Microbial necromass under global change and implications for soil organic matter

J Hu, M Du, J Chen, L Tie, S Zhou… - Global Change …, 2023 - Wiley Online Library
Microbial necromass is an important source and component of soil organic matter (SOM),
especially within the most stable pools. Global change factors such as anthropogenic …

[HTML][HTML] Nine years of warming and nitrogen addition in the Tibetan grassland promoted loss of soil organic carbon but did not alter the bulk change in chemical …

H Sun, MWI Schmidt, J Li, J Li, X Liu, NOE Ofiti… - …, 2024 - bg.copernicus.org
Nitrogen (N) and warming effects on ecosystem carbon (C) budgets and stabilization are
critical to understand as C sequestration is considered as a mechanism to offset …

Effects of whole‐soil warming on CH4 and N2O fluxes in an alpine grassland

Y Chen, M Han, W Qin, Y Hou, Z Zhang… - Global Change …, 2024 - Wiley Online Library
Global climate warming could affect the methane (CH4) and nitrous oxide (N2O) fluxes
between soils and the atmosphere, but how CH4 and N2O fluxes respond to whole‐soil …

Seven-year experimental warming decreases labile but not recalcitrant soil organic carbon fractions in a coastal wetland

R Sun, B Sun, X Li, S Wei, M Zhao, X Chu… - Journal of Soils and …, 2023 - Springer
Purpose The response of soil organic carbon (SOC) fractions to climate warming plays an
important role in influencing the fate of soil C stocks. Coastal wetlands have high C …

Contrasting effects of warming and N deposition on soil microbial functional genes in a subtropical forest

Q Zhang, J Zhou, X Li, Y Zheng, L Xie, Z Yang, X Liu… - Geoderma, 2022 - Elsevier
Climate warming and nitrogen (N) deposition are expected to increase in the coming
decades. The consequences of the interaction between warming and N deposition on forest …

[HTML][HTML] Modeling microbial carbon fluxes and stocks in global soils from 1901 to 2016

L He, JLM Rodrigues, MA Mayes, CT Lai… - …, 2024 - bg.copernicus.org
Soil microbes play a crucial role in the carbon (C) cycle; however, they have been
overlooked in predicting the terrestrial C cycle. We applied a microbial-explicit Earth system …

First comprehensive assessment of industrial era land heat uptake from multiple sources

F García-Pereira, JF González-Rouco… - Earth System …, 2024 - esd.copernicus.org
The anthropogenically-intensified greenhouse effect has caused a radiative imbalance at
the top of the atmosphere during the industrial period. This, in turn, has led to an energy …

Influence of environmental factors on soil organic carbon in different soil layers for Chinese Mollisols under intensive maize cropping

W Zhang, LJ Munkholm, T An, X Liu, B Zhang… - Science of The Total …, 2022 - Elsevier
Abstract The Mollisol region of Northeast China has a large soil organic carbon (SOC)
storage which is important for maintaining soil fertility. SOC is susceptible to various …

Synergy between compost and cover crops leads to increased subsurface soil carbon storage

D Rath, N Bogie, L Deiss, S Parikh, D Wang… - SOIL …, 2021 - soil.copernicus.org
Subsurface carbon stocks are a prime target for efforts to increase soil carbon storage for
climate change mitigation and improving soil health. However, subsurface carbon (C) …

Soil organic carbon sequestration

K Lorenz, R Lal - Soil Organic Carbon Sequestration in Terrestrial …, 2022 - Springer
Terrestrial biomes in the US can be managed for SOC sequestration. Sequestration for
climate change adaptation and mitigation occurs when the soil C inputs are derived from …