The Residue Chemistry Transformation Linked to the Fungi Keystone Taxa during Different Residue Tissues Incorporation into Mollisols in Northeast China
Q Zhang, X Li, G Chen, N Luo, J Sun, EA Ngozi, X Lu - Agriculture, 2024 - mdpi.com
Managing carbon input from crop straw in cropland ecosystems could increase soil organic
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …
The Residue Chemistry Transformation Linked to the Fungi Keystone Taxa during Different Residue Tissues Incorporation into Mollisols in Northeast China
Q Zhang, X Li, G Chen, N Luo, J Sun, EA Ngozi, X Lu - Agriculture, 2024 - ideas.repec.org
Managing carbon input from crop straw in cropland ecosystems could increase soil organic
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …
The Residue Chemistry Transformation Linked to the Fungi Keystone Taxa during Different Residue Tissues Incorporation into Mollisols in Northeast China
Q Zhang, X Li, G Chen, N Luo, J Sun, EA Ngozi… - Agriculture, 2024 - econpapers.repec.org
Managing carbon input from crop straw in cropland ecosystems could increase soil organic
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …
carbon (SOC) sequestration to achieve C neutrality and mitigate climate change. The …