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This blog is part of a series curated by The Institution of Civil Engineers (ICE) where World Federation of Engineering Organisations (WFEO) committee members provide a snapshot of climate change impacts and solutions in their part of the world. In this update Lylian Coelho Ferreira, a member of the WFEO Committee on Engineering and the Environment, talks about the issues faced by France due to climate change and how they are being tackled. This blog was originally posted on the ICE website.
What is the level of acceptance in France that climate change is man-made and what actions have been put in place to address it?
Concerns about climate change have risen significantly in recent years. According to the Pew Research Center’s Spring 2018 Global Attitudes Survey, the percentage of people in France who believed climate change was a major threat to their country increased by 29% between 2013 and 2018, from 54% to 83%.
A 2019 YouGov study also found that 58% of French citizens”¯believed drastic measures could”¯reduce”¯the worst effects of climate change, but”¯that 20%”¯thought it was”¯already”¯too late.”¯Here, out of the 28 countries surveyed, only one – India – had a higher percentage of citizens that thought it too late.
In July 2017,”¯France’s minister for the ecological and inclusive transition presented the government’s Climate Plan,”¯which”¯called on all government departments to step up the pace of the energy and climate transition and the implementation of the Paris Agreement.
Under the heading of “Improving everyday life for all”¯French citizens”, the plan includes the following aims:
- Develop clean mobility that is accessible to everyone. Financial compensation will be introduced to encourage people to replace a vehicle that does not meet Crit’Air (air quality certificate) standards with a cleaner one.
- Eradicate fuel poverty in 10 years. In a bid to consign poorly insulated, energy-draining buildings to the past within a decade, the government will offer help to tenants and owners struggling to pay their energy bills.
- Use energy more responsibly. Support will be”¯given”¯to residential areas that would like to produce and use their own renewable energy sources, such as biogas or solar energy.
- Make the circular economy a central feature of the energy transition. Small businesses keen on making savings in terms of energy and resources will be given assistance”¯to halve the amount of waste going to landfill and achieve 100% plastic recycling by 2025.
What are the key issues in France that you consider to be caused by climate change?
Air pollution, waste”¯production and the”¯frequency”¯of extreme precipitation events”¯are”¯the three most important environmental issues in”¯France. It’s difficult to explain how these trends would have arisen without human influence.
Precipitation events have a particular impact on private engineering companies, such as SUEZ”¯,that”¯design”¯water and wastewater”¯schemes.”¯Old”¯sewerage networks”¯can easily be overwhelmed by extreme”¯rainfall,”¯leading to pollution,”¯while”¯predicting”¯future”¯capacity requirements”¯on new projects is equally”¯challenging.
In October 2020 we saw the flooding of”¯houses, roads and bridges”¯in the villages surrounding”¯Nice after almost a year’s average rainfall fell in less than 12 hours. Sections of the Vésubié river swelled by 3m”¯in only 24 hours.
In July 2019, during a Europe-wide heatwave, Paris saw record”¯temperatures of 42.6C.”¯The”¯heatwave killed nearly 1,500 people in France and scientists have”¯noted that the”¯heat levels would likely have been impossible without the”¯influence”¯of climate change.
If the government invested more in combating climate change then we would save the money needed to repair and rebuild following extreme events. The cost of this is so high that business models have to find solutions that anticipate these events.
What do you think engineering could do about these issues?
Civil”¯(and other) engineers”¯can design and build”¯infrastructure projects that enhance cities’ resilience and ability to adapt to the effects of climate change.”¯Engineers could”¯influence climate change effects”¯in three dimensions:
- Direct environmental impacts,”¯such as encouraging biodiversity.
- Indirect environmental impacts,”¯by reducing carbon emissions and the use of greenfield land for building projects.
- Indirect impacts on climate mitigation”¯through”¯politics and”¯planning”¯policies.
Engineers can also have an influence by devising innovations that are incentivised and linked”¯with”¯the”¯UN’s”¯Sustainable Development Goals”¯and by building”¯resilient infrastructure that promotes inclusive and sustainable”¯industrialisation.”¯The”¯benefits of strong, early climate change mitigation actions will far outweigh the costs of doing nothing.
A discipline that has been coined “climate engineering’ or geoengineering”¯is”¯a potential alternative method to curb global warming and has”¯gained”¯considerable attention from the international scientific community, notably in China.
Defined in a Royal Society Policy document as “[humanity’s] planned measures to cope with climate change by altering the environment on the Earth on a large scale”, further research is required into its feasible application, its potential social, economic and environmental impacts and possible global governance structures and governing principles.
What are the main barriers to effective climate action in both your country and the engineering profession?
The costs and benefits of climate change will not be evenly spread across all households and businesses.”¯There are considerable challenges involved in measuring adaptation activity,”¯as well as”¯with allocating roles and responsibilities between levels of governments.
In the absence of guidance on how and when to respond to the potential impacts of climate change, local government authorities may be vulnerable to liability for both action and inaction and will continue to struggle with the question of what constitutes a reasonable response.
What are the key priorities for climate action within engineering?
Delivering solutions to the challenge, whether through decarbonisation of power systems, transport systems and heating, advances in renewable energy or improvements in efficiency, and demand reduction.
Engineers should be planning and building projects that preserve natural resources, are cost-efficient, and support human and natural environments.
Find out more
ICE’s 13th Brunel International Lecture Series , given by The Resilience’s Shift’s very own Seth Schultz, is exploring how the engineering community can deliver a carbon-neutral and resilient society by mid-century.