Add to ORKGBackground Soil microbial communities are major drivers of cycling of soil nutrients that sustain plant growth and productivity. Yet, a holistic understanding of the impact of land-use intensification on the soil microbiome is still poorly understood. Here, we used a field experiment to investigate the long-term consequences of changes in land-use intensity based on cropping frequency (continuous cropping, alternating cropping with a temporary grassland, perennial grassland) on bacterial, protist and fungal communities as well as on their co-occurrence networks. Results We showed that land use has a major impact on the structure and composition of bacterial, protist and fungal communities. Grassland and arable cropping differed markedly wit...
Microbial communities drive many soil ecosystem services and are heavily influenced by land use chan...
Understanding the changes in plant-microbe interactions is critically important for predicting ecosy...
Soil microbes have critical influence on the productivity and sustainability of agricultural ecosyst...
Background Soil microbial communities are major drivers of cycling of soil nutrients that sustain pl...
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
How soil is managed, particularly for agriculture, exerts stresses upon soil microbiomes resulting i...
Intensive land use practices necessary for providing food and raw materials are known to have a dele...
In this study, we investigated the impact of different land use intensities (LUI) on the root-associ...
7 páginas, 3 figuras, 1 tabla. -- This article is available at http://www.sajs.co.zaMany studies, mo...
Root-associated microbes play a key role in plant performance and productivity, making them importan...
Changes in soil microbial community structure due to improvement are often attributed to concurrent ...
Soil microbial communities undergo rapid shifts following modifications in environmental conditions....
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
Microbial communities drive many soil ecosystem services and are heavily influenced by land use chan...
Understanding the changes in plant-microbe interactions is critically important for predicting ecosy...
Soil microbes have critical influence on the productivity and sustainability of agricultural ecosyst...
Background Soil microbial communities are major drivers of cycling of soil nutrients that sustain pl...
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
How soil is managed, particularly for agriculture, exerts stresses upon soil microbiomes resulting i...
Intensive land use practices necessary for providing food and raw materials are known to have a dele...
In this study, we investigated the impact of different land use intensities (LUI) on the root-associ...
7 páginas, 3 figuras, 1 tabla. -- This article is available at http://www.sajs.co.zaMany studies, mo...
Root-associated microbes play a key role in plant performance and productivity, making them importan...
Changes in soil microbial community structure due to improvement are often attributed to concurrent ...
Soil microbial communities undergo rapid shifts following modifications in environmental conditions....
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
The rhizosphere encompasses the soil surrounding the surface of plants’ fine roots. Accordingly, the...
Microbial communities drive many soil ecosystem services and are heavily influenced by land use chan...
Understanding the changes in plant-microbe interactions is critically important for predicting ecosy...
Soil microbes have critical influence on the productivity and sustainability of agricultural ecosyst...
