African Development Bank / Daegu Metropolitan City / International Water Management Institute / Stockholm International Water Institute / UNESCO World Water Assessment Programme

Sustainable infrastructure for inclusive green growth

Wednesday 29 August | 14.00-15.30 | Room: L7
Susanna Starck, SIWI

The Real World: Opportunities and Constraints of Sustainable Infrastructure

This session will present implementation examples of sustainable infrastructure to solve development problems in rural and urban contexts. The session will end with a synthesis of the key messages of the seminar.

Gold standard events are committed to ensure the gender balance in speakers/panellists and young professional representation in the session.


14:00 Introduction
Gyewoon Choi, Incheon National University  

14:05 Keynote Speaker: Daegu Metropolitan City Sustainable Infrastructure
Jum Mun Kang, Director General of Green Environment Bureau, Daegu Metropolitan City

14:15 Keynote Speaker: Implementing a social-ecological landscape approach for wetland management
Alan Dixon, University of Worcester; Adrian Wood, University of Huddersfield

14:25 Q&A 
Gyewoon Choi, Incheon National University  

14:30 Opening Remarks
Gyewoon Choi, Incheon National University   

14:35 Round Table

  • Nassia Kassela, GWP – Mediterranean  
  • Maria Lennartsson, City of Stockholm 
  • Claudia Ringler, IFPRI 
  • Johann Clere, Veolia 
  • Paul Pavelic, IWMI 
  • Xuli Meng, University of Queensland  

14:55 Audience Discussion
Gyewoon Choi, Incheon National University  

15:10 Takeaways

15:20 Seminar Conclusion
Maimuna Nalubega, AfDB

15:30 End of session


Green and grey infrastructure have proven to be most impactful when they are integrated rather than polarised; for sustainable development, both are needed to balance social, economic and environmental considerations. Even though, most of the world’s investment is concentrated around grey infrastructure. Scale, context, timing and availability are important exigencies to optimise the benefits of ‘blended engineering’. A survey of the session participants revealed that 64% believed natural infrastructure provides solutions to all water resource problems; while 36% held an alternative view. At the end of the session, the participants were proportionately divided in their views, reflecting the strong case for the complementarity of green and grey infrastructure.
Many tools and strategies exist that demonstrate the synergies and suitability of green infrastructure to be placed at the core of water and sanitation solutions. Spatial tools - to explore benefits of catchment interventions (Bunn, 2018), and assess and predict the optimal interaction level of green and grey infrastructure (Vörösmarty, 2018) – promote the shift from traditional engineering to combined approaches.
Case studies on managing water supply from rainwater harvesting, grey water reuse system, river bed infiltration, and managed aquifer recharge develop the credibility of green approaches to deal with water resources challenges. Wastewater treatment through wetlands is one of the more common examples of green infrastructure, however considering wetlands as part of a wider, integrated social-ecological systems mushrooms its beneficial impact as it supports livelihoods and natural
Creating an enabling environment that allows for investment in ‘blended’ infrastructure calls for the economic logic of green infrastructure, backed by quantification of benefits and a suite of funding instruments. Leveraging a portfolio of small-scale interventions creates the scale of investment to attract donor funding. However, performance-based monitoring remains complex because of limited research on quantitative impacts, including quantifying the non-traditional benefits of nature-based solutions. The OECD is starting to document tools, methodologies and data for informing investors that nature-based systems really work and are worth investing in.
Daegu City is pioneering the integration of sustainable infrastructure into its water management landscape. Initiatives such as reuse of reclaimed water, rainwater harvesting and recycling of grey water are unfolding many positive effects on the City’s water resources. Other examples from Greece, Stockholm, Niger River Basin, New Orleans, India and Brisbane demonstrate the importance of stakeholder engagement, the connection between sustainable infrastructure and the circular economy, financing mechanisms for resilience, institutional configuration and urban planning to create the space to mainstream sustainable infrastructure.
1. The way projects are assessed and quantified by financial institutions must be boldly challenged to support the utilisation of ‘blended engineering’. This calls for research to fully develop the economics of green infrastructure and cross-coordination between sectors for greater success.
2. There is a call for a shift in the technical conversations, in the science and policy domains, towards propositions that would attract financing of green infrastructure, i.e. discussions that leverage financial resources by building confidence in the outcomes of nature-based solutions.