Add to ORKGSoil microbial communities are intricately linked to ecosystem functioning such as nutrient cycling; therefore, a predictive understanding of how these communities respond to environmental changes is of great interest. Here, we test whether phylogenetic information can predict the response of bacterial taxa to nitrogen (N) addition. We analyze the composition of soil bacterial communities in 13 field experiments across 5 continents and find that the N response of bacteria is phylogenetically conserved at each location. Remarkably, the phylogenetic pattern of N responses is similar when merging data across locations. Thus, we can identify bacterial clades - the size of which are highly variable across the bacterial tree - that respond consis...
The Qinghai-Tibet Plateau has experienced an increase in N deposition/input due to global change. Ho...
Bacterial communities in soil serve an important role in controlling terrestrial biogeochemical cycl...
Abstract Although ammonia-oxidizing bacteria (AOB) are likely to play a key role in the soil nitroge...
Soil microbial communities are intricately linked to ecosystem functioning such as nutrient cycling;...
Soil bacterial communities are altered by anthropogenic drivers such as climate change-related warmi...
Terrestrial ecosystems are receiving elevated inputs of nitrogen (N) from anthropogenic sources and ...
Free to read Soil microorganisms are critical to ecosystem functioning and the maintenance of soil f...
Soil bacterial communities are pivotal in regulating terrestrial biogeochemical cycles and ecosystem...
How press disturbance (long-term) influences the phylogenetic turnover of soil microbial communities...
Microorganisms drive much of the Earth's nitrogen (N) cycle, but we still lack a global overview of ...
The nitrogen (N) cycle represents one of the most well-studied systems, yet the taxonomic diversity ...
Abstract Microbial traits related to ecological responses and functions could provide a common curre...
The high diversity of microbial communities hampers predictions about their responses to global chan...
Bacterial communities are important for the health and productivity of soil ecosystems and have grea...
Our knowledge of microbial biogeography has advanced in recent years, yet we lack knowledge of the g...
The Qinghai-Tibet Plateau has experienced an increase in N deposition/input due to global change. Ho...
Bacterial communities in soil serve an important role in controlling terrestrial biogeochemical cycl...
Abstract Although ammonia-oxidizing bacteria (AOB) are likely to play a key role in the soil nitroge...
Soil microbial communities are intricately linked to ecosystem functioning such as nutrient cycling;...
Soil bacterial communities are altered by anthropogenic drivers such as climate change-related warmi...
Terrestrial ecosystems are receiving elevated inputs of nitrogen (N) from anthropogenic sources and ...
Free to read Soil microorganisms are critical to ecosystem functioning and the maintenance of soil f...
Soil bacterial communities are pivotal in regulating terrestrial biogeochemical cycles and ecosystem...
How press disturbance (long-term) influences the phylogenetic turnover of soil microbial communities...
Microorganisms drive much of the Earth's nitrogen (N) cycle, but we still lack a global overview of ...
The nitrogen (N) cycle represents one of the most well-studied systems, yet the taxonomic diversity ...
Abstract Microbial traits related to ecological responses and functions could provide a common curre...
The high diversity of microbial communities hampers predictions about their responses to global chan...
Bacterial communities are important for the health and productivity of soil ecosystems and have grea...
Our knowledge of microbial biogeography has advanced in recent years, yet we lack knowledge of the g...
The Qinghai-Tibet Plateau has experienced an increase in N deposition/input due to global change. Ho...
Bacterial communities in soil serve an important role in controlling terrestrial biogeochemical cycl...
Abstract Although ammonia-oxidizing bacteria (AOB) are likely to play a key role in the soil nitroge...