Fast CB No frills Carbon Brief articles, well formed HTML 2025-04-01T14:45:28Z Carbon Brief Ltd. ©2025 CC BY-NC-ND 4.0 Attribution-NonCommercial-NoDerivs 4.0 International Carbon Brief staff https://cb.2x2.graphics/ <![CDATA[Global warming is ‘exposing’ new coastlines and islands as Arctic glaciers shrink]]> http://cb.2x2.graphics/post/57003 2025-04-01T14:45:28Z Retreating glaciers created 2,500km of “new” coastline and 35 “new” islands in the Arctic between 2000 and 2020, according to a new study.

The research uses satellite images of more than 1,700 glaciers in Greenland, Alaska, the Canadian Arctic, Russian Arctic, Iceland and Svalbard.

The findings show that 85% of these glaciers retreated over 2000-20, revealing 123km of new coastline per year on average.

The study, published in Nature Climate Change, links the acceleration in glacier melt to warmer ocean and air temperatures.

The authors find that just 101 glaciers – less than 6% of the total – were responsible for more than half of the total additional coastline length. 

For example, the retreat of the Zachariae Isstrom glacier in north-east Greenland revealed 81km of new coastline alone.

The study warns that the freshly revealed coastlines are more prone to landslides, which may, in turn, create “dangerous tsunamis” that pose risks to human life and infrastructure. 

A scientist not involved in the study tells Carbon Brief that it remains “unclear” what the implications of the new coastlines will be for the people and ecosystems of the Arctic. 

He suggests that they “may become home to important ecosystems that play a hitherto unquantified role in the global carbon cycle”. 

§ Glacier melt

Glaciers are slow-moving rivers of ice found on almost every continent in the world. They typically advance downhill by a few centimetres every day, driven by their own weight.

The head of a glacier is always found on land – typically at high altitude, where temperatures are low. Here, precipitation and avalanches cause snow to build up on the surface of the glacier. Over time, the snow compacts into ice, adding mass to the glacier. 

Meanwhile, the tail end of the glacier is typically found at lower elevations where the air is warmer. Here, melting ice and evaporating water cause glaciers to lose mass.

As the planet warms, glaciers are melting more rapidly. This often causes the bottom of the glacier – known as the “terminus“, “snout” or “toe” – to recede, reducing the overall length of the glacier. This is known as terminus retreat.

Over 2000-19, glaciers collectively lost around 267bn tonnes (gigatonnes, or Gt) of ice every year. A recent report by the UN warned that many glaciers will “inevitably” disappear entirely over the coming decades.

A separate study estimated that even if the world successfully limits global warming to 1.5C, glaciers could lose a quarter of their total mass by 2100. 

Glaciers can be broadly split into categories based on their location. For example, while “land-terminating” glaciers end on land, “marine-terminating” glaciers flow into the ocean, where they often end in a “floating glacier tongue” that sits on the surface of the water.

When marine-terminating glaciers melt and retreat, new areas of coastline are often revealed. Research shows that marine-terminating glaciers in the northern hemisphere have cumulatively lost 10Gt of mass every year over 2000-20 due to terminus retreat.

The northern hemisphere is home to around 1,500 of the world’s roughly 200,000 glaciers. 

The new study assesses how much new coastline has been exposed due to terminus retreat in marine-terminating glaciers in the northern hemisphere over 2000-20.

§ Satellite monitoring

The authors used a pre-existing dataset to identify all the marine-terminating glaciers in the northern hemisphere. They then manually assessed satellite imagery – mainly from Sentinel-2 – to digitise the new coastline that was exposed as a result of glacier retreat around Greenland, Alaska, the Canadian Arctic, Russian Arctic, Iceland and Svalbard over 2000-20.

Dr Jan Kavan is the lead author of the study and a researcher at the University of South Bohemia’s Centre for Polar Ecology. He tells Carbon Brief that the researchers opted for a manual approach because algorithms trained to identify the position of glaciers “don’t work very well” on coastlines.

This is because Arctic coastlines tend to be highly variable, Kavan explains. For example, glaciers near the coastline may be covered in debris – making it hard for an algorithm to recognise them. 

Dr Simon Cook is a senior lecturer in environmental sciences at the University of Dundee, who wrote a “news and views” piece about the study published in Nature climate change. He praises the study, telling Carbon Brief that manually identifying coastlines is “labour-intensive and slow work, but widely regarded to be robust”. 

