Climate change

Glasgow Green is the largest park in central Glasgow with an area of 55 ha. The Glasgow Green renewal project was planned in order to restore the area from the disrepair and poor aesthetic quality to attractive, extensive open spaces, modern play facilities, spacious winter gardens, and historic people’s palace (Ref 1). The Glasgow Green renewal plan has been devised to restore Glasgow Green (including the People's Palace and Winter Gardens, Fleshers' Haugh and Richmond Park) to its original glory and create an improved visitor attraction. (Ref 3)

The neighbourhood intervention is designed as an eco-neighbourhood with an abundance of green space and facilities to connect its residents to the outdoors and to each other. (Ref. 2, 13) It is part of the European Union Renaissance project that is associated with Lyon, France and Lombardy region, Italy (Ref. 12). In Zaragoza, this district, situated on the south of the city, provides about 10,000 homes (most of which are social housing). From design to construction, the district was developed with bioclimatic criteria. (Ref. 8, 12)

The £1 million project aimed to transform the area from arable land to a high-quality wetland by creating a number of interconnected reed beds and water bodies. The project recreates part of the old wetland landscape that used to exist on the edge of Doncaster 200 years ago before it was drained for other uses. A major benefit of expanding the wetland will be to provide better quality water for local communities and reduce the impact of flooding in the area. The project is a collaboration among WWF, HSBC, Yorkshire Wildlife Trust and the European Union. (Ref 1)

The sustainable garden was created in 2013. Based on the gold award-winning RHS flower show entry in 2012 by the university’s ‘water@leeds’, the garden is an excellent example of collaborative working between the Facilities Directorate, Leeds University Union and academic staff. The garden provides a multi-functional space for staff, students and visitors to campus to enjoy quiet contemplation but also to cultivate an allotment-and-forest-style edible garden. It is a great example of a functioning ecosystem with wildflower areas, soft fruit hedgerows, insect houses and pocket habitats. (1)

The project involves building two green roofs on saunas in Water Park ‘Termy Maltanskie’ in Poznan. The roofs serve multiple purposes including rainwater retention, thermal insulation, habitat for insects, improvement of the air quality by the production of oxygen and absorption of CO2, and aesthetic functions for the visitors to the amenities [1,2,3].

BIO.FOR.POLIS is a project for the cities of Caserta and Napoli, aiming at improving the biodiversity of the two forests under study. Their projects deal with the construction of streams within the Castelvolturno forest to connect the different parts of it. The two forest areas localized within an urban environment aim to improve the conditions of the ecosystems in a condition of human pressure. This is explicitly considered as a climate mitigation strategy. (Ref.1.)

The once rich in fish Nidda river in the north of Frankfurt was canalized and dammed in the 20th century. River loops were pierced, filled in or made into oxbow lakes. Newly built weirs stopped the fish migration. The expansion provided good protection against flooding, but the river became a canal (2).
In the 1990s, the Nidda neighbours developed a program for the renaturation of the river, the concept "Natural Nidda". It was decided by the city council of Frankfurt am Main in 1998 (2). The project consisted of many measures aiming at the restoration of the natural course and ecosystem of the Nidda river, the creation new habitats for flora and fauna, the expansion of the floodplain area and thus the river's retention capacity, the deconstruction of weirs, the renovation and building of bridges and the reconnection of disconnected branches of Nidda. Besides the environmental aspects, another project goal was to make the riverside more accessible for local offering various ways for relaxation and recreation. (2,7)

Saltersgate Junior School has unveiled its new eco-friendly ‘living wall’ - believed to be the first of its type in a UK school. This was part of a larger refurbishment project. The 98-square metre architectural feature will help insulate the building and use surplus rainwater from the roof to water plants. The Scawsby school’s pupils have been involved in the creation. They will also be looking after it and use it as an educational area for studying different types of plants and insects (Ref 1 & 2)

The project area comprises the morphological floodplain of the Rhine to the north and south of the city of Karlsruhe and sections of the river Alb, covering an area of about 7.665 hectares in total. Alongside Karlsruhe, five smaller communities in the neighbourhood contribute to the project as partners. Due to the channelling of the Rhine, the construction of dykes and the isolation of river channels, the area has lost its natural floodplains and precious habitats and became more vulnerable to flooding. Major objectives of the project are the re-introduction of natural floodplains and the enhancement of natural habitats for local flora and fauna. (Ref. 7). The project included an exceptionally wide range of measures including species protection measures, the complete desludging of parts of the Rhine, the re-establishment of softwood and hardwood forests typical of the floodplain, the construction of bridges, the natural remodelling of the entire river Trench systems and the creation of new bodies of water. (Ref. 9) The project also provides environmental education, informing the public about activities and encouraging their participation (Ref. 7)

Vine Court is a student residential complex located at the heart of the University’s city campus. It is equipped with both green and brown roofs, providing environmentally friendly habitats for local flora and fauna, utilizing local plant mixes and building material rubble from the excavated site. (Reference 2). It is at the forefront of sustainable residential development in the UK higher education sector and it was built to a high standard of sustainable design and energy performance. In addition to the eco-technologies incorporated into the structure, the brickwork includes built-in nest boxes for swifts and bats. It has been awarded a design stage BREEAM Excellent certification (Reference 1).