Forum

Climate change is increasing the frequency and severity of natural disasters, such as wildfires, floods, and extreme weather events, posing significant challenges for urban areas. As cities continue to expand, integrating nature-based solutions (NbS) into urban planning and landscape architecture is essential to mitigate these risks and enhance resilience. Wildfires and Green Infrastructure Rising temperatures and prolonged droughts have intensified wildfire risks, particularly in areas where urban development meets natural landscapes. Traditional fire suppression strategies alone are not enough to prevent destruction. Nature-based solutions offer sustainable ways to reduce fire hazards while promoting ecological balance. Fire-Resistant Green Belts – Strategic use of fire-resistant vegetation around cities can act as a buffer zone, reducing the spread of wildfires. Native, drought-resistant species such as oaks, laurels, and specific grass varieties can be integrated into urban forests and green corridors. Sustainable Land Use Planning – Restricting high-risk construction in wildfire-prone zones and implementing fire-resistant materials in urban design can significantly reduce property damage and loss of life. Water Conservation & Green Infrastructure – Efficient irrigation systems, green roofs, and permeable surfaces help maintain moisture levels in the soil, making landscapes less susceptible to wildfires. Floods and Urban Water Management Intensifying storm events and rising sea levels pose a significant threat to cities, increasing the risk of urban flooding and flash floods. In response, landscape architects and urban planners are embracing nature-based flood management solutions to enhance water resilience. Wetland Restoration & Blue-Green Infrastructure – Restoring and integrating wetlands into urban landscapes helps absorb excess water, reduce flood peaks, and filter pollutants. Cities such as Copenhagen and Singapore have successfully implemented these strategies to increase water retention and prevent flooding. Rain Gardens & Bioswales – Vegetated depressions and permeable green spaces can help capture, store, and slowly release rainwater, preventing overwhelming stormwater drainage systems. These systems reduce urban heat islands while also enhancing biodiversity. Sponge Cities Approach – Urban areas designed with permeable pavements, water-absorbing landscapes, and interconnected water retention systems can function as “sponges,” effectively reducing runoff and minimizing flood risks. Landscape Architecture as a Climate Resilience Strategy Landscape architects play a crucial role in climate adaptation by designing urban environments that work with nature rather than against it. By integrating vegetation, water systems, and ecological buffers into city planning, they help reduce climate risks while enhancing the quality of life for urban residents. Urban Forests & Green Corridors – Expanding tree cover and integrating green corridors not only reduce temperatures and carbon emissions but also provide natural disaster buffers for extreme weather conditions. Multi-Functional Open Spaces – Parks and open spaces designed for floodwater storage, cooling, and biodiversity conservation ensure that cities remain adaptable to climate extremes. Coastal & Riverfront Resilience – Using mangroves, dunes, and floodplain restoration techniques helps protect coastal cities and riverfront communities from storm surges and rising sea levels. The Role of EPD-Net in Climate-Resilient Urban Planning The EPD-Net Project is committed to integrating nature-based solutions, AI-driven risk assessment, and GIS-based urban planning tools to enhance urban resilience in the face of climate change. By collaborating with experts from various disciplines, the project seeks to: Promote sustainable urban design through ecological planning🔍 Utilize AI and GIS technologies to assess climate risks🏙️ Encourage cross-disciplinary collaboration in disaster management As cities evolve, nature-based solutions must be at the heart of climate adaptation strategies. By merging innovative technology with ecological wisdom, urban areas can become more sustainable, resilient, and livable for future generations.