The diversity and structure of plant and soil microbial communities are influenced by temporal variability in environmental conditions (e.g., precipitation); however, it is unclear whether the responses of these biotic communities to land use practices (e.g., N fertilization and mowing) also vary over time. Here we investigated how harvesting hay by mowing and applications of N fertilization at different rates (0, 2.5, 5, 10, 20, and 40 g N m−2 yr−1) affected plant, bacterial, and fungal communities by exploring data collected from a field experiment in a semiarid grassland in northern China over two consecutive years of 2017 and 2018. The cumulative precipitation during the growing season differed between the two studied years. The samplin...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Global climate change and nitrogen deposition have been having broad impacts on microorganisms. On t...
<div><p>In many grassland ecosystems, nitrogen (N) and phosphorus (P) are added to improve plant pro...
Atmospheric nitrogen (N) deposition has important effects on soil microbial community diversity and ...
Water and nitrogen are primary limiting factors in semiarid grassland ecosystems. Our knowledge is s...
Grasslands are important ecosystems and make up 40% of the terrestrial ecosystems worldwide. The Inn...
Grasslands are important ecosystems and make up 40% of the terrestrial ecosystems worldwide. The Inn...
Livestock overgrazing influences both microbial communities and nutrient cycling in terrestrial ecos...
Nitrogen (N) fertilization may profoundly affect soil microbial communities. In this study, a field ...
Global changes in nitrogen (N) deposition, precipitation patterns and land use could have an impact ...
Soil microbes are crucial for improving soil quality and productivity. Plastic film mulch (FM), in c...
Grazing exclusion is an effective management practice to restore grassland ecosystem functioning. Ho...
Changes of nitrogen (N) cycle caused by N fertilization and precipitation regimes have affected the ...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Microbial nitrogen (N) transformations play a key role in regulating N cycling in grassland ecosyste...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Global climate change and nitrogen deposition have been having broad impacts on microorganisms. On t...
<div><p>In many grassland ecosystems, nitrogen (N) and phosphorus (P) are added to improve plant pro...
Atmospheric nitrogen (N) deposition has important effects on soil microbial community diversity and ...
Water and nitrogen are primary limiting factors in semiarid grassland ecosystems. Our knowledge is s...
Grasslands are important ecosystems and make up 40% of the terrestrial ecosystems worldwide. The Inn...
Grasslands are important ecosystems and make up 40% of the terrestrial ecosystems worldwide. The Inn...
Livestock overgrazing influences both microbial communities and nutrient cycling in terrestrial ecos...
Nitrogen (N) fertilization may profoundly affect soil microbial communities. In this study, a field ...
Global changes in nitrogen (N) deposition, precipitation patterns and land use could have an impact ...
Soil microbes are crucial for improving soil quality and productivity. Plastic film mulch (FM), in c...
Grazing exclusion is an effective management practice to restore grassland ecosystem functioning. Ho...
Changes of nitrogen (N) cycle caused by N fertilization and precipitation regimes have affected the ...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Microbial nitrogen (N) transformations play a key role in regulating N cycling in grassland ecosyste...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Global climate change and nitrogen deposition have been having broad impacts on microorganisms. On t...
<div><p>In many grassland ecosystems, nitrogen (N) and phosphorus (P) are added to improve plant pro...