Understanding regional ‘signals’ essential for effective climate adaptation policy
By: Communications
Understanding regional climate change is essential for guiding effective climate adaptation policy, according to a new study involving the University of East Anglia.
The synthesis of regional climate data highlights emerging climate change signals. Researchers emphasize the increasing intensity of monsoons, altered storm tracks, and polar precipitation shifts, underscoring the critical need for region-specific data to inform effective climate policies and protect communities from escalating risks.
They argue that the effects of climate change are not distant future scenarios or confined to remote parts of the world—they are unfolding now. In 2023, extreme weather events impacted communities across every inhabited continent, causing major flooding, droughts, and wildfires.
While worldwide changes, such as increases in global mean temperature, often dominate discussions of mitigation actions, a detailed understanding of the regional impacts of a warming world is crucial for protecting communities from escalating risks.
The researchers, writing in Frontiers in Science, synthesized results from multiple new studies to provide a clearer picture of these regional climate change impacts.
"We are constantly advancing our understanding of climate change, particularly its regional aspects, to inform policies aimed at adaptation,” said first author Prof Matthew Collins of the University of Exeter
“While global aspects remain important, humanity will feel the impact of climate change at the regional level. This is where infrastructure planning, extreme event preparedness, and management of public health and food security need to up-to-date climate science."
The study revealed a range of emerging climate change signals at the local level that are likely to occur this century, spanning from the equator to the poles.
Co-author Manoj Joshi, Professor of Climate Dynamics at UEA’s School of Environmental Sciences, said: “Understanding the mechanisms for the ongoing amplified warming over land compared to ocean is an important part of the climate change picture.”
In tropical and subtropical regions, dramatic changes in precipitation are expected to significantly alter monsoon intensity, leading to substantial societal impacts. Monsoon systems, which are critical for agriculture, directly affect billions of people.
Approximately 60% of the world’s population resides in the northern hemisphere monsoon regions, where the summer monsoon season can deliver up to 80% of the annual rainfall. As aerosol emissions decrease and greenhouse gases rise, monsoons are predicted to become more intense, potentially resulting in floods, landslides, and reduced agricultural yields.
In the mid-latitudes, high-resolution climate models indicate a potential strengthening of storm tracks into northwestern Europe, increasing the risk of extreme weather.
"Increased monsoon precipitation and storm track rainfall variability can lead to droughts in some regions and high winds and flooding in others, resulting in devastating impacts on agriculture, essential infrastructure, and the overall health of communities,” said co-author Dr Vikki Thompson, from the Koninklijk Nederlands Meteorologisch Instituut, the Netherlands.
In polar regions, projections show that a greater fraction of precipitation will fall as rain rather than snow, potentially accelerating ice melt and amplifying sea-level rise. This transition endangers coastal communities worldwide. Moreover, changes at the poles are not confined to those regions.
Polar amplification, which refers to the phenomenon in which the poles warm faster than the rest of the planet, can influence weather patterns in the mid-latitudes, potentially altering storm tracks.
The study calls for a concerted, interdisciplinary effort in the scientific and policy communities to bridge the gaps in climate modeling. Higher-resolution data, integration of machine learning techniques, and new models will improve the simulation of complex climate phenomena at both global and regional levels.
Such advancements are vital for informing international climate policies and ensuring that local adaptation measures - such as resilient infrastructure, enhanced early-warning systems, and sustainable agricultural practices - are based on the most reliable and precise data.
The paper 'Emerging signals of climate change from the equator to the poles: new insights into a warming world' is part of the Frontiers in Science multimedia article hub ‘Regional climate change impacts’. The hub features an editorial and two viewpoints from other experts: Prof David Frame (University of Canterbury, New Zealand), Swadhin Kumar Behera (Japan Agency for Marine-Earth Science and Technology, Japan), and Prof Shang-Ping Xie (University of California San Diego, USA) - as well as an explainer with infographics.
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