The authors inspected 1,704 marine-terminating glaciers in total. They find that 2,466km of new coastline formed between 2000 and 2020 – an average of 123km of new coastline every year. 

The map below shows where the coastline was added (red) and lost (blue) due to changes in glacier terminus positions over 2000-20. The yellow circles the total length of new coastline added in different regions, where larger circles indicate greater additions.

The authors note that the rate of new coastline formation varies highly between regions. Just 101 glaciers were responsible for more than half of the total additional coastline length, they say.

Two-thirds of the new coastline identified in this study were in Greenland, the authors say. The melt of the Zachariae Isstrom glacier in north-east Greenland has resulted in the formation of 81km of new coastline – more than twice as much as any other glacier in the study – according to the paper.

Retreating glaciers also exposed 35 new islands with areas larger than 0.5 square kilometres (km2), according to the study. 

§ Changing coastlines

Rising ocean and air temperatures are the main reason that marine-terminating glaciers are rapidly losing mass, the study says. However, many other factors may affect how quickly new coastline forms due to glacier melt. 

According to the authors, 85% of the glaciers in the study retreated between 2000 and 2020. 

However, not all of these led to the development of new stretches of coastline. 

For example, glaciers that stretch out far into the sea could experience “extensive retreat” without any new coastline forming, according to the paper.

Conversely, glaciers in “deep and narrow fjords” can expose long new areas of coast by losing only a small volume of ice.

The authors note that the most “dramatic” glacier retreats are due to ice shelves or floating tongues breaking off the main glacier and collapsing into the water.

Meanwhile, glacier advances – when glaciers gain mass more quickly then they lose it, or temporarily “surge” forwards – can cause a loss of coastline. (Surges are short-lived periods when the glacier moves faster than its normal rate, often due to meltwater which builds at the base of the glacier and acts as a lubricant.)

The paper finds that more than 50 metres of coastline was lost due to glacier advances. Two-thirds of this gain was in Svalbard due to a “surge” of the Nathorstbreen glacier system, according to the paper.

Lead author Kavan tells Carbon Brief that other studies have assessed coastline gain from “individual glaciers” or “small regions”, but says this is the first paper to quantify coastline gain across the entire northern hemisphere for a uniform time period.

Dr Robert McNabb, a lecturer at Ulster University who was not involved in the study, tells Carbon Brief the study “highlights the importance and immense value of having long-term, freely available satellite archives for research”. 

§ Tsunami risk

Glacier melt is often discussed in the context of water security, as the world’s 200,000 glaciers store around 70% of the Earth’s fresh water. However, Kavan tells Carbon Brief that the impact of retreating glaciers on the bedrock is often “neglected”.

Using a map of rock types across the Arctic, the authors analyse the changing conditions of the new coastlines. They find that most of the new coastline is formed of metamorphic bedrock – a type of rock formed from intense heat and pressure. Meanwhile, softer sedimentary rocks, which are more susceptible to erosion, dominate the newly formed coastlines in eastern Svalbard.

In his news and views piece, Cook – the University of Dundee environmental sciences lecturer – explains that the newly revealed coastlines are known as “paraglacial”. He writes:

“Paraglacial coasts differ from other established areas of Arctic coastline because permafrost will not yet have had time to develop in these freshly revealed areas, meaning that they are more easily eroded by wave action, mass wasting and other processes because of a lack of icy cement. They are, therefore, expected to be highly dynamic.”

Cook says it is “currently unclear” what the implications of the new paraglacial coastlines will be for the people and ecosystems of the Arctic. He suggests that the new coastlines “may become home to important ecosystems that play a hitherto unquantified role in the global carbon cycle”. 

Image - Vegetation by the Jakobshavn Isbrae glacier in Greenland. Image credit: Veronika Kavanova (note)

Freshly revealed paraglacial coastlines can be more prone to landslides, which may, in turn, cause “dangerous tsunamis”, the paper notes. As an example, it points to a tsunami on 17 June 2017 in Greenland, which caused “substantial infrastructure damage and loss of life”. 

Dr Anna Irrgang is a coastal geomorphologist at the Alfred Wegner Institute and was not involved in the study. She tells Carbon Brief that the study “may help in detecting potential risk-zones” for such tsunamis. 

She adds that the dataset provided in this study can be used as a “first estimation of the hazard potential”, but adds that “a more in-depth risk analysis needs to be undertaken at the local scale, where communities might be exposed to these arising dangers”. 

Meanwhile, Kavan tells Carbon Brief that marine-terminating glaciers are considered “biodiversity hotspots”. Meltwater from the glacier causes upwellings at the terminus of the glacier, creating “nutrient-rich water” that is vital for many polar species, he says.

