Plant diversity drives positive microbial associations in the rhizosphere enhancing carbon use efficiency in agricultural soils
AgroParisTech · Université Paris-Saclay · +13 more institutions
Abstract
Expanding and intensifying agriculture has led to a loss of soil carbon. As agroecosystems cover over 40% of Earth’s land surface, they must be part of the solution put in action to mitigate climate change. Development of efficient management practices to maximize soil carbon retention is currently limited, in part, by a poor understanding of how plants, which input carbon to soil, and microbes, which determine its fate there, interact. Here we implement a diversity gradient by intercropping undersown species with barley in a large field trial, ranging from one to eight undersown species. We find that increasing plant diversity strengthens positive associations within the rhizosphere soil microbial community…
Citation impact
- FWCI
- 37.44
- Percentile
- 100%
- References
- 98
Authors
12- LALuiz A. Domeignoz‐HortaCorresponding
AgroParisTech, Université Paris-Saclay, Institut National de Recherche pour l'Agriculture, l'Alimentation et l'Environnement, Institut de Biologia Evolutiva
- SLSeraina L. Cappelli
University of Helsinki, University of Zurich
- RSRashmi Shrestha
University of Helsinki
- SGStephanie Gerin
Finnish Meteorological Institute
- ALAnnalea Lohila
Finnish Meteorological Institute
Topics & keywords
- Rhizosphere
- Environmental science
- Agroecosystem
- Agriculture
- Intercropping
- Soil water
- Soil carbon
- Agroforestry
- Zero hunger