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These colourful diagrams show how air quality has changed in over 100 countries around the world since 1850

Air pollution is an unseen menace that to human health and the climate. We have created the , a visual tool that captures global air pollution trends, to bring this hidden threat into sharp focus.

Authors


  • Jim McQuaid

    Associate Professor of Atmospheric Composition, University of Leeds


  • Kirsty Pringle

    Atmospheric Scientist and Project Manager, Software Sustainability Institute, The University of Edinburgh


  • Sam Illingworth

    Professor of Creative Pedagogies, Edinburgh Napier University

Inspired by Ed Hawkins’ , the air quality stripes depict particulate matter (PM) concentrations in 176 cities worldwide since 1850. These tiny particles, often smaller than , can penetrate deep into the lungs, posing serious health risks.

By making air pollution more visible, the stripes provide a clear way to understand how air quality has .

These new stripes reveal a between significant improvements in air quality across Europe and alarming deterioration in parts of Africa and central Asia. Cities like London, Brussels and Berlin are represented by lighter blue stripes, indicating substantial reductions in PM levels. This progress reflects stricter air quality regulations and advancements in reducing emissions.

Conversely, cities in central Asia and Africa, such as Islamabad, Delhi and Nairobi, are depicted by darker hues, reflecting a worrying rise in pollution. Rapid urbanisation, industrial growth and limited regulations are in these regions, while people living in poorer areas are often exposed to .

In 2021, the World Health Organization issued for air quality, revealing that over 99% of the global population lives above recommended levels. The air quality stripes clearly outline the urgent need for targeted international efforts to address this pollution crisis.

Creating the air quality stripes involved more than just illustrating trends – it involved capturing the complexity of air pollution. PM originates from .

Natural contributors, such as desert dust, wildfires and volcanic activity predate the industrial revolution. Human activities like industry, agriculture and vehicle emissions are significant contributors, particularly in urban areas.

We observed the influence of natural sources in certain regions. For example, coastal cities like Jakarta show lower particulate levels than expected, likely due to sea breezes. Conversely, regions near deserts or with frequent wildfires often show higher PM concentrations, reflected by darker stripes.

Between , deaths caused by . As other factors affecting mortality improve, air pollution becomes an increasingly critical issue.

One compelling aspect of the air quality stripes is their historical reach. We combined data from and to estimate PM concentrations back to the industrial revolution. This long-term perspective is crucial for understanding how human activity has shaped air quality over the centuries.

However, this historical analysis presented challenges. Early data is sparse and often anecdotal. For instance, we drew insights from an , which depict the smog-laden skies of London in the late 19th and early 20th centuries.

These artistic interpretations provide valuable context but also highlight the limitations of early air quality records. While we now have literally millions of observations from satellites detailing levels of pollution and the weather patterns that transport them around the world, these are only relatively recent.

For early data points, we have to rely upon as starting points to estimate annual PM concentration profiles. These databases are used to simulate the .

The colour of pollution

A key challenge was choosing a colour scheme that accurately represented the data. We chose a gradient from light blue to black. Light blue represents clean air, while black indicates high levels of pollution. We collaborated with a visualisation expert, , who analysed more than 200 online images with the “air pollution” tag to identify the most appropriate colour palettes.

The resulting visual tool is both scientifically accurate and easy for everyone to understand. Richard Rigby, a research software engineer from at the University of Leeds, helped bring the stripes to life through an . The stripes distil complex data into a format that is instantly recognisable, helping to raise awareness about the global state of air quality.

The air quality stripes are more than just a data visualisation. They are a call to action. By making air pollution visible, we hope to highlight progress and confront ongoing challenges. The stark contrasts between regions remind us that there are major environmental inequities. While some parts of the world are breathing easier, others face an increasingly toxic environment.

The transition to net zero hinges on moving away from using fossil fuels for transport and power generation. That will also dramatically .

The Conversation

The authors do not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and have disclosed no relevant affiliations beyond their academic appointment.

/Courtesy of The Conversation. View in full .