Publikationsliste Prof. Dr. Guggenberger
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2022
Maurischat, P., Seidel, M., Dittmar, T., & Guggenberger, G. (2022, Dez 13). Supplementary material to "A DOM continuum from the roof of the world – Tibetan molecular dissolved organic matter characteristics track sources, land use effects, and processing along the fluvial-limnic pathway". https://doi.org/10.5194/egusphere-2022-1375-supplement
Maurischat, P., Lehnert, L., Zerres, V. H. D., Tran, T. V., Kalbitz, K., Rinnan, Å., Gang Li, X., Dorji, T., & Guggenberger, G. (2022). The glacial–terrestrial–fluvial pathway: A multiparametrical analysis of spatiotemporal dissolved organic matter variation in three catchments of Lake Nam Co, Tibetan Plateau. Science of the Total Environment, 838(Part 4), 156542. Artikel 156542. https://doi.org/10.1016/j.scitotenv.2022.156542
Schreider, K., Boy, J., Sauheitl, L., Figueiredo, A. F., Andrino, A., & Guggenberger, G. (2022). Designing a Robust and Versatile System to Investigate Nutrient Exchange in, and Partitioning by, Mycorrhiza (Populus x canesces x Paxillus involutus) Under Axenic or Greenhouse Conditions. Frontiers in Fungal Biology, 3, Artikel 907563. https://doi.org/10.3389/ffunb.2022.907563
Schreider, K., Hofmann, D., Boy, J., Andrino de la Fuente, A., Fernandes Figueiredo, A., Sauheitl, L., & Guggenberger, G. (2022). Mycorrhizal Mediated Partitioning of Phosphorus: Ectomycorrhizal (Populus x canescens x Paxillus involutus) Potential to Exploit Simultaneously Organic and Mineral Phosphorus Sources. Frontiers in Soil Science, 2, Artikel 865517. https://doi.org/10.3389/fsoil.2022.865517
Seemann, A., Akbaba, S., Buchholz, J., Türkkan, S., Tezcaner, A., Woche, S. K., Guggenberger, G., Kirschning, A., & Dräger, G. (2022). RGD-Modified Titanium as an Improved Osteoinductive Biomaterial for Use in Dental and Orthopedic Implants. Bioconjugate chemistry, 33(2), 294-300. https://doi.org/10.1021/acs.bioconjchem.1c00509
Varsadiya, M., Liebmann, P., Petters, S., Hugelius, G., Urich, T., Guggenberger, G., & Bárta, J. (2022). Extracellular enzyme ratios reveal locality and horizon-specific carbon, nitrogen, and phosphorus limitations in Arctic permafrost soils. BIOGEOCHEMISTRY, 161(2), 101-117. https://doi.org/10.1007/s10533-022-00967-z, https://doi.org/10.1007/s10533-023-01020-3
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, Artikel 108653. https://doi.org/10.1016/j.soilbio.2022.108653
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, Artikel 155810. https://doi.org/10.1016/j.scitotenv.2022.155810
2021
Andrino, A., Guggenberger, G., Sauheitl, L., Burkart, S., & Boy, J. (2021). Carbon investment into mobilization of mineral and organic phosphorus by arbuscular mycorrhiza. Biology and fertility of soils, 57(1), 47-64. https://doi.org/10.1007/s00374-020-01505-5
Andrino, A., Guggenberger, G., Kernchen, S., Mikutta, R., Sauheitl, L., & Boy, J. (2021). Production of Organic Acids by Arbuscular Mycorrhizal Fungi and Their Contribution in the Mobilization of Phosphorus Bound to Iron Oxides. Frontiers in Plant Science, 12, Artikel 661842. https://doi.org/10.3389/fpls.2021.661842
