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- Title
Trophic complexity alters the diversity–multifunctionality relationship in experimental grassland mesocosms.
- Authors
Anujan, Krishna; Heilpern, Sebastian A.; Prager, Case M.; Weeks, Brian C.; Naeem, Shahid
- Abstract
Plant diversity has a positive influence on the number of ecosystem functions maintained simultaneously by a community, or multifunctionality. While the presence of multiple trophic levels beyond plants, or trophic complexity, affects individual functions, the effect of trophic complexity on the diversity–multifunctionality relationship is less well known. To address this issue, we tested whether the independent or simultaneous manipulation of both plant diversity and trophic complexity impacted multifunctionality using a mesocosm experiment from Cedar Creek, Minnesota, USA. Our analyses revealed that neither plant diversity nor trophic complexity had significant effects on single functions, but trophic complexity altered the diversity–multifunctionality relationship in two key ways: It lowered the maximum strength of the diversity–multifunctionality effect, and it shifted the relationship between increasing diversity and multifunctionality from positive to negative at lower function thresholds. Our findings highlight the importance to account for interactions with higher trophic levels, as they can alter the biodiversity effect on multifunctionality.
- Subjects
MINNESOTA; FOOD chains; GRASSLANDS; PLANT diversity; ENVIRONMENTAL degradation; ECOSYSTEMS; BIODIVERSITY
- Publication
Ecology & Evolution (20457758), 2021, Vol 11, Issue 11, p6471
- ISSN
2045-7758
- Publication type
Article
- DOI
10.1002/ece3.7498