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Both diversity and functional composition affect productivity and water use efficiency in experimental temperate grasslands
Walde, M., Allan, E., Cappelli, S. L., Didion-Gency, M., Gessler, A., Lehmann, M. M., … Grossiord, C. (2021). Both diversity and functional composition affect productivity and water use efficiency in experimental temperate grasslands. Journal of Ecology. https://doi.org/10.1111/1365-2745.13765
Dynamic niche partitioning in root water uptake facilitates efficient water use in more diverse grassland plant communities
Guderle, M., Bachmann, D., Milcu, A., Gockele, A., Bechmann, M., Fischer, C., … Hildebrandt, A. (2018). Dynamic niche partitioning in root water uptake facilitates efficient water use in more diverse grassland plant communities. Functional Ecology, 32, 214-227. https://doi.org/10.1111/1365-2435.12948
Plant species richness negatively affects root decomposition in grasslands
Chen, H., Mommer, L., van Ruijven, J., De Kroon, H., Fischer, C., Gessler, A., … Weigelt, A. (2017). Plant species richness negatively affects root decomposition in grasslands. Journal of Ecology, 105(1), 209-218. https://doi.org/10.1111/1365-2745.12650
Plant functional diversity increases grassland productivity-related water vapor fluxes: an Ecotron and modeling approach
Milcu, A., Eugster, W., Bachmann, D., Guderle, M., Roscher, C., Gockele, A., … Buchmann, N. (2016). Plant functional diversity increases grassland productivity-related water vapor fluxes: an Ecotron and modeling approach. Ecology, 97(8), 2044-2054. https://doi.org/10.1890/15-1110.1
Do grassland plant communities profit from N partitioning by soil depth?
von Felten, S., Niklaus, P. A., Scherer-Lorenzen, M., Hector, A., & Buchmann, N. (2012). Do grassland plant communities profit from N partitioning by soil depth? Ecology, 93(11), 2386-2396. https://doi.org/10.1890/11-1439.1