As a result, ongoing glacier retreat may result in many of these habitats being lost, putting species like bearded seals and Arctic-dwelling birds at risk, he adds.

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<![CDATA[Guest post: Saudi Arabia’s surprisingly large imports of solar panels from China]]> http://cb.2x2.graphics/post/56980 2025-03-31T10:30:20Z Saudi Arabia and Pakistan were among the top importers of Chinese solar panels in 2024, with more than half heading to countries in the global south.

The findings come from Ember’s China’s solar PV export explorer, which tracks shipments to more than 200 countries and was recently updated with figures for the full year of 2024.

In total, China’s solar panel exports rose by 10% in 2024, with imports by global-south countries rising by 32% and those to the global north falling by 6%.

This means Chinese exports grew less quickly than the 30% rise in solar installations outside China last year, indicating that other countries have been boosting their own solar manufacturing capacity and that already-imported stocks were being run down.

Apart from Pakistan and Saudi Arabia, which both witnessed different solar booms last year, there was also a sharp uptick in sales to many small African and Latin American countries in late 2024, suggesting that China may be finding new markets for its solar exports.

China itself – the biggest of all the global-south solar markets – installed more solar panels than it exported for the second year in a row.

This article analyses the latest trends from China’s solar export data, highlighting the markets currently seeing record growth and the trends that underlie this.

§ Global-south sales surge

China’s exports of solar panels to the global south have doubled in the past two years, overtaking global-north sales for the first time since 2018, according to data collated in the Ember export explorer. 

Global-south imports more than doubled from 60 gigawatts (GW) in 2022 to 126GW in 2024. That surpassed global-north imports, which were only 12% more in 2024 than in 2022, as shown on the chart below.

Image - Annual solar panel exports from China, GW, to the global south (red) and the global north (blue). Categorisation as “global south” or “global north” from UNCTAD. Source: Ember. - Bar chart: China's solar panel exports to global south have overtaken global north after more than doubling in two years (note)

§ Biggest solar importers

The Netherlands was the biggest importer in 2024 and has been every year since 2019, as a result of Rotterdam serving as an import hub for much of continental Europe. The following four places were all global-south countries, the data shows.

Brazil was in second place again, importing more than 20GW for the second year in a row. However, the imposition of import taxes by the government, the refusal of electricity distributors to connect new solar systems and solar “curtailment” are all causing headwinds in 2025. 

Pakistan and Saudi Arabia jumped to third and fourth, respectively. (The next section charts the rise of these two very different solar giants, from the 12th and 26th biggest importers, respectively, in 2022 into the top five.)

India was in fifth place in 2024. Its module imports remained similar to those in 2023, but its installations rose to a record high, enabled by a step up in new domestic solar panel manufacturing capacity. 

In January 2025, that helped India hit 100GW of solar installed, according to government figures. India is partly relying on Chinese imports, whilst simultaneously scaling up its own manufacturing industry.

The other large global-south markets – identified in the export explorer data – are also spread across the world, as shown in the figure below.

They include the UAE and Oman in the Middle East, Thailand and the Philippines in south-east Asia and then South Africa, Chile, Uzbekistan and Mexico.

Image - The top 25 markets for Chinese solar panel exports in GW, between 2021 and 2024. Source: Ember. - Charts: The top 25 markets for China's solar panel exports in 2024 (note)

§ Pakistan and Saudi Arabia

Pakistan and Saudi Arabia have had almost identical imports of Chinese solar panels for the past two years. They stood at 8GW in 2023 and then more than doubled to 17GW in 2024, placing them as the third and fourth largest importers in the world, the export explorer shows. Their monthly imports from China are shown in the figure below.

Image - Pakistan and Saudi Arabia’s monthly solar panel imports from China in GW, between 2017 and 2025. Source: Ember. - Chart: Chinese solar panel imports are surging in Pakistan and Saudi Arabia (note)

However, that is where the similarities end. Pakistan’s growth has come almost entirely from small-scale “distributed” installations, without co-located battery storage and paid for by consumers. Saudi Arabia’s growth has come almost entirely from desert solar farms, complete with some battery storage and paid for by international energy companies.

Pakistan’s solar boom was ignited by spiralling electricity costs and chronic power shortages, which have put energy at the heart of the country’s economic problems. 

The country installed 10-15GW of solar in 2024 alone, according to Bloomberg estimates. Pakistan’s peak electricity demand was just 30GW in 2023, which gives an idea of how big solar has become in the country. 

