Fungal communities are more sensitive to the simulated environmental changes than bacterial communities in a subtropical forest: the single and interactive effects of …
D He, Z Guo, W Shen, L Ren, D Sun, Q Yao, H Zhu - Microbial Ecology, 2023 - Springer
Increased nitrogen deposition (N factor) and changes in precipitation patterns (W factor) can
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
Fungal communities are more sensitive to the simulated environmental changes than bacterial communities in a subtropical forest: the single and interactive effects of …
D He, Z Guo, W Shen, L Ren, D Sun, Q Yao, H Zhu - 2022 - researchsquare.com
Increased nitrogen (N) deposition and changes in precipitation seasonality can greatly
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …
Fungal Communities Are More Sensitive to the Simulated Environmental Changes than Bacterial Communities in a Subtropical Forest: the Single and Interactive …
D He, Z Guo, W Shen, L Ren, D Sun… - Microbial …, 2023 - pubmed.ncbi.nlm.nih.gov
Increased nitrogen deposition (N factor) and changes in precipitation patterns (W factor) can
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
[引用][C] Fungal Communities Are More Sensitive to the Simulated Environmental Changes than Bacterial Communities in a Subtropical Forest: the Single and …
D He, Z Guo, W Shen, L Ren, D Sun… - Microbial …, 2023 - ui.adsabs.harvard.edu
Fungal Communities Are More Sensitive to the Simulated Environmental Changes than
Bacterial Communities in a Subtropical Forest: the Single and Interactive Effects of Nitrogen …
Bacterial Communities in a Subtropical Forest: the Single and Interactive Effects of Nitrogen …
Fungal Communities Are More Sensitive to the Simulated Environmental Changes than Bacterial Communities in a Subtropical Forest: the Single and Interactive …
D He, Z Guo, W Shen, L Ren, D Sun… - Microbial …, 2023 - search.ebscohost.com
Increased nitrogen deposition (N factor) and changes in precipitation patterns (W factor) can
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
greatly impact soil microbial communities in tropical/subtropical forests. Although knowledge …
Fungal communities are more sensitive to the simulated environmental changes than bacterial communities in a subtropical forest: the single and interactive effects of …
D He, Z Guo, W Shen, L Ren, D Sun, Q Yao, H Zhu - 2022 - europepmc.org
Increased nitrogen (N) deposition and changes in precipitation seasonality can greatly
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …
[PDF][PDF] Fungal communities are more sensitive to the simulated environmental changes than bacterial communities in a subtropical forest: the single and interactive …
D He, Z Guo, W Shen, L Ren, D Sun, Q Yao, H Zhu - scholar.archive.org
Increased nitrogen (N) deposition and changes in precipitation seasonality can greatly
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …
impact soil microbial communities in tropical/subtropical forests. Although knowledge about …