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Canarini, A., Fuchslueger, L., Schnecker, J., Metze, D., Nelson, D.B., Kahmen, A., Watzka, M., Pötsch, E.M., Schaumberger, A., Bahn, M. & Richter, A. (2024). Soil fungi remain active and invest in storage compounds during drought independent of future climate conditions. Nature Communications 15 (1), e10410. 10.1038/s41467-024-54537-y.

Metze, D., Schnecker, J., Canarini, A., Fuchslueger, L., Koch, B.J., Stone, B.W., Hungate, B.A., Hausmann, B., Schmidt, H., Schaumberger, A., Bahn, M., Kaiser, C. & Richter, A. (2023). Microbial growth under drought is confined to distinct taxa and modified by potential future climate conditions. Nature Communications 14 (1) 10.1038/s41467-023-41524-y.

Séneca, J., Pjevac, P., Canarini, A., Herbold, C.W., Zioutis, C., Dietrich, M., Simon, E., Prommer, J., Bahn, M., Pötsch, E.M., Wagner, M., Wanek, W. & Richter, A. (2020). Composition and activity of nitrifier communities in soil are unresponsive to elevated temperature and CO2, but strongly affected by drought. The ISME Journal 10.1038/s41396-020-00735-7.