Long-term nitrogen and phosphorus fertilization reveals that phosphorus limitation shapes the microbial community composition and functions in tropical montane …
Microorganisms govern soil nutrient cycling. It is therefore critical to understand their
responses to human-induced increases in N and P inputs. We investigated microbial …
responses to human-induced increases in N and P inputs. We investigated microbial …
Enzymatic stoichiometry reveals phosphorus limitation-induced changes in the soil bacterial communities and element cycling: Evidence from a long-term field …
Soil microbial growth and activity are generally limited by availability of resources such
carbon (C), nitrogen (N), or phosphorus (P) in terrestrial ecosystems. However, how soil …
carbon (C), nitrogen (N), or phosphorus (P) in terrestrial ecosystems. However, how soil …
Soil carbon stocks in temperate grasslands differ strongly across sites but are insensitive to decade‐long fertilization
Enhancing soil carbon (C) storage has the potential to offset human‐caused increases in
atmospheric CO2. Rising CO2 has occurred concurrently with increasing supply rates of …
atmospheric CO2. Rising CO2 has occurred concurrently with increasing supply rates of …
Geographical, climatic, and soil factors control the altitudinal pattern of rhizosphere microbial diversity and its driving effect on root zone soil multifunctionality in …
Y Yang, K Qiu, Y Xie, X Li, S Zhang, W Liu… - Science of the Total …, 2023 - Elsevier
Shifts in rhizosphere soil microorganisms of dominant plants' response to climate change
profoundly impact mountain soil ecosystem multifunctionality; relatively little is known about …
profoundly impact mountain soil ecosystem multifunctionality; relatively little is known about …
Soil acidification under long-term N addition decreases the diversity of soil bacteria and fungi and changes their community composition in a semiarid grassland
Soil microorganisms play key roles in terrestrial biogeochemical cycles and ecosystem
functions. However, few studies address how long-term nitrogen (N) addition gradients …
functions. However, few studies address how long-term nitrogen (N) addition gradients …
Nitrogen inhibitors improve soil ecosystem multifunctionality by enhancing soil quality and alleviating microbial nitrogen limitation
R Yang, Z Yang, S Yang, L Chen, J Xin, L Xu… - Science of The Total …, 2023 - Elsevier
Soil quality (SQI) is a comprehensive indicator reflecting the agricultural productivity of soil,
and soil ecosystem multifunctionality (performing multiple functions simultaneously; EMF) …
and soil ecosystem multifunctionality (performing multiple functions simultaneously; EMF) …
Tea plantation intercropping green manure enhances soil functional microbial abundance and multifunctionality resistance to drying-rewetting cycles
T Wang, Y Duan, G Liu, X Shang, L Liu, K Zhang… - Science of the Total …, 2022 - Elsevier
Climate change leads to more serious drying-rewetting alternation disturbance, which
furtherly affects soil ecosystem function and agriculture production. Intercropping green …
furtherly affects soil ecosystem function and agriculture production. Intercropping green …
Microbial substrate stoichiometry governs nutrient effects on nitrogen cycling in grassland soils
PM Schleuss, M Widdig, LA Biederman… - Soil Biology and …, 2021 - Elsevier
Human activities have increased nitrogen (N) and phosphorus (P) inputs in terrestrial
ecosystems and altered carbon (C) availability, shifting the stoichiometry of microbial …
ecosystems and altered carbon (C) availability, shifting the stoichiometry of microbial …
Engineering natural microbiomes toward enhanced bioremediation by microbiome modeling
Z Ruan, K Chen, W Cao, L Meng, B Yang, M Xu… - Nature …, 2024 - nature.com
Engineering natural microbiomes for biotechnological applications remains challenging, as
metabolic interactions within microbiomes are largely unknown, and practical principles and …
metabolic interactions within microbiomes are largely unknown, and practical principles and …
Plant–microbial linkages regulate soil organic carbon dynamics under phosphorus application in a typical temperate grassland in northern China
J Shi, J Gong, X Li, Z Zhang, W Zhang, Y Li… - Agriculture, Ecosystems …, 2022 - Elsevier
Anthropogenic activities have increased ecosystem phosphorus (P) inputs and have
affected terrestrial ecosystem carbon (C) cycles. However, the fate of soil organic C (SOC) …
affected terrestrial ecosystem carbon (C) cycles. However, the fate of soil organic C (SOC) …