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Results: 6
Number of items: 6
  • Open Access
    Schindlbacher, A., Kwatcho Kengdo, S., Heinzle, J., Tian, Y., Mayer, M., Gadermaier, J., Shi, C., Urbina Malo, C., Liu, X., Inselsbacher, E., Jandl, R., Sierra, C. A., Wanek, W., & Borken, W. (2025). Increased Belowground Carbon Allocation Reduces Soil Carbon Losses Under Long-Term Warming. Global Change Biology, 31(10), Article e70561. https://doi.org/10.1111/gcb.70561
  • Tian, Y., Schindlbacher, A., Malo, C. U., Shi, C., Heinzle, J., Kwatcho Kengdo, S., Inselsbacher, E., Borken, W., & Wanek, W. (2023, August 25). Long-term warming of a forest soil reduces microbial biomass and its carbon and nitrogen use efficiencies [Data set]. DRYAD. https://doi.org/10.5061/dryad.931zcrjq3
  • Shi, C., Urbina-Malo, C., Tian, Y., Heinzle, J., Kwatcho Kengdo, S., Inselsbacher, E., Borken, W., Schindlbacher, A., & Wanek, W. (2023, January 9). Does long-term soil warming affect microbial element limitation? A test by short-term assays of microbial growth responses to labile C, N and P additions [Data set]. Zenodo. https://doi.org/10.5061/dryad.41ns1rnjd
  • Open Access
    Tian, Y., Shi, C., Urbina Malo, C., Kwatcho Kengdo, S., Heinzle, J., Inselsbacher, E., Ottner, F., Borken, W., Michel, K., Schindlbacher, A., & Wanek, W. (2023). Long-term soil warming decreases microbial phosphorus utilization by increasing abiotic phosphorus sorption and phosphorus losses. Nature Communications, 14, Article 864. https://doi.org/10.1038/s41467-023-36527-8
  • Open Access
    Shi, C., Urbina-Malo, C., Tian, Y., Heinzle, J., Kwatcho Kengdo, S., Inselsbacher, E., Borken, W., Schindlbacher, A., & Wanek, W. (2023). Does long-term soil warming affect microbial element limitation? A test by short-term assays of microbial growth responses to labile C, N and P additions. Global Change Biology, 29(8), Article gcb.16591. https://doi.org/10.1111/gcb.16591
  • Open Access
    Tian, Y., Schindlbacher, A., Urbina Malo, C., Shi, C., Heinzle, J., Kwatcho Kengdo, S., Inselsbacher, E., Borken, W., & Wanek, W. (2023). Long-term warming of a forest soil reduces microbial biomass and its carbon and nitrogen use efficiencies. Soil Biology and Biochemistry, 184, Article 109109. https://doi.org/10.1016/j.soilbio.2023.109109
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