Deep Learning of Climate Change and Extreme Events, Hydrological Processes and Land Use Dynamics Relationships
A special issue of Land (ISSN 2073-445X). This special issue belongs to the section "Land Systems and Global Change".
Deadline for manuscript submissions: 28 February 2025 | Viewed by 1799
Special Issue Editors
Interests: surface runoff; soil erosion; land use; climate change
Special Issues, Collections and Topics in MDPI journals
2. Hydraulics and Geotechnics Section, KU Leuven, Kasteelpark Arenberg 40, BE-3001 Leuven, Belgium
Interests: extreme climatic events; climate change and human health impacts; hydrology modeling; water resources; vegetation remote sensing
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
The impact of climate change, particularly the rise in severe extreme events, on hydrological processes, land use patterns, and ecosystem health changes is a critical area of research for understanding and managing the future of our globe. At the same time, changes in hydrological processes and land use, such as decreasing surface flow, deforestation, and urbanization, can contribute to climate change.
With its ability to process large datasets and identify hidden patterns, deep learning has provided new tools for analyzing complex environmental data and developing predictive models. These tools offer a promising avenue for advancing our potential response to environmental challenges.
This Special Issue aims to bring together researchers from diverse fields to apply deep learning methods in investigating climate change, extreme climate events, and their impact on surface flow response and land use changes to enhance our capacity for predicting their inter-relationships and adaptation and mitigating their adverse effects.
We seek to promote the development of new models and tools that can improve our ability to predict and manage complex interactions between the above-mentioned environmental components.
We welcome submissions that address topics including, but not limited to, the following:
- Application of deep learning techniques for predicting extreme climate events and their impact on hydrological process response and land use change.
- Use of deep learning to model the feedback loops between hydrological process response, land use change, and climate dynamics.
- Development of deep learning-based tools for assessing vulnerability and resilience of surface flow processes and land systems to climate change.
- Integration of remote sensing data with deep learning to monitor surface flow and land use changes under extreme climate conditions.
- Deep learning approaches for optimizing hydrological structures, land use planning, and climate adaptation strategies.
- Deep learning enhances the understanding of ecosystem services in the context of climate change, hydrological process response, and land use change.
- Case studies demonstrating the effectiveness of deep learning in managing hydrological structures and land use in the face of extreme climate events.
- Ethical considerations and challenges in applying deep learning to environmental research and decision making.
Prof. Dr. Hanoch Lavee
Dr. Jinping Liu
Guest Editors
Manuscript Submission Information
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Keywords
- deep learning techniques
- climate change impact
- extreme event forecasting
- hydrological data analysis
- land use change monitoring
- predictive environmental modeling
- remote sensing applications
- disaster risk assessment
- water resource optimization
- ecosystem service evaluation
- sustainable development strategies
- environmental decision support
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