Large utility-scale solar is minimal – only 0.63GW of such capacity is operational. Instead, almost all of the new solar capacity was installed on rooftops or next to factories or fields, for direct use by consumers.

However, hardly any battery capacity was installed alongside the new solar panels, meaning people and companies still rely on the grid for electricity outside of sunny hours.

The surge in solar capacity has helped drive down electricity generation from fossil fuels, despite fast-growing electricity demand. However, it also “threatens to disrupt” the grid, where demand has created at the same time as becoming more variable.

Turning to Saudi Arabia, solar panels are used mostly in large desert renewable auction tenders. There have been five solar tender rounds in 2017, 2019, 2021, 2023 and 2024. 

The latest tender round contracted 3.7GW of large-scale desert solar parks, achieving the cheapest reported electricity prices in the world of $13 (£10) per megawatt hour. (Note that these reported prices are somewhat artificial and are likely to underestimate the full cost.) 

None of the winning solar parks were contracted with batteries. However, parallel battery tender rounds are now commencing.

There are estimated to be only 3.3GW of solar projects currently operational in Saudi Arabia, but a further 5.4GW are under construction. The solar plant owners are international energy firms including KEPCO, EDF Renewables, Masdar and TotalEnergies, as well as Saudi companies. 

The country plans to move from near-zero renewables in 2020 to 50% of its total electricity generation coming from renewables in 2030. In relative terms, this is one of the most ambitious renewable targets anywhere in the world. 

§ New markets

There were 15 countries that saw a large uptick in imports of Chinese solar panels towards the end of 2024, according to the export explorer data and shown in the figure below.

Image - Monthly imported capacity across new markets in 2024, in megawatts (MW). Source: Ember. - Charts: Solar panel exports to new markets surged in late 2024 but could reflect year-end targets (note)

There were large increases in Nigeria, Algeria and Iraq, where there is clear evidence that demand for panels is growing. 

For example, Nigeria’s growth was driven by blackouts in 2024 and the removal of fuel subsidies, making diesel generators more expensive to run. 

Iraq is currently constructing its first large solar plant, while another 7.5GW of projects were approved by the government in 2024 to meet growing electricity demand.

Meanwhile, Algeria has a plan for 3GW of solar projects, which is now underway

For a cluster of a further 12 countries, it is less clear if the recent uptick in solar panel imports is a structural change that will continue into 2025 and beyond.

There are large incentives for China’s solar manufacturing companies to meet year-end targets, so it is possible that containers of solar panels were sold at discounted rates to help meet these goals.

The cluster includes many small African countries – Benin, Burkina Faso, Chad, Djibouti and Guinea – and Latin American countries – Ecuador, El Salvador, Guyana and Nicaragua.

The December 2024 imports are quite large in the context of the small electricity systems of many of these countries. As such, these solar panels would provide a relatively meaningful increase in renewable electricity generation if they go on to be installed.

§ China installs more than exports

China has not just been exporting growing numbers of solar panels. – In 2024, it installed more solar panels than it exported for the second year running, according to Ember analysis.

Indeed, China installed 333GW of solar capacity domestically in 2024, some 38% more than the 242GW of solar panels that it exported, as shown in the figure below.

Image - Annual solar installations within China (red) and overseas panel exports (blue), 2017-2024, GW. Source: Ember. - Bar chart: China now installs more solar panels than it exports (note)

From 2019 to 2022, China had been exporting more solar panels overseas than it installed domestically. However, that changed when China’s solar panel installations surged from 103GW in 2022 to 260GW in 2023. 

By the end of 2024, China had a total installed solar capacity of 1,064GW, making it the first country to achieve the 1 terawatt (TW) benchmark. 

§ Reducing reliance on China

China’s solar exports grew for the seventh consecutive year in 2024, rising to a record 242GW, Ember’s data shows. 

Exports rose by 10% year-on-year, which was a significant slowdown from the rate of growth seen in recent years. However, solar installations outside of China grew by 30%.

This demonstrates a step-up in ambitions to reduce reliance on Chinese solar panel imports by a number of countries around the world. 

For example, India’s solar panel manufacturing capacity has skyrocketed in recent years. In 2023, it added 23GW and a further 11GW was completed in the first half of 2024. India’s reported module and cell production capacities stood at around 80GW and 7GW, respectively, as of March 2025. 

