Soil microbes drive the classic plant diversity–productivity pattern
University of Wisconsin–Milwaukee · Smithsonian Tropical Research Institute · +9 more institutions
Abstract
Ecosystem productivity commonly increases asymptotically with plant species diversity, and determining the mechanisms responsible for this well-known pattern is essential to predict potential changes in ecosystem productivity with ongoing species loss. Previous studies attributed the asymptotic diversity-productivity pattern to plant competition and differential resource use (e.g., niche complementarity). Using an analytical model and a series of experiments, we demonstrate theoretically and empirically that host-specific soil microbes can be major determinants of the diversity-productivity relationship in grasslands. In the presence of soil microbes, plant disease decreased with increasing diversity, and…
Citation impact
- FWCI
- 30.23
- Percentile
- 100%
- References
- 32
Authors
12- SAStefan A. SchnitzerCorresponding
University of Wisconsin–Milwaukee, Smithsonian Tropical Research Institute
- JNJohn N. Klironomos
University of British Columbia, Okanagan University College
- JHJanneke HilleRisLambers
University of Washington
- LLLinda L. Kinkel
University of Minnesota
- PBPeter B. Reich
Minnesota Department of Natural Resources, University of Minnesota
Topics & keywords
- Productivity
- Biology
- Ecosystem
- Ecology
- Complementarity (molecular biology)
- Niche differentiation
- Interspecific competition
- Competition (biology)