Canopy and understory nitrogen addition alters organic soil bacterial communities but not fungal communities in a temperate Forest
Y Liu, X Tan, S Fu, W Shen - Frontiers in Microbiology, 2022 - frontiersin.org
Atmospheric nitrogen (N) deposition is known to alter soil microbial communities, but how
canopy and understory N addition affects soil bacterial and fungal communities in different …
canopy and understory N addition affects soil bacterial and fungal communities in different …
Chronic enhanced nitrogen deposition and elevated precipitation jointly benefit soil microbial community in a temperate forest
A Yang, B Song, W Zhang, T Zhang, X Li… - Soil Biology and …, 2024 - Elsevier
Global change profoundly impacts carbon and nitrogen (N) cycling processes in terrestrial
ecosystems by altering soil microbial communities. However, how enhanced N deposition …
ecosystems by altering soil microbial communities. However, how enhanced N deposition …
Phosphorus reduces negative effects of nitrogen addition on soil microbial communities and functions
Z Xia, J Yang, C Sang, X Wang, L Sun, P Jiang… - Microorganisms, 2020 - mdpi.com
Increased soil nitrogen (N) from atmospheric N deposition could change microbial
communities and functions. However, the underlying mechanisms and whether soil …
communities and functions. However, the underlying mechanisms and whether soil …
Changes in soil microbial communities under mixed organic and inorganic nitrogen addition in temperate forests
Z Ding, L Gong, H Zhu, J Tang, X Li, H Zhang - Forests, 2022 - mdpi.com
Investigating the response of soil microbial communities to nitrogen (N) deposition is critical
to understanding biogeochemical processes and the sustainable development of forests …
to understanding biogeochemical processes and the sustainable development of forests …
Increased precipitation alters the effects of nitrogen deposition on soil bacterial and fungal communities in a temperate forest
Y Liu, H Wang, X Tan, S Fu, D Liu, W Shen - Science of The Total …, 2024 - Elsevier
Anthropogenic nitrogen (N) deposition and increased precipitation are known to alter soil
microbial communities. However, the combined effects of elevated N deposition and …
microbial communities. However, the combined effects of elevated N deposition and …
Soil bacterial community is more sensitive than fungal community to canopy nitrogen deposition and understory removal in a Chinese fir plantation
Soil microorganisms are key regulators for plant growth and ecosystem health of forest
ecosystem. Although previous research has demonstrated that soil microorganisms are …
ecosystem. Although previous research has demonstrated that soil microorganisms are …
Different responses of soil bacterial and fungal communities to nitrogen deposition in a subtropical forest
China has experienced a widespread increase in N deposition due to intensive
anthropogenic activities, particularly in the subtropical regions. However, the effects of long …
anthropogenic activities, particularly in the subtropical regions. However, the effects of long …
Water rather than nitrogen availability predominantly modulates soil microbial beta-diversity and co-occurrence networks in a secondary forest
J Feng, H Ma, C Wang, J Gao, C Zhai, L Jiang… - Science of the Total …, 2024 - Elsevier
Atmospheric nitrogen (N) deposition and changing precipitation regimes greatly affect the
structure and functions of terrestrial ecosystems. However, their impacts on the diversity and …
structure and functions of terrestrial ecosystems. However, their impacts on the diversity and …
Nitrogen Enrichment Regulates the Changes in Soil Aggregate-Associated Bacterial Community: Evidence from a Typical Temperate Forest
The nitrogen (N) enrichment induced by atmospheric N deposition affects both soil
physicochemical properties and bacterial communities. However, how N enrichment affects …
physicochemical properties and bacterial communities. However, how N enrichment affects …
Effects of different nitrogen additions on soil microbial communities in different seasons in a boreal forest
G Yan, Y Xing, L Xu, J Wang, X Dong, W Shan… - …, 2017 - Wiley Online Library
In the global change scenario, nitrogen (N) deposition has the potential to affect the soil
microbial communities that play critical roles in ecosystem functioning. Although the impacts …
microbial communities that play critical roles in ecosystem functioning. Although the impacts …
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