTH Aachen, 148 S.
Effects of veterinary antibiotics on the activity and functional diversity of microorganisms in different soils.
Kotzerke, A. (2011): Effects of veterinary antibiotics on the activity and functional diversity of microorganisms in different soils. Dissertation. TU Berlin, 134 S.
Diversity, abundance and activity of microbes involved in nitrogen turnover in the rhizosphere of different plants grown on sites contaminated with the antibiotic sulfadiazine or heavy metals.
Ollivier, J. (2013): Diversity, abundance and activity of microbes involved in nitrogen turnover in the rhizosphere of different plants grown on sites contaminated with the antibiotic sulfadiazine or heavy metals. Dissertation, TU München, 147 S.
Soil microbial community responses to antibiotic pharmaceuticals: influence of different soil habitats and moisture regimes.
Reichel, R. (2014): Soil microbial community responses to antibiotic pharmaceuticals: influence of different soil habitats and moisture regimes. Dissertation. Universität Trier, 208 S.
Fate of the veterinary antibiotics sulfadiazine and difloxacin in soil.
Rosendahl, I. (2012): Fate of the veterinary antibiotics sulfadiazine and difloxacin in soil, Dissertation, Universität Bonn, 133 S.
Transformation and Transport of Sulfadiazine in a loess and a sandy Soil. Dissertation.
Sittig, S. (2014): Sorption, Transformation and Transport of Sulfadiazine in a loess and a sandy Soil. Dissertation, Universität Bonn, 103 S.
Stoffdatenblatt: Sulfonamide.
Thiele-Bruhn, S. (2013) Stoffdatenblatt: Sulfonamide. In: Litz N., Wilcke W., Wilke B.-M. (Hrsg.) Bodengefährdende Stoffe. Kap. VI-2, 1-64. ecomed Verlagsgesellschaft, Landsberg/Lech.
Experiments and numerical studies on transport of sulfadiazine in soil columns.
Unold, M. (2009): Experiments and numerical studies on transport of sulfadiazine in soil columns. Dissertation, Universität Bonn, 133 S.
Der Transport des Antibiotikums Sulfadiazin in Böden: Welchen Effekt hat die Gülle?
Unold, M.; Kasteel, R., Groeneweg, J.; Vereecken, H. (2008): Der Transport des Antibiotikums Sulfadiazin in Böden: Welchen Effekt hat die Gülle? Mitt. Umweltchem. Ökotox. 14 (4), 98-101.
Fate of veterinary pharmaceuticals in soil: An experimental and numerical study on the mobility, sorption and transformation of sulfadiazine.
Wehrhan, A. (2006): Fate of veterinary pharmaceuticals in soil: An experimental and numerical study on the mobility, sorption and transformation of sulfadiazine. Dissertation, Universität Bonn, 159 S.
Chemical Fate of Sulfadiazine in Soil: Mechanisms and Modelling Approaches.
Zarfl, C. (2008): Chemical Fate of Sulfadiazine in Soil: Mechanisms and Modelling Approaches. Dissertation. Shaker Verlag (Aachen). ISBN 978-3-8322-7491-7.