Abstract
The global nature-climate crisis along with a fundamental shift in world population towards cities and towns has sharpened the focus on the role of urban green infrastructure. Green infrastructure has the potential to deliver cost-effective, nature-based solutions to help mitigate problems of climate change as well as provide improved human well-being through the ecosystem services inherent in landscapes rich in biodiversity. The absence of under-pinning science, specifically complex systems science and ecosystem theory in the design and planning of urban green infrastructure, has limited the capacity of these landscapes to deliver ecosystem services and to effectively demonstrate natural resilience to the impacts of climate change. To meet future challenges of environmental uncertainty and social change, the design of urban green space should embrace an adaptive ecosystem-based approach that includes fully integrated participatory planning and implementation strategies founded on principles of close to nature science. Our article offers two models to inform green space planning: urban green space framework and sustainable urban community network. Both concepts provide the foundation for six ecosystem-based design principles. In a case study on Essex green infrastructure, UK, recommendations made by the Essex Climate Action Commission to transform land management practices are presented as examples of adopting principles of the ecosystem approach and nature-based science. Our article concludes by emphasising the importance of reconnecting society with nature in cities through close-to-nature design of urban green space to secure essential ecosystem services and to build resilience to the impacts of climate change.
Highlights
The state of the planet and the emerging impacts of cli‐ mate change and biodiversity loss are in the top five global risks by “likelihood” and “impact” according to the latest Global Risks Perception Surveys
We explore some of the apparent obstacles faced by urban designers and planners to working with an ecosystem services framework and propose mecha‐ nisms of knowledge transfer, using appropriate concep‐ tual models such as regenerative design and ecosystem‐ based design as heuristic design principles, which are structured around theories of science
We propose two interrelated conceptual models as part of the ecosystem‐based approach to urban design and planning, which are urban green space frame‐ work (UGSF) and sustainable urban community net‐ work (SUCN)
Summary
The state of the planet and the emerging impacts of cli‐ mate change and biodiversity loss are in the top five global risks by “likelihood” and “impact” according to the latest Global Risks Perception Surveys (see World Economic Forum, 2019, 2020, 2021). Modern functional urban planning across the world operates to a “line and grid” system (Stanislawski, 1946), which includes calculating the prox‐ imity and size of open space to residential builds (Moseley et al, 2013; Natural England, 2010) Experts argue that such linear green island models ignore more complex site specific and social factors such as mobility and the dis‐ tance people are prepared to travel from their homes to communal green spaces (Grahn & Stigsdotter, 2003; Moseley et al, 2013). The article presents a contemporary case study in Essex, UK, based on the rec‐ ommendations set out by the Essex Climate Action (ECA) Commission to future‐proof the living landscape against the impacts of rapid environmental change It concludes with a call for more real‐time information on the needs and demands of different user groups to overcome bar‐ riers, and for specific improvements in user ser‐ vice networks
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