Scientists have found that global warming in the Middle East and North Africa is making breast, ovarian, uterine and cervical cancer more common and more deadly. The rise in rates is small but statistically significant, suggesting a notable increase in cancer risk and fatalities over time.
The researchers looked at 17 countries in the Middle East and North Africa, where temperatures are expected to rise by 4 degrees Celsius by 2050, and found that these four cancers became more common and more likely to be fatal with each degree rise in temperature. The increase can’t be explained by improved diagnosis or survival rates. The researchers call for the urgent integration of climate change resilience into public health plans, according to an article carried in Frontiers in Public Health.
“As temperatures rise, cancer mortality among women also rises—particularly for ovarian and breast cancers,” said Dr Wafa Abuelkheir Mataria of the American University in Cairo, first author of the article. “Although the increases per degree of temperature rise are modest, their cumulative public health impact is substantial.”
To investigate the effects of climate change on women’s cancer risk, the researchers selected a sample of 17 Middle Eastern and North African countries: Algeria, Bahrain, Egypt, Iran, Iraq, Jordan, Kuwait, Lebanon, Libya, Morocco, Oman, Qatar, Saudia Arabia, Syria, Tunisia, United Arab Emirates and Palestine. These countries are seriously vulnerable to climate change and are already seeing striking temperature rises. The researchers collected data on the prevalence and mortality of breast cancer, ovarian cancer, cervical cancer, and uterine cancer, and compared this information with changing temperatures between 1998 and 2019.
“Women are physiologically more vulnerable to climate-related health risks, particularly during pregnancy,” said co-author Dr Sungsoo Chun of the American University in Cairo. “This is compounded by inequalities that limit access to healthcare. Marginalised women face a multiplied risk because they are more exposed to environmental hazards and less able to access early screening and treatment services.”
Running the numbers
The prevalence of the different cancers rose by 173 to 280 cases per 100,000 people for every additional degree Celsius: ovarian cancer cases rose the most and breast cancer cases the least. Mortality rose by 171 to 332 deaths per 100,000 people for each degree of temperature rise, with the greatest rise in ovarian cancer and the smallest in cervical cancer.
When the researchers broke this down by country, they found that cancer prevalence and deaths rose in only six countries—Qatar, Bahrain, Jordan, Saudia Arabia, the United Arab Emirates, and Syria. This could be due to particularly extreme summer temperatures in these countries, or other factors which the model couldn’t capture. The rise was not uniform between countries: for instance, the prevalence of breast cancer rose by 560 cases per 100,000 people for each degree Celsius in Qatar, but only 330 in Bahrain.
Although this shows that increased ambient temperature is a probable risk factor for these cancers, it also suggests that temperature has a different effect in different countries — so there are likely to be other factors modifying risk. For instance, increased heat could be associated with higher levels of carcinogenic air pollution in some places.
“Temperature rise likely acts through multiple pathways,” said Dr Chun. “It increases exposure to known carcinogens, disrupts healthcare delivery, and may even influence biological processes at the cellular level. Together, these mechanisms could elevate cancer risk over time.”
Risk factors
Higher prevalence could also reflect improvements in cancer screening. However, better screening would be expected to result in fewer deaths, as early-stage cancer is easier to treat. But both death rates and prevalence rose, suggesting that the driving factor is exposure to risk factors.
“This study cannot establish direct causality,” cautioned Dr Mataria. “While we controlled for GDP per capita, other unmeasured factors could contribute. Nonetheless, the consistent associations observed across multiple countries and cancer types provide compelling grounds for further investigation.”
This research also underlines the importance of considering climate-related risks in public health planning.
“Strengthening cancer screening programmes, building climate-resilient health systems and reducing exposure to environmental carcinogens are key steps,” said Dr Chun. “Without addressing these underlying vulnerabilities, the cancer burden linked to climate change will continue to grow.”
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