The previously stone-covered Clausplein square is located in a dense urban area in the city centre of Eindhoven and is greatly affected by extreme weather events. After reconstruction, the square has become a small urban park with an underground water retention basin.
Vestdijk has been transformed from a busy grey street mostly used by cars into an urban boulevard - creating more space for pedestrians and cyclists, targeting urban heat and air quality. The street now features more green areas such as street trees, rain gardens, and green strips with perennials and mixed grasses.
Space for retention of the urban runoff in the times of heavy rain to complement the measures for enhanced stormwater quality and quantity management in the Vuores area. Vegetation is selected from the local species to support biodiversity, including perennials suitable for wet conditions. Additionally, the area is equipped with the information sign introducing the NbS and its functions.
Az Alföld egyik leginkább elsivatagosodó és az aszálykároknak leginkább kitett részén, a Homokhátságon helyi gazdálkodók tömörültek egy civil szervezetbe, hogy a belvízelvezető csatornák egyszerű elgátolásával segítsék a víz oldalirányú szivárgását a talajban, ezáltal vizet juttatva a környező szántóföldi területek gyökérzónájába. A természetes vízmegtartást széleskörű monitoring és disszeminációs tevékenység kíséri.
The Erasmus+ project „Nature-Based Innovations for Urban Forest and Rainwater Management” supports communities and local authorities in combating climate change through the identification of good practices and the dissemination of innovative solutions and manuals addressed to local authorities, stakeholders, and associations to improve policies and practices to counter climate change from an environmental, social, and economic point of view.
Use of vegetation in urban areas in the Mid-Atlantic watersheds of Washington DC, Montgomery County and Baltimore County MD, has reduced flooding and nutrient runoff. The ‘stormwater green infrastructure’ in these municipalities includes green roofs, bioswales, rain gardens and stormwater ponds. By increasing infiltration and groundwater recharge, and/or evaporation, they reduce the volume of run-off that can contribute to floods.
This project aims to reverse the deterioration of soil fertility and natural resources, contributing to reduce household hunger in the Talensi District, Ghana.