Showing all publications
2022
Peralta-Maraver, I., Rutere, C., Horn, M. A., Reche, I., Behrends, V., Reiss, J., & Robertson, A. L. (2022). Intermediate Levels of Predation and Nutrient Enrichment Enhance the Activity of Ibuprofen-Degrading Bacteria. Microbial ecology.
doi.org/10.1007/s00248-022-02109-2
,Rohrbach, S., Gkoutselis, G., Hink, L., Weig, A. R., Obst, M., Diekmann, A., Ho, A., Rambold, G., & Horn, M. A. (2022). Microplastic polymer properties as deterministic factors driving terrestrial plastisphere microbiome assembly and succession in the field. Environmental microbiology.
Shenouda, M. L., Ambilika, M., Skellam, E., & Cox, R. J. (2022). Heterologous Expression of Secondary Metabolite Genes in Trichoderma reesei for Waste Valorization. Journal of Fungi, 8(4), [355].
Singh, K. S., Paul, D., Gupta, A., Dhotre, D., Klawonn, F., & Shouche, Y. (2023). Indian sewage microbiome has unique community characteristics and potential for population-level disease predictions. Science of the Total Environment, 858, [160178].
Strauss, J., Biasi, C., Sanders, T., Abbott, B. W., von Deimling, T. S., Voigt, C., Winkel, M., Marushchak, M. E., Kou, D., Fuchs, M., Horn, M. A., Jongejans, L. L., Liebner, S., Nitzbon, J., Schirrmeister, L., Walter Anthony, K., Yang, Y., Zubrzycki, S., Laboor, S., ... Grosse, G. (2022). A globally relevant stock of soil nitrogen in the Yedoma permafrost domain. Nature Communications, 13(1), [6074].
Sugue, M-F., Burdur, A. N., Ringel, M. T., Dräger, G., & Brüser, T. (2022). PvdM of fluorescent pseudomonads is required for the oxidation of ferribactin by PvdP in periplasmic pyoverdine maturation. Journal of Biological Chemistry, 298(8), [102201].
Sugue, M-F. (2022). Towards understanding the mechanisms of the periplasmic pyoverdine maturation. [Doctoral thesis, Gottfried Wilhelm Leibniz Universität Hannover]. Leibniz Universität Hannover.
Sultanta, N., ZHAO, J., Cai, Y., RAHMAN, G. K. M. M., ALAM, M. S., FAHEEM, M., Ho, A., & JIA, Z. (2022). Methanotrophy-driven accumulation of organic carbon in four paddy soils of Bangladesh. PEDOSPHERE, 32(2), 348-358.
Wang, C., Thielemann, L., Dippold, M. A., Guggenberger, G., Kuzyakov, Y., Banfield, C. C., Ge, T., Günther, S., Bork, P., Horn, M. A., & Dorodnikov, M. (2022). Can the reductive dissolution of ferric iron in paddy soils compensate phosphorus limitation of rice plants and microorganisms? Soil Biology and Biochemistry, 168, [108653].
Wang, C., Thielemann, L., Dippold, M. A., Guggenberger, G., Kuzyakov, Y., Banfield, C. C., Ge, T., Guenther, S., Bork, P., Horn, M. A., & Dorodnikov, M. (2022). Microbial iron reduction compensates for phosphorus limitation in paddy soils. Science of the Total Environment, 837, [155810].
