Turnitin
降AI改写
早检测系统
早降重系统
Turnitin-UK版
万方检测-期刊版
维普编辑部版
Grammarly检测
Paperpass检测
checkpass检测
PaperYY检测
Soil fauna accelerated litter C and N release by improving litter quality across an elevational gradient
L Zhang, J Liu, R Yin, Z Xu, C You, H Li, L Wang… - Ecological …, 2023 - Springer
Background Soil fauna is an important driver of carbon (C) and nitrogen (N) release from
decomposing litter in forest ecosystems. However, its role in C and N cycling concerning …
decomposing litter in forest ecosystems. However, its role in C and N cycling concerning …
Litter decomposition rate response to multiple global change factors: a meta-analysis
Y Liu, A Zhang, X Li, W Kuang, W Islam - Soil Biology and Biochemistry, 2024 - Elsevier
Anthropogenic global change fundamentally impacts ecosystem biogeochemical cycling.
Although litter decomposition is a crucial component of carbon (C) cycling, its response to …
Although litter decomposition is a crucial component of carbon (C) cycling, its response to …
Warming reduces soil CO2 emissions but enhances soil N2O emissions: A long-term soil transplantation experiment
X Zhu, L Chang, Y Hu, Z He, W Wang, D Wu - European Journal of Soil …, 2024 - Elsevier
Climate warming can accelerate soil organic matter decomposition and stimulate soil CO 2
and N 2 O emissions. However, long-term climate warming and land-use changes in …
and N 2 O emissions. However, long-term climate warming and land-use changes in …
Nitrogen addition and plant functional type mediate the mesofauna-driven litter element release of subtropical forest
Purpose Soil mesofauna-associated biogeochemical cycles could be mediated by nitrogen
(N) deposition and plant functional types. However, N addition effects on the contribution of …
(N) deposition and plant functional types. However, N addition effects on the contribution of …