However, the country still relies on imported Chinese solar cells. The value of shipments to India rose 30% from $970m in 2023 to $1.3bn in 2024, accounting for almost half (48%) of China’s cell exports. 

This reliance is seen as a temporary but essential part of the transition to full India manufacturing capability, as solar cell manufacturing capacity steps up, with the aim that projects contracted through the government solar auctions only use locally-sourced cells from June 2026

The EU is on track to meet its 30GW of solar panel manufacturing target in 2025. However, the numbers are relatively small compared to other regions. Europe had 22GW of solar module manufacturing capacity in 2024, with 12GW in the construction pipeline.

The US does not import Chinese panels, but it does rely heavily on imports from other Asian countries. It imported 51GW of solar panels in the first 10 months of 2024, more than 90% of which were from Vietnam, Thailand, Malaysia, India or Cambodia. 

US manufacturing capacity rose from 7GW in 2020 to 50GW in early 2025, with plans announced for a further 56GW, according to trade association the Solar Energy Industries Association

]]>
<![CDATA[DeBriefed 28 March 2025: South Korea’s record-breaking wildfires; Arctic sea ice hits record-low peak; Butterfly biodiversity imperilled]]> http://cb.2x2.graphics/post/56944 2025-03-28T14:34:15Z Welcome to Carbon Brief’s DeBriefed.
An essential guide to the week’s key developments relating to climate change.

§ This week

Raging wildfires

SOUTH KOREAN BLAZE: Wildfires in south-eastern South Korea – the “worst wildfires in its history” – have killed at least 27 people and displaced more than 37,000 from their homes, the Korea Times reported. The Chosun Daily said that the 1,300-year-old Gounsa Temple “was reduced to ashes” and the fire continues to endanger many of the “most prized cultural assets”. A “spate” of recent wildfires in South Korea and Japan have been “linked to climate change”, the Japan Times said.

FUEL TO THE FIRES: Parts of North and South Carolina have been under evacuation orders due to several large, uncontained wildfires, with “millions of downed trees” from September’s Hurricane Helene fuelling the blazes, the Raleigh News & Observer reported. The Guardian added: “Many people in the area are still getting over the hurricane.”

UK climate and energy roundup

DEADLINE DROPPED: The UK’s High Court “agreed to push back the deadline” for the government to modify its “delivery plan” needed to meet its legally binding climate targets, BusinessGreen reported. The plan was published in 2023, but had been “subject to a legal challenge from green groups, which alleged it was not sufficiently detailed”, the outlet added.

‘GREEN SILENCE’: UK chancellor Rachel Reeves made “no mention of green issues” in her spring statement, the Guardian reported, adding that this “silence [came] as a relief” to “green experts”, given cuts announced elsewhere. Meanwhile, the Chinese owner of British Steel “rejected a £500m lifeline offer from the UK government, raising fears about thousands of jobs at the steelmaker”, the Financial Times reported.

§ Around the world

  • IT’S ELECTRIC: Chinese automaker BYD “topped $100bn” in sales of electric vehicles and plug-in hybrids, surpassing electric-only manufacturer Tesla, the Financial Times said. Tesla sales have fallen 49% year-on-year in Europe in 2025, ABC News noted, even as EV sales overall grew 28%.
  • CARBON MARKET: China released plans to include its steel, cement and aluminium industries in the country’s carbon-trading market, Reuters reported.
  • COAL COMMITMENT: Germany’s incoming coalition “stand[s] by” plans to phase out coal power by 2038, according to a leaked draft reported by Euractiv, which noted the outgoing government had “favoured” 2030.
  • POWER SURGE: Record temperatures in 2024 meant “global energy demand surged” last year, according to a report from the International Energy Agency covered by the Wall Street Journal. A record 585 gigawatts of new renewables were added last year, Axios reported, citing International Renewable Energy Agency data.
  • SHIP-SHAPE: In Climate Home News, Kenya’s special envoy for climate change, Ambassador Ali Mohamed, “unequivocally” endorsed a proposed carbon levy on emissions from ships.

§ 267

The number of days in 2024 – nearly three-quarters of the year – in which the US was experiencing a “major disaster”, according to analysis of US Federal Emergency Management Agency data by the International Institute for Environment and Development and CNN.

§ Latest climate research

  • Research in the Journal of Environmental Psychology found that political polarisation around climate change becomes more pronounced as countries become wealthier.
  • In China, compound hot-dry and hot-wet events became more frequent, long-lasting and intense from 1985 to 2019, with serious implications for crop losses, a new study in Earth’s Future found.
  • A study in Environmental Research Letters detailed a machine learning-driven model capable of accurately forecasting marine heatwaves 10 days in advance. 

