Harnessing the power of machine learning to link climate change and health
For the first time, machine learning algorithms have been deployed to scan evidence on climate change and health across the world.
Funded by the Foreign, Commonwealth and Development Office, researchers from the University of Leeds, London School of Hygiene & Tropical Medicine, and Mercator Research Institute on Global Commons and Climate Change used machine learning to map the global published evidence on climate change, weather and health from 2013 to 2020 and produce an online interactive results platform.
The approach identified the effects on health of air quality and heat to be the most frequently studied in an evidence base dominated by studies from high-income countries and China.
Professor Lea Berrang Ford, Priestley Chair in Climate and Health, led the study. University of Leeds postgraduate researcher Anne Sietsma was also part of the research team.
They found that there is currently very limited evidence from low- and middle-income countries that suffer most from the health consequences of climate change. Evidence on the impact of climate change on mental health and on maternal and child health is extremely limited.
While machine learning has been used in distinct stages of evidence mapping in the past, this is the first time it has been used to independently collate and analyse large quantities of evidence.
Initially the researchers used a sample of nearly 4000 documents to ‘train’ an algorithm to predict the decisions that would be made by a human researcher. The algorithm was then left to self-learn in a process called unsupervised machine learning and identified clusters of words that frequently appeared together relating to climate change and health.
The machine learning approach systematically searched 290,000 potentially relevant publications and then identified and mapped 16,000 papers that were included in the analysis.
In a separate but related study led by the University of Leeds and London School of Hygiene & Tropical Medicine, researchers conducted a systematic review of the effects on health of climate change adaptations in low- and middle-income countries.
The Leeds research team was joined by Professor James Ford, Priestley Chair in Climate Change Adaptation, Professor Tim Ensor from the School of Medicine, and postgraduate researchers Katy Davis and Giulia Scarpa.
They scanned 1682 publications related to climate change adaptation, ranging from responses to flooding, rainfall, drought and extreme heat, predominantly through behaviour change, infrastructure and technology improvements. The review identified 99 relevant publications from 66 low- and middle-income countries.
Although the review identified a few examples of adaptation actions that were reported to have benefits for health, in general there was a worrying lack of good quality evidence.
Professor Alan Dangour, Director for the Centre on Climate Change & Planetary health at the London School of Hygiene & Tropical Medicine, said: “These two review papers identify a worrying lack of evidence from low- and middle-income countries both on the impacts of climate change on health and on the effects on health of climate change adaptation actions. Without this evidence it is hard for countries to define evidence-based responses to the ongoing climate crisis. It is a sickening irony that where the evidence is most urgently needed is exactly where the evidence base is the weakest.”
The authors say that the use of machine learning approaches could lead to the development and curation of ‘living’ evidence platforms. These could help governments prioritise and justify interventions that prepare for and reduce the current and future effects of climate change on human health.
Further information
The two publications referenced are:
1. Lea Berrang Ford. Systematic mapping of global research on climate and health using machine learning. Lancet Planetary Health. DOI: 10.1016/S2542-5196(21)00179-0
2. Pauline F D Scheelbeek et al. The effects on public health of climate change adaptation responses: a systematic review of evidence from low- and middle-income countries. Environmental Research Letters. DOI: 10.1088/1748-9326/ac092c
Main image: Children are forced to wear masks due to the toxic smoke from peat land fires, Palangka Raya, Central Kalimantan. Photo by Aulia Erlangga/CIFOR licenced under CC BY-NC-ND 2.0