The research found that 33% of NBS were what are known as green solutions. These can include urban green spaces such as parks, green roofs, and green walls that can provide cooling and shade, absorb rainfall, and improve air quality.
A significant proportion (31%) of NBS were hybrid solutions. These can include green roofs that incorporate solar panels or rainwater harvesting systems to capture and use rainwater.
Professor Prashant Kumar, Director of the Global Centre for Clean Air Research (GCARE) and corresponding author of the study, said:
"The good news is that we found a wealth of evidence of more communities successfully adopting nature-based solutions to not only deal with climate change and hazards but societal issues such as water and food security. What is very concerning is that we found a lack of evidence of authorities or organisations investing in nature-based solutions for vulnerable communities outside of Europe."
The team from GCARE analysed the implementation of more than 500 NBS case studies from across the globe. They found more than 88% of them were supported by national policies, which ensured the financial viability of the NBS.
The most common use of NBS was to address water-based hazards such as floods and landslides. This accounted for 45% of all case studies.
The second most common type of hazard addressed by NBS was meteorological/climatological hazards like heatwaves and droughts, which accounted for around 30% of the case studies
The second most common type of hazard addressed by NBS was meteorological/climatological hazards like heatwaves and droughts, which accounted for around 30% of the case studies. Around 24% of the case studies were focused on environmental hazards like soil degradation and air pollution. Fire hazards were the least common type of hazard addressed by NBS, accounting for only around 1% of the case studies.
Professor Kumar commented: "We believe that as much as 68% of the case studies we analysed addressed UN Sustainability goals for life on land, climate action and clean water. Imagine the impact these innovations could have if they were implemented in our most vulnerable communities.
"This is why we believe that knowledge transfer must be near the top of the agenda so we can all benefit from the transformational benefit of nature-based solutions."
The study was supported by the EU project, OPERANDUM (Grant Agreement No: 776848) and published in the Science of the Total Environment journal.
The University of Surrey is a world-leading centre for excellence in sustainability – where our multi-disciplinary research connects society and technology to equip humanity with the tools to tackle climate change, clean our air, reduce the impacts of pollution on health and help us live better, more sustainable lives. The University is committed to improving its own resource efficiency on its estate and being a sector leader, aiming to be carbon neutral by 2030. A focus on research that makes a difference to the world has contributed to Surrey being ranked 55th in the world in the Times Higher Education (THE) University Impact Rankings 2022, which assesses more than 1,400 universities' performance against the United Nations’ Sustainable Development Goals (SDGs).