(For more, see Carbon Brief’s in-depth daily summaries of the top climate news stories on Monday, Tuesday, Wednesday, Thursday and Friday.)

§ Captured

The US National Snow and Ice Data Center announced that Arctic sea ice reached its annual maximum extent on 21 March. At 14.33m km2, the winter peak is the smallest in the 47-year satellite record. Dr Julienne Stroeve, a senior scientist at the NSIDC, told Carbon Brief that the record low “continue[s] the overall long-term decline in the ice cover”.

§ Spotlight

Warming may turn butterfly hotspots from ‘safe havens to graves’

This week, Carbon Brief covers a new study that mapped and analysed the biodiversity of butterfly species around the world.

Up to a third of butterfly biodiversity “hotspots” will become too warm for the species they host by 2070, according to new research.

The study, which analysed distributional data on more than 12,000 butterfly species, was published this week in Nature Ecology & Evolution

It found that two-thirds of butterfly species are mountain-dwellers, with mountains holding 3.5 times more butterfly biodiversity hotspots than lowland ecosystems.

The lead author of the paper told Carbon Brief he hopes that the approach laid out in the study will “broadly boost the representation of insects in global ecology and conservation”.

Image - The heliconius erato butterfly on a leaf in Ecuador. Credit: Citizen Kepler / Alamy Stock Photo. Image ID: 2XAB7G0. (note)

Mapping hotspots

Butterflies are “uniquely well-documented among insects”, Dr Stefan Pinkert, a researcher at Germany’s University of Marburg, told Carbon Brief. 

But, even so, “much of this information remain[s] fragmented and inaccessible”, said Pinkert, who led the new study.

Pinkert and his colleagues used a country-level database of butterfly occurrences, along with regional range maps and previously published species-distribution models, to model the distribution of 12,119 butterfly species. They then calculated and mapped the “richness” and “range rarity” of butterfly species around the world.

Species richness was calculated as the number of unique species in the database for a given area. “Range rarity” is inversely proportional to the range size of the species in an area.

For both richness and range rarity, the researchers defined a “hotspot” as the 5% of areas around the world with the highest value of each quantity. They found that only 10% of species richness hotspots and 10% of range rarity hotspots overlap. The study said that this underlines the “limited value” of species-richness hotspots for identifying conservation priorities.

Pinkert told Carbon Brief that he was concerned to find that only 40-45% of butterfly biodiversity hotspots overlap with the biodiversity hotspots of land animals. Land-animal biodiversity has historically “served as main surrogates for defining” priorities for global conservation, he added.

Warming warning

The researchers also found that around two-thirds of all butterfly species they studied live in mountain regions, with species richness peaking at around 2,500 metres elevation and range rarity peaking at 3,500 metres. They noted that, while mountains are known for their species richness, the concentration of butterfly biodiversity is “substantially” higher than it is for other types of organisms, such as plants, birds and reptiles.

They then used climate models to project warming over the next 45 years – as well as how those temperature changes will affect butterfly habitat in the future. 

They found that “temperature niche loss” – warming beyond the safe temperature range for species in a given area – would erode up to one-third of species-richness hotspots globally, under a very-high emissions scenario, with some areas losing nearly two-thirds of their hotspot area. Under a moderate emissions scenario, sub-Saharan Africa and south-east Asia would each lose a quarter of their temperature niches.

The loss of safe temperature niches was greater for hotspot areas than non-hotspot areas. The authors concluded that under accelerating warming, mountains might be converted “from safe havens to graves”. 

Pinkert told Carbon Brief:

“Our results underscore the urgent need to prioritise insect conservation amid global change…Business-as-usual in prioritisation and implementation [of conservation actions] will threaten ecosystem integrity – the foundation of our well-being and that of future generations.”

§ Watch, read, listen

TIMELY TREK: Latin America Reports chronicled a journey to visit Colombia’s melting Andean glaciers on the country’s “climate change trail”. 

ENERGY OUTLOOK: Kaare Sandholt of top Chinese thinktank the Energy Research Institute talked about the country’s energy transformation outlook – recently covered by Carbon Brief – on the Environment China podcast.

TRUMP-PROOF TOOLS: The Guardian recreated a climate-risk tool that had been purged from the US Federal Emergency Management Agency’s website under Trump’s anti-climate directives.

§ Coming up

§ Pick of the jobs

DeBriefed is edited by Daisy Dunne. Please send any tips or feedback to debriefed@carbonbrief.org.

