11 November 2021

Study first to suggest that increased consumption of ultra-processed foods has environmental implications

A new collaborative study of 30-year changes in the Brazilian diet finds that increased consumption of ultra-processed foods is linked to worsened impacts on the environment, and echoes dietary changes in the UK.

A supermarket trolley in front of full shelves of packaged foods.
  • New 30-year study on Brazilian diet finds increased consumption of ultra-processed foods linked to worsened environmental impacts
  • Study is first of its kind to monitor dietary changes over such a long period of time
  • Data shows similar nutritional transition to Britain over the last 100 years, experts warn as economies of more countries grow, trends in consumption of ultra-processed foods could adversely affect climate change target

The University of Sheffield Institute for Sustainable Food used household budget survey data taken from urban Brazilian households between 1987 to 2018 to contribute to the study published in the journal The Lancet Planetary Health.

It is the first of its kind to use nationally representative data over such a long time frame to demonstrate how changes in a nation’s diet can affect its contribution to climate change.

Over the last 30 years, Brazil has undergone a nutrition transition toward a diet higher in ultra-processed foods, and that of all food types consumed, these have been the largest contributor to worsening impacts on greenhouse gas emissions, the nation’s water footprint and ecological footprint, such as deforestation.

Ultra-processed foods include reconstituted meat products, such as sausages, ready meals, margarines, sweets, soft drinks, and other foods which contain artificial additives like sweeteners and flavours.

Whilst the negative effects of high consumption of ultra-processed foods on health have been outlined for over a decade - including links with obesity, coronary heart disease, diabetes and cancer - there had previously been very little understanding of its effects on the planet.

Experts argue that Britain went through a similar nutrition transition over the last 100 years, and warn that as the economies of more countries grow, so will the trend in the consumption of ultra-processed foods, which could adversely affect their ability to meet climate change targets.

Co-author of the study, Dr Christian Reynolds, visiting fellow from the University of Sheffield’s Institute for Sustainable Food and Senior Lecturer at the Centre for Food Policy, City, University of London said: “For our health and sustainability, ultra-processed foods are already a massive and growing problem.  This study shows that Brazil is experiencing a similar transition in their diet to what has happened in the UK. Both in a shorter time frame and with similar large effects on the environment.

“Our findings suggest that diet-related diseases and climate change share an underlying driver and therefore, should be addressed simultaneously. Multicomponent actions and policies targeting multiple areas should be considered. For instance, fiscal interventions such as taxes or subsidies, regulation on advertising, and improving food and menus labelling with the addition of environmental impacts.”

The study authors calculated the environmental impact of food items purchased, per 1,000 calories (kcal) consumed, for four food groups outlined by the widely used NOVA system: unprocessed/minimally processed foods (G1); processed culinary ingredients (G2); processed foods (G3); and ultra-processed foods (G4).

The study found that while the proportion of G1 and G2 foods in the households’ diet had decreased, the amount of G3 and G4 foods consumed had increased. It found that the increasing environmental impact of G4 foods was driven by an increase in consumption of ultra-processed meat, which at least doubled its contribution to daily environmental impacts per individual, reaching about 20 per cent of total diet-related footprints over the 30-year time frame.

Per 1,000 calories consumed, these changes in the diet were associated with a 21 per cent increased contribution to greenhouse gas emissions, 22 per cent increased contribution to the nation’s water footprint and 17 per cent increased contribution to its ecological footprint.

Nutritionist, and first author of the study, Jacqueline Tereza da Silva, of the Department of Preventative Medicine, University of São Paulo, said: "The relationship between food systems and climate change is complex and challenges food security itself. Food systems are responsible for a third of global greenhouse gas emissions, and yet, at the same time, they suffer from the climate impacts that they themselves help to cause."

Dr Ximena Schmidt, co-author and Global Challenges Research Fellow at the Centre for Sustainable Energy Use, Brunel University London, said: “This study shows for the first time how increasing the consumption of ultra-processed foods has produced more greenhouse gas emissions and used more water and land, even in developing countries like Brazil. We need to help people change their diets to protect the environment and live healthy lives. We need to finally acknowledge that impacts to the environment and health have to be tackled together.”


Notes to editors
The study was funded by the Science and Technology Facilities Council Global Challenges Research Fund (STFC GCRF) project “Trends in greenhouse gas emissions from Brazilian foods using GGDOT” (ST/S003320/1).

Media contact details: Rebecca Ferguson, Media Relations Officer, 0114 222 3670, r.l.ferguson@sheffield.ac.uk


An embargoed (11/11/21, 01:01 GMT) PDF proof of the accepted research article to be published in The Lancet Planetary Health can be found via the link below:

Temporal Trends in Greenhouse Gas Emissions, Water Footprint, and Ecological Footprint of Food Purchases in Brazilian Metropolitan Areas From 1987 to 2017

Read the full research article

Flagship institutes

The University’s four flagship institutes bring together our key strengths to tackle global issues, turning interdisciplinary and translational research into real-world solutions.