Posted on 20 December 2021
The report suggests that a more comprehensive system of risk management should be introduced to deal with environmental risks – considered by the UN and World Economic Forum to be among the greatest threats to human life and livelihoods.
Problems like air pollution, food insecurity and zoonotic (animal-borne) disease are complex risks, also known as ‘systemic’ risks. They are environmental in nature, but are influenced by multiple political, economic, social, technological and legal factors.
Interconnected
These systemic risks are becoming more severe in an increasingly interconnected world, especially as the global environment becomes more degraded. However, they tend to be neglected due to their complexity and the very broad expertise needed to understand them.
The research involved the universities of York, Reading and Surrey and Defra, and was funded by the UKRI Natural Environment Research Council.
Professor Tom Oliver, the project lead from the University of Reading, said: “The air we breathe, the food we eat, and our ability to withstand disease are fundamental human needs, but we are failing to protect these from multiple known and unforeseen threats.
“Standard risk management techniques don’t work well to show where the weak points are in our resilience to such complex risks.”
The project involved three case studies: air quality, biosecurity and food security.
Pollution
All these risks also interact with each other. The COVID-19 pandemic has shown how impacts of an airborne disease can be exacerbated by long term air pollution, driving lower respiratory health, as well as how global food supply chains can been disrupted.
Professor Nigel Gilbert, a co-investigator from the University of Surrey and Director of the ESRC Centre for the Evaluation of Complexity Across the Nexus (CECAN), said: “The pandemic has shown how one threat can spread across many areas of life and how policies to mitigate the risks need to consider their side effects and unintended consequences.”
Professor Oliver added: “A positive result of this project, involving over 50 diverse experts across academia, business, third sector and government, is the identification of interventions that can reduce multiple types of risk, killing several birds with the same stone, as the saying goes.”
An example from the report is how improving ventilation in buildings can reduce exposure to indoor toxic chemicals as well as to airborne pathogens like COVID-19. Another example is how reducing unsustainable consumption, such as behavioural choices to eat less red meat, can help reduce emissions to air and ecosystem degradation, improving food security and reducing risk of emergence of new animal-borne diseases like COVID-19.
“These types of intervention to reduce multiple risks are often neglected due to the siloed nature of our government and university departments,” said Professor Oliver. “Efforts for more joined up thinking across government and academia are essential.”
Targets
An example is The Defra Systems Research Programme, which involved investigators Oliver, Doherty and Moller. It was a two-and-a-half year investment to understand how environmental policies interact and can deliver multiple outcomes. The programme was instrumental for helping to set targets in the recent Environment Bill and Defra’s agricultural strategy towards Net Zero. Now, it has expanded into a broader programme- the Systems Innovation and Futures Team in Defra, and similar approaches are being developed in other departments such as BEIS for net zero planning.
“This type of systems thinking in government would now benefit from being to applied to reduce our exposure and vulnerability to complex environmental risks” said Professor Oliver.
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The project gathered experts from a wide range of academic disciplines and sectors – 50 experts in total from over 35 different organisations across sectors – in order to maximise ‘cognitive diversity’ to analyse complex risks. They used an approach known as participatory systems mapping to understand the various pathways by which risks can impact human health, and identified key sources of data to track risks (‘watchpoints’), as well as interventions to reduce risks.
The project titled “Systemic environmental risk– processes to appraise interventions for complex risks” is available to download here
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