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Urban greening ‘not a panacea’ for dealing with extreme weather, study finds

Urban greening is unlikely to provide a single fix for tackling extreme weather events brought on by climate change, scientists have suggested.

    Urban greening
    Research suggests strategies such as green roofs and vegetated parks will not be able to mitigate heat waves and flooding at the same time

    A team led by Cardiff University and involving researchers from Nottingham Trent University has shown that the majority of cities around the world will not be able to reduce instances of heatwaves and flooding at the same time through the introduction of strategies such as green roofs, living walls, vegetated urban spaces and parks.

    Publishing their findings today in the journal Nature Communications, the team show that the cooling or flood-reducing potential of green urban spaces depends strongly on the prevailing climate of the city in question, with flood protection likely to be more successful in arid environments, whilst a cooling effect more likely in more humid climates.

    Urban areas each have unique climates that pose significant risks, even more so as climate change increases the likelihood and severity of extreme weather events in the future.

    Heatwaves within our cities can be attributed to the urban heat island effect (UHI), caused by the predominance of concrete and steel that absorb and retain heat, and the lack of cooling by water evaporating from plants. Flooding is part of the urban stream syndrome (USS), whereby city structures and systems negatively affect the natural runoff of rainwater back into the environment.

    To tackle these problems, a commonly proposed strategy is to implement urban greening in our cities in the form of green roofs, living walls, vegetated urban spaces or parks.

    Not only can these measures reduce the UHI and USS effects in our cities, they can also support local wildlife, reduce pollution and improve the general wellbeing of local populations.

    In their study, the team used global climate model outputs and weather information from 175 cities around the world spanning 15 years of daily observations, from 2000 to 2015.

    This data was used in conjunction with theories taken from soil science to calculate water infiltration into soils, which act like a sponge to reduce rainwater runoff, and the evaporation of water from plants, which can induce the desired cooling effect.

    “Our research found that the ability of urban greening to mitigate local flooding and excess heat is not automatic nor, in some areas, even possible,” said lead author of study Dr Mark Cuthbert, from Cardiff University’s School of Earth and Environmental Sciences.

    “Local and regional climatic conditions significantly impact the capacity of urban soils and plant growth to simultaneously defend against flooding and extreme heating. In fact, our findings indicate that in many, possibly the majority, of global cities, urban greening will not be able to mitigate cooling and flooding at the same time.”

    The team also found that increasing variability in rainfall patterns due to climate change may reduce the performance of thinner green structures, such as green roofs, more quickly compared to larger greened areas with thicker soils and root systems.

    They say these things must be considered by urban planners in order to find the best solution for each individual city, with a balance needed between performance, cost and viability.

    “While urban greening may not be a panacea, our results show what’s possible in designing the cities of the future,” Dr Cuthbert concluded.

    Dr Adam Bates, a researcher in Nottingham Trent University’s School of Animal, Rural and Environmental Sciences, said: "This research focuses on the impacts of urban greening on storm water and urban heat island management, but there will also be trade-offs between some of the other potential advantages of urban greening, which include wellbeing, biodiversity conservation and pollution abatement.

    “There is still lots of exciting science to be done to find the best solutions for many of the problems that affect urban environments, and it is likely that the best solutions will vary in different parts of the world.”

    The research was led by Cardiff University in conjunction with scientists at the University of New South Wales, Karlsruhe Institute of Technology and Nottingham Trent University.

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      Nottingham Trent University (NTU) received the Queens Anniversary Prize for Higher and Further Education in 2021 for cultural heritage science research. It is the second time that NTU has been bestowed the honour of receiving a Queen’s Anniversary Prize for its research, the first being in 2015 for leading-edge research on the safety and security of global citizens.

      NTU was awarded Outstanding Support for Students 2020 (Times Higher Education Awards). It was the University of the Year 2019 (Guardian University Awards, UK Social Mobility Awards), Modern University of the Year 2018 (Times and Sunday Times Good University Guide) and University of the Year 2017 (Times Higher Education Awards).

      NTU is one of the UK’s largest universities, with over 33,000 students and more than 4,000 staff located across five campuses. It has an international student population of 4,000 and an NTU community representing around 160 countries.

      In the past 15 years, NTU has invested £450 million in tools, technology and facilities.

      NTU is in the UK’s top 10 for number of applications and ranked first for accepted offers (2019 UCAS UG acceptance data) It is also among the UK’s top five recruiters of students from disadvantaged backgrounds.

      75% of NTU students go on to graduate-level employment or graduate-entry education / training within fifteen months of graduating (Guardian University Guide 2021).

      NTU is 4th globally (and 3rd in the UK) for sustainability in the 2021 UI Green Metric University World Rankings (out of more than 900 participating universities).

      Cardiff University is recognised in independent government assessments as one of Britain’s leading teaching and research universities and is a member of the Russell Group of the UK’s most research intensive universities.

      The 2014 Research Excellence Framework ranked the University 5th in the UK for research excellence. Among its academic staff are two Nobel Laureates, including the winner of the 2007 Nobel Prize for Medicine, Professor Sir Martin Evans. Founded by Royal Charter in 1883, today the University combines impressive modern facilities and a dynamic approach to teaching and research.

      The University’s breadth of expertise encompasses: the College of Arts, Humanities and Social Sciences; the College of Biomedical and Life Sciences; and the College of Physical Sciences and Engineering, along with a longstanding commitment to lifelong learning.

    Published on 26 January 2022
    • Subject area: Geography, horticulture and environment
    • Category: Press office; Research; School of Animal, Rural and Environmental Sciences