Scopes
(Including but not limited to the following topics)
Track 1: Environmental Microorganisms
Microbial community structure and functional diversity
Biogeochemical cycles of elements such as carbon, nitrogen, and phosphorus driven by microorganisms
The impact of soil microorganisms and plant interactions on carbon fixation
Marine microorganisms and the "biological carbon pump" mechanism
Carbon metabolism pathways of microorganisms in extreme environments
The application of microbial engineering and synthetic biology in regulating carbon cycles
Environmental transmission and ecological health risks of pathogenic microorganisms
Microbial resource exploration and gene editing technology
Track 2: Climate Change
The impact of climate change on microbial community structure and function
Microbial ecological responses to extreme climate events such as temperature rise and drought
Microbial-mediated release of greenhouse gases due to thawing permafrost
Ocean acidification and the interaction mechanism of microbial communities
Microbial ecological disasters such as cyanobacteria and algal blooms in the context of climate change
Evaluation of ecosystem resilience mediated by microorganisms
Based microbial climate change biological indicator systems
Climate change adaptation and restoration technologies for ecosystems
Track 3: Carbon Cycle
Dynamic changes in terrestrial and marine carbon pools and their microbial driving mechanisms
Soil organic carbon stability and microbial degradation processes
Microbial pathways for the production and consumption of greenhouse gases such as methane and carbon dioxide
Carbon sequestration technologies under artificial intervention (such as biochar, microbial carbon sequestration, etc.)
Microbial-mediated carbon cycle models and global change predictions
Carbon cycle characteristics of key ecosystems such as wetlands, forests, and grasslands
Application of new monitoring technologies in carbon flux measurement
Potential of microbial technology in carbon capture and storage (CCS)
Pollution remediation and ecological engineering based on microorganisms
System simulation of microbial-plant-climate interactions
......
Track 1: Environmental Microorganisms
Microbial community structure and functional diversity
Biogeochemical cycles of elements such as carbon, nitrogen, and phosphorus driven by microorganisms
The impact of soil microorganisms and plant interactions on carbon fixation
Marine microorganisms and the "biological carbon pump" mechanism
Carbon metabolism pathways of microorganisms in extreme environments
The application of microbial engineering and synthetic biology in regulating carbon cycles
Environmental transmission and ecological health risks of pathogenic microorganisms
Microbial resource exploration and gene editing technology
Track 2: Climate Change
The impact of climate change on microbial community structure and function
Microbial ecological responses to extreme climate events such as temperature rise and drought
Microbial-mediated release of greenhouse gases due to thawing permafrost
Ocean acidification and the interaction mechanism of microbial communities
Microbial ecological disasters such as cyanobacteria and algal blooms in the context of climate change
Evaluation of ecosystem resilience mediated by microorganisms
Based microbial climate change biological indicator systems
Climate change adaptation and restoration technologies for ecosystems
Track 3: Carbon Cycle
Dynamic changes in terrestrial and marine carbon pools and their microbial driving mechanisms
Soil organic carbon stability and microbial degradation processes
Microbial pathways for the production and consumption of greenhouse gases such as methane and carbon dioxide
Carbon sequestration technologies under artificial intervention (such as biochar, microbial carbon sequestration, etc.)
Microbial-mediated carbon cycle models and global change predictions
Carbon cycle characteristics of key ecosystems such as wetlands, forests, and grasslands
Application of new monitoring technologies in carbon flux measurement
Potential of microbial technology in carbon capture and storage (CCS)
Pollution remediation and ecological engineering based on microorganisms
System simulation of microbial-plant-climate interactions
......
Important Dates/重要日期
- Submission Deadline: 2026.2.22
- Registration Deadline: 2026.3.1
- Conference Date: 2026.3.9
- Notification Date: About a week after the submission
Submission Portal/投稿方式
Mail Address: iclture_chair@163.com
If you have any question or need any assistance regarding the conference, please feel free to contact our conference specialists:
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+86-15680829715(微信同号)
1347638002
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