This is an online version of Carbon Brief’s weekly DeBriefed email newsletter. Subscribe for free here.

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<![CDATA[Arctic sea ice winter peak in 2025 is smallest in 47-year record]]> http://cb.2x2.graphics/post/56947 2025-03-28T14:30:27Z Arctic sea ice has recorded its smallest winter peak extent since satellite records began 47 years ago, new data reveals.

Provisional data from the US National Snow and Ice Data Center (NSIDC) shows that Arctic sea ice reached a winter maximum extent of 14.33m square kilometres (km2) last week.

This is 1.31m km2 below the 1981-2010 average maximum and 800,000km2 smaller than the previous low recorded in 2017, according to the data.

Dr Julienne Stroeve, a senior scientist at the NSIDC, tells Carbon Brief that such a small winter peak “doesn’t mean a record-low” summer minimum will necessarily follow in September.

But, she adds, it does “continue the overall long-term decline in the ice cover”. 

Meanwhile, Antarctic sea ice reached its summer minimum extent earlier this month, with 2025 tying with 2022 and 2024 for the second-smallest summer low on record, the NSIDC says. 

The combination of reduced sea ice cover in both the Arctic and Antarctic means that global sea ice extent dwindled to an “all-time minimum” in February this year, according to the Copernicus Climate Change Service (C3S).

§ Record low

Arctic sea ice extent changes throughout the year. It grows during the winter towards its annual maximum extent – often referred to as its “winter peak” – in February or March. It then melts throughout the spring and summer towards its September minimum.

Using satellite data, scientists can track the growth and melt of sea ice, allowing them to determine the size of the ice sheet’s winter maximum extent. This is a key way to monitor the “health” of the Arctic sea ice.

On 22 March 2025, Arctic sea ice reached its smallest-ever winter peak, according to the NSIDC. At 14.33m km2, this was 1.31m km2 below the 1981-2010 average maximum and 800,000km2 below the previous low, which was recorded in 2017.

The chart below shows Arctic sea ice extent over the satellite era (1978 to the present day). Red indicates the 2025 extent, while shades of blue indicate different years over 1978-2024.

Image - Daily Arctic sea ice extent (in millions of km2) over the satellite era (1978 to present), where lines indicate individual years. This year is shown in red, while darker blues indicate more recent years. The dashed line indicates the record low. Credit: Carbon Brief - Chart: Arctic sea ice extent 1978-2025 (note)

NSIDC senior research scientist Dr Walt Meier told the Press Association:

“This new record low is yet another indicator of how Arctic sea ice has fundamentally changed from earlier decades. But, even more importantly than the record low, is that this year adds yet another data point to the continuing long-term loss of Arctic sea ice in all seasons.”

§ Freeze season

The growth season for Arctic sea ice kicked off after reaching its summer minimum extent of 4.28m km2 on 11 September last year. This was the Arctic’s seventh-lowest summer low on record. 

As temperatures cooled, the NSIDC says that Arctic sea ice grew slowly at the start of October. Ice growth then sped up towards the middle of the month and then slowed again towards its end. The average sea ice extent for October was 5.94m km2 – the fourth lowest on record, according to the NSIDC.

Throughout November, air temperatures over the Arctic Ocean were “mixed”, according to the NSIDC. It says that temperatures were above average from coastal Canada to northern Scandinavia, as well as in the area north of Greenland, but below average over the Beaufort, Bering and Laptev Seas.

Image - Map showing main regions of the Arctic. Credit: Carbon Brief - Map showing main regions of the Arctic. (note)

Arctic sea ice grew at a steady pace for most of November – mainly in the Kara, Beaufort and Chukchi Seas, as well as Baffin Bay and the Canadian Arctic archipelago. However, in the Hudson Bay – where air temperatures were 1-5C above average – “no appreciable sea ice” formed, according to the NSIDC.

The November extent averaged 9.11m km2, ranking the third lowest in the satellite record and 1.59mkm2 below the 1981-2010 average, the NSIDC says.

December saw above-average air temperatures over “essentially all of the Arctic Ocean”, with a particularly “prominent” area of warmth off the Canadian Arctic archipelago and Greenland, the NSIDC says.

Due to delayed ice growth in the Hudson Bay and low extent in the northern Barents Sea, December Arctic sea ice extent was the lowest in the satellite record at 11.43m km2. 

