Abstract
The natural capital and ecosystem services concepts describe the multiple benefits people get from nature. Urbanisation has been identified as one of the key factors influencing the decline of natural capital globally. Urbanisation has also been associated with a recent increase in urban flooding incidents in most cities globally. While the understanding of blue-green infrastructure in urban drainage is well established, little is said about its influence on natural capital. This study utilises the Natural Capital Planning Tool, Benefits Evaluation of Sustainable Drainage Systems tool and expert stakeholder interviews to assess the influence of blue-green and grey infrastructure as adaptation pathways in urban drainage, on natural capital and ecosystem services, and to determine how these contribute to other forms of human-derived capital. Key findings show that blue-green options can enhance natural capital and ecosystem services such as amenity value while also contributing to social and human capital. Although the assessed blue-green options contribute to regulating ecosystem services such as floods regulation, their most significant contribution is in cultural ecosystem services, especially amenity value. It is concluded that incorporating blue-green infrastructure in urban drainage adaptive approaches can mitigate natural capital losses and contribute to other forms of capital crucial for human well-being.
Highlights
The results show that the combination of a pond and bioretention cells (AP2) has the highest highest development impact score on ecosystem services over time, as the impact score development impact score on ecosystem services over time, as the impact score increases increases from 20 to 35 by the year 2050
Flood risk regulation is an essential priority ecosystem service in the study area Aesthetic values and recreation are very important ecosystem services, while water quality regulation is of little importance to local residents
The results presented show that blue-green infrastructure combinations have the potential to enhance natural capital and associated ecosystem services
Summary
Increased urban flooding incidents are one of the common environmental challenges in many cities across the globe [4,5,6], and this, exacerbated by climate change, is expected to increase in most places. Given the rapidly changing situation, there is a need to understand future uncertainties related to urban flooding and climate change while meeting the needs of the growing urban population [7]. This calls for approaches that contribute towards sustainable urban planning and development to cater for the urban development needs, while addressing emerging environmental challenges such as urban flooding and combined sewer overflows (CSO)
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