Climate and land cover changes present unprecedented challenges to environmental stability and human well-being. The compound effects of rising temperatures and shifting ecosystems increased the frequency and intensity of extreme weather events, such as hurricanes, droughts, floods, and heatwaves. These events have far-reaching impacts on ecosystems, economies, and communities worldwide, underscoring the urgent need for effective resilience and adaptation strategies.
The Research Topic "Climate-Environment Resiliency and Adaptation" aims to explore the latest research, innovations, and practical approaches to enhancing resilience and adapting to the adverse effects of climate and land cover changes. It will serve as a platform for multidisciplinary discussions that bridge the gap between science, policy, and practice, laying a solid scientific foundation for addressing these critical challenges.
The topic seeks to highlight advances in resilience principles and strategies for mitigating losses from infrastructure failure due to extreme events. These contributions are expected to address the impacts of climate and land cover changes on ecohydrology, resilience-based stormwater infrastructure planning and design, ecosystem-based adaptation, climate adaptation policies and governance, community resilience, technological innovations, water resources dynamics, agricultural water use, and health-related issues arising from these changes. They will help envision a new discipline, prompt relevant research and education, support low-risk decision-making, and improve policy enactment.
We warmly invite submissions from academic researchers, industry professionals, policymakers, or practitioners that explore the following or closely related themes:
• Climate non-stationarity and uncertainty: Addressing future predictions, spatial downscaling, temporal disaggregation, and uncertainty reduction.
• Land cover change and evolution: Analyzing climatic factors, human activities, and their effects on hydrologic processes, topsoil erosions and losses, as well as vegetation composition and structure.
• Resilient infrastructure: Developing innovative concepts and approaches to integrate climate and land cover changes into engineering practice, aiming to minimize failure risk while maximizing recoverability after extreme events. This includes structural and non-structural approaches, such as water resources engineering structures, nature-based solutions, policy frameworks, and community-led initiatives.
• Modeling and data analysis: Developing and applying mathematical models for resilience prediction, with a focus on AI-based modeling and machine learning big data analyses.
• Case studies: Showcasing successful practices, lessons learned, and technological advancements that enhance community adaptivity to climate and land cover changes.
The Research Topic invites original research articles, reviews, and case studies on assessing and adapting to climate and land cover changes, with a particular emphasis on resilience.
Climate and land cover changes present unprecedented challenges to environmental stability and human well-being. The compound effects of rising temperatures and shifting ecosystems increased the frequency and intensity of extreme weather events, such as hurricanes, droughts, floods, and heatwaves. These events have far-reaching impacts on ecosystems, economies, and communities worldwide, underscoring the urgent need for effective resilience and adaptation strategies.
The Research Topic "Climate-Environment Resiliency and Adaptation" aims to explore the latest research, innovations, and practical approaches to enhancing resilience and adapting to the adverse effects of climate and land cover changes. It will serve as a platform for multidisciplinary discussions that bridge the gap between science, policy, and practice, laying a solid scientific foundation for addressing these critical challenges.
The topic seeks to highlight advances in resilience principles and strategies for mitigating losses from infrastructure failure due to extreme events. These contributions are expected to address the impacts of climate and land cover changes on ecohydrology, resilience-based stormwater infrastructure planning and design, ecosystem-based adaptation, climate adaptation policies and governance, community resilience, technological innovations, water resources dynamics, agricultural water use, and health-related issues arising from these changes. They will help envision a new discipline, prompt relevant research and education, support low-risk decision-making, and improve policy enactment.
We warmly invite submissions from academic researchers, industry professionals, policymakers, or practitioners that explore the following or closely related themes:
• Climate non-stationarity and uncertainty: Addressing future predictions, spatial downscaling, temporal disaggregation, and uncertainty reduction.
• Land cover change and evolution: Analyzing climatic factors, human activities, and their effects on hydrologic processes, topsoil erosions and losses, as well as vegetation composition and structure.
• Resilient infrastructure: Developing innovative concepts and approaches to integrate climate and land cover changes into engineering practice, aiming to minimize failure risk while maximizing recoverability after extreme events. This includes structural and non-structural approaches, such as water resources engineering structures, nature-based solutions, policy frameworks, and community-led initiatives.
• Modeling and data analysis: Developing and applying mathematical models for resilience prediction, with a focus on AI-based modeling and machine learning big data analyses.
• Case studies: Showcasing successful practices, lessons learned, and technological advancements that enhance community adaptivity to climate and land cover changes.
The Research Topic invites original research articles, reviews, and case studies on assessing and adapting to climate and land cover changes, with a particular emphasis on resilience.