Nematode Predation and Competitive Interactions Affect Microbe-Mediated Phosphorus Dynamics
Jie Zheng, Francisco Dini‐Andreote, Lu Luan, Stefan Geisen, Jingrong Xue, Huixin Li, Bo Sun, Yuji Jiang
Abstract
Nematode predation plays an essential role in determining the rhizosphere microbiome. In doing so, predation dynamically affects the soil nutrient cycling, for instance, by shifting the availability of phosphorus (P) for plant uptake. However, the role of nematode predation inducing selective changes in the microbiome and affecting rates of P mineralization remains still largely unknown. Here, we used a field site treated with different fertilizers to investigate the importance of nematode predation influencing P availability and plant productivity, via changes in bacterial taxa producing alkaline phosphomonoesterases (ALP) and ALP activity in the rhizosphere of rapeseed. We integrated field and laboratory experiments to show that nematode predation induces bacterial keystone taxa to compete with the connected members and results in the modulation of ALP-producing bacterial populations and ALP activity in the rhizosphere. Taken together, our study provides novel insights into microbially mediated mechanisms of competitive interaction induced by nematode predation in enhancing P availability in the plant rhizosphere.