• Shah, F., Cuevas, C. N., Bentzer, J., Ellström, M., Smits, M., Rineau, F., … Tunlid, A. (2016). Ectomycorrhizal fungi decompose soil organic matter using oxidative mechanisms adapted from saprotrophic ancestors. New Phytologist. Wiley-Blackwell.
    LUP | PDF | DOI
  • Logue, J. B., Stedmon, C. A., Kellerman, A. M., Nielsen, N. J., Andersson, A. F., Laudon, H., … Kritzberg, E. (2016). Experimental insights into the importance of aquatic bacterial community composition to the degradation of dissolved organic matter. The Isme Journal. Nature Publishing Group.
    LUP | PDF | DOI
  • Averill, C., Rousk, J., & Hawkes, C. (2015). Microbial-mediated redistribution of ecosystem nitrogen cycling can delay progressive nitrogen limitation. Biogeochemistry. Springer.
    LUP | PDF | DOI
  • Hagvall, K., Persson, P., & Karlsson, T. (2015). Speciation of aluminum in soils and stream waters: The importance of organic matter. Chemical Geology. Elsevier.
    LUP | PDF | DOI
  • Braesel, J., Götze, S., Shah, F., Heine, D., Tauber, J., Hertweck, C., … Hoffmeister, D. (2015). Three Redundant Synthetases Secure Redox-Active Pigment Production in the Basidiomycete Paxillus involutus. Chemistry and Biology. Cell Press.
    LUP | PDF | DOI
  • Shah, F., Schwenk, D., Cuevas, C. N., Persson, P., Hoffmeister, D., & Tunlid, A. (2015). Involutin is a Fe3+ reductant Secreted by the Ectomycorrhizal Fungus Paxillus involutus during Fenton-based Decomposition of Organic Matter. Applied and Environmental Microbiology. American Society for Microbiology.
    LUP | PDF | DOI
  • Sundman, A., Karlsson, T., & Persson, P. (2015). Reactivity of Fe from a natural stream water towards As(V). Applied Geochemistry. Elsevier.
    LUP | PDF | DOI
  • Rousk, J., & Frey, S. D. (2015). Revisiting the hypothesis that fungal-to-bacterial dominance characterizes turnover of soil organic matter and nutrients. Ecological Monographs. Ecological Society of America.
    LUP | PDF | DOI
  • Meisner, A., Rousk, J., & Bååth, E. (2015). Prolonged drought changes the bacterial growth response to rewetting. Soil Biology & Biochemistry. Elsevier.
    LUP | PDF | DOI
  • Bahr, A., Ellström, M., Bergh, J., & Wallander, H. (2015). Nitrogen leaching and ectomycorrhizal nitrogen retention capacity in a Norway spruce forest fertilized with nitrogen and phosphorus. Plant and Soil. Springer.
    LUP | PDF | DOI
  • Rath, K., & Rousk, J. (2015). Salt effects on the soil microbial decomposer community and their role in organic carbon cycling: A review. Soil Biology & Biochemistry. Elsevier.
    LUP | PDF | DOI
  • Rousk, J., Hill, P. W., & Jones, D. L. (2015). Priming of the decomposition of ageing soil organic matter: concentration dependence and microbial control. Functional Ecology. Wiley-Blackwell.
    LUP | PDF | DOI
  • Kohler, A., Kuo, A., Nagy, L. G., Morin, E., Barry, K. W., Buscot, F., … Clum, A. (2015). Convergent losses of decay mechanisms and rapid turnover of symbiosis genes in mycorrhizal mutualists. Nature Genetics. Nature Publishing Group.
    LUP | PDF | DOI
  • Ellström, M., Shah, F., Johansson, T., Ahrén, D., Persson, P., & Tunlid, A. (2015). The carbon starvation response of the ectomycorrhizal fungus Paxillus involutus. FEMS microbiology ecology. Elsevier.
    LUP | PDF | DOI
  • Lindahl, B. D., & Tunlid, A. (2015). Ectomycorrhizal fungi - potential organic matter decomposers, yet not saprotrophs. New Phytologist. Wiley-Blackwell.
    LUP | PDF | DOI
  • Hagvall, K., Persson, P., & Karlsson, T. (2014). Spectroscopic characterization of the coordination chemistry and hydrolysis of gallium(III) in the presence of aquatic organic matter. Geochimica et Cosmochimica Acta. Elsevier.
    LUP | PDF | DOI
  • Sundman, A., Karlsson, T., Sjoberg, S., & Persson, P. (2014). Complexation and precipitation reactions in the ternary As(V)-Fe(III)-OM (organic matter) system. Geochimica et Cosmochimica Acta. Elsevier.
    LUP | PDF | DOI
  • Rousk, J., Hill, P. W., & Jones, D. L. (2014). Using the concentration-dependence of respiration arising from glucose addition to estimate in situ concentrations of labile carbon in grassland soil. Soil Biology & Biochemistry. Elsevier.
    LUP | PDF | DOI
  • Soares, A., Kritzberg, E., Persson, A., & Berggren, M. (2014). Labile organic carbon in river runoff: the importance of carbon sources and water residence times. Honolulu, Hawaii, United States.
    LUP | PDF | PDF
  • Kritzberg, E., Bedmar Villanueva, A., Jung, M., & Reader, H. (2014). Importance of boreal rivers in providing iron to marine waters. PLoS ONE. Public Library of Science.
    LUP | PDF | DOI
  • Maienza, A., & Bååth, E. (2014). Temperature Effects on Recovery Time of Bacterial Growth After Rewetting Dry Soil. Microbial Ecology. Springer.
    LUP | PDF | DOI
  • Birgander, J., Rousk, J., & Olsson, P. A. (2014). Comparison of fertility and seasonal effects on grassland microbial communities. Soil Biology & Biochemistry. Elsevier.
    LUP | PDF | DOI
  • Reader, H., Stedmon, C. A., & Kritzberg, E. (2014). Seasonal contribution of terrestrial organic matter and biological oxygen demand to the Baltic Sea from three contrasting river catchments. Biogeosciences. Copernicus Publications.
    LUP | PDF | DOI
  • Reischke, S., Rousk, J., & Bååth, E. (2014). The effects of glucose loading rates on bacterial and fungal growth in soil. Soil Biology & Biochemistry. Elsevier.
    LUP | PDF | DOI
  • Rousk, J., & Bengtson, P. (2014). Microbial regulation of global biogeochemical cycles. Frontiers in Microbiology. Frontiers.
    LUP | PDF | DOI
  • Olsson, O., Olsson, P. A., & Hammer, E. (2014). Phosphorus and carbon availability regulate structural composition and complexity of AM fungal mycelium. Mycorrhiza. Springer.
    LUP | PDF | DOI
  • Sundman, A., Karlsson, T., Laudon, H., & Persson, P. (2014). XAS study of iron speciation in soils and waters from a boreal catchment. Chemical Geology. Elsevier.
    LUP | PDF | DOI
  • Kritzberg, E., Granéli, W., Bjork, J., Brönmark, C., Hallgren, P., Nicolle, A., … Hansson, L.-A. (2014). Warming and browning of lakes: consequences for pelagic carbon metabolism and sediment delivery. Freshwater Biology. Wiley-Blackwell.
    LUP | PDF | DOI
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