Publication Details

Category Data Publication
DOI 10.5061/dryad.r4xgxd2j4
Licence creative commons licence
Title (Primary) Tree community composition stabilizes ecosystem functions in response to drought [Dataset]
Author Gottschall, F.; Cesarz, S.; Auge, H. ORCID logo ; Kovach, K.R.; Nock, C.A.; Eisenhauer, N.
Source Titel Dryad
Year 2023
Department BZF; iDiv
Language englisch
Topic T5 Future Landscapes
Abstract In summer 2018, Central Europe was hit by an extreme drought event that widely impacted ecosystems and markedly increased tree mortality in forest ecosystems across the continent. As climate models predict an increase in frequency and severity of such events, there is an urgent need to adapt forests in order to maintain the diverse benefits they provide. Soil processes play an essential role in this context and are key for a plethora of terrestrial ecosystem functions, but they are strongly dependent on water availability. Here, we investigated how tree species richness (TSR), composition, and identity in a 13-year-old temperate tree diversity experiment influenced selected ecosystem functions (as important representatives of different ecosystem processes) during the 2018 summer drought. We focused on the stability of soil microbial biomass and standard litter decomposition, as well as tree species-specific mortality rates. Contrary to our expectations, TSR did not generally increase the resistance of soil functions or decrease tree mortality rates. However, the resistance of these functions was determined by tree species identity and community composition. For the resistance of both soil functions (microbial biomass and litter decomposition), we found that TSR effects depended on the presence of certain tree species. Moreover, we found that the performance of a specific tree species in monoculture, Norway spruce, was a poor predictor of its response to drought in tree species mixtures. Taken together, the results of our study demonstrate that the species composition of tree stands determines tree mortality and the resistance of soil functions under drought. This indicates that enhancing multiple ecosystem functions under environmental disturbance requires maintaining diverse forests.
linked UFZ text publications
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=27829
Gottschall, F., Cesarz, S., Auge, H., Kovach, K.R., Nock, C.A., Eisenhauer, N. (2023):
Tree community composition stabilizes ecosystem functions in response to drought [Dataset]
Dryad 10.5061/dryad.r4xgxd2j4