Research Output per year
Plant diversity has been shown to determine the composition and functioning of soil biota. Although root-derived organic inputs are discussed as the main drivers of soil communities, experimental evidence is scarce. While there is some evidence that higher root biomass at high plant diversity increases substrate availability for soil biota, several studies have speculated that the quantity and diversity of root inputs into the soil, i.e. though root exudates, drive plant diversity effects on soil biota. Here we used a microcosm experiment to study the role of plant species richness on the biomass of soil bacteria and fungi as well as fungal-to-bacterial ratio via root biomass and root exudates. Plant diversity significantly increased shoot biomass, root biomass, the amount of root exudates, bacterial biomass, and fungal biomass. Fungal biomass increased most with increasing plant diversity resulting in a significant shift in the fungal-to-bacterial biomass ratio at high plant diversity. Fungal biomass increased significantly with plant diversity-induced increases in root biomass and the amount of root exudates. These results suggest that plant diversity enhances soil microbial biomass, particularly soil fungi, by increasing root-derived organic inputs.
|Date made available||11 Apr 2017|
|Publisher||Wageningen University & Research|
Mommer, L., 2017, In : Scientific Reports. 7, 44641.
Research output: Contribution to journal › Article › Academic › peer-review
Eisenhauer, N. (Creator), Strecker, T. (Creator), Lanoue, A. (Creator), Scheu, S. (Creator), Steinauer, K. (Creator), Thakur, M. P. (Creator), Mommer, L. (Creator) (11 Apr 2017). Data from: Root biomass and exudates link plant diversity with soil bacterial and fungal biomass. Wageningen University & Research. 10.5061/dryad.nj3c0