Daily Arctic sea ice extent decreased sharply at the end of January, when the region lost about 0.3m km2 – an area roughly the size of Italy – in less than a week, according to C3S.

It adds that “such a rapid decrease is unusual at this time of year, when sea ice is typically expanding towards its annual maximum”. It points to the “pronounced warm event” over the Greenland Sea and Svalbard region as the reason for the drop.

Dr Rick Thoman – a specialist in the Alaskan climate from the University of Alaska Fairbanks – tells Carbon Brief that the sea ice decrease in late January and early February was partially driven by “separate cyclones producing simultaneous south winds across much of the Barents and Bering Seas”. As winds pushed the ice northwards, “ocean wave action” melted the thin ice at the edge of the ice sheet, he says.

February was marked by slow Arctic sea ice growth, resulting in a record-low February Arctic sea ice extent of 13.75m km2, according to the NSIDC. The organisation adds that daily sea ice growth “stalled” twice in the month, which “helped to contribute to low ice conditions and led to overall ice retreat in the Barents Sea”.

This rapid melt was partially driven by above-average temperatures. Between northern Greenland and the north pole, temperatures reached up to 12C above average, the NSIDC says.

§ Antarctic melt

At the south pole, Antarctic sea ice has been declining during the southern hemisphere summer. It reached its annual minimum of 1.98m km2 on 1 March.

This summer low ties with 2022 and 2024 for the second-smallest Antarctic extent in the 47-year satellite record, the NSIDC says. It adds that the past four years are the only years on record in which Antarctic sea ice has reached a minimum below 2m km2.

The graphic below shows Antarctic sea ice extent over the satellite era. Red indicates the 2025 extent and shades of blue indicate different years over 1978-2023. 

Image - Daily global sea ice extent (in millions of km2) over the satellite era (1978 to present), where lines indicate individual years. This year is shown in red, while darker blues indicate more recent years. The dashed line indicates the record low. Credit: Carbon Brief - Chart: Antarctic sea ice extent 1978-2025 (note)

The melt season for Antarctic sea ice began with its winter maximum of 17.2m km2 on 19 September 2024. 

This was 1.6m km2 smaller than the 1981-2010 average maximum and the second-lowest winter peak on record, according to the NSIDC.

As the southern hemisphere warmed, Antarctic sea ice began to melt. Throughout October, Antarctic sea ice extent continued to rank the second lowest on the satellite record following the record-breaking 2023 season, the NSIDC says. 

It adds that “seasonal ice loss was relatively slow during the early part of the month, but the pace picked up substantially during the last week of October, approaching 2023 values”.

By 30 November, Antarctic sea ice was the third lowest on record, tracking higher than the 2023 and 2016 levels for the same date, the NSIDC says.

Image - Map showing the main regions of the Antarctic. Credit: Carbon Brief - Map showing the main regions of the Antarctic. (note)

After a “prolonged period of record to near-record daily lows set in 2023 and 2024”, December 2024 saw Antarctic sea ice loss slow down, with the average rate of decline tracking “well below average”. 

By the end of December 2025, Antarctic sea ice extent was roughly in line with the 1981-2010 average, according to the NSIDC.

As a result, it says that “speculation that the Antarctic had entered a new regime of strongly reduced Antarctic sea ice related to oceanic influences, has, at least temporarily, come to an end”.

It adds that sea ice extent was “above average over the western Weddell and Amundsen Seas and slightly below average in the Ross Sea, with near-average extents in other areas”. 

Throughout February, Antarctic sea ice continued to melt – especially in the eastern Ross Sea and Amunsden sea, where ice concentration is low, according to the NSIDC.

§ Global ‘all-time minimum’

With sea ice at or around record lows in both the Arctic and Antarctic, global sea ice extent dropped to an “all-time minimum” in February this year, according to the Copernicus Climate Change Service (C3S).

Global sea ice hit a new daily low in early February and remained below the previous record from 2023 for the rest of the month, C3S says.

The graphic below shows global sea ice extent over 1978-2025, where red indicates the 2025 extent and shades of blue indicate different years.

Image - Daily Antarctic sea ice extent (in millions of km2) over the satellite era (1978 to present), where lines indicate individual years. This year is shown in red, while darker blues indicate more recent years. The dashed line indicates the record low. Credit: Carbon Brief - Chart: global sea ice extent 1978-2025 (note)

C3S deputy director Dr Samantha Burgess noted that the low sea ice came as “February 2025 continues the streak of record or near-record temperatures observed throughout the last two years”. She added: 

“One of the consequences of a warmer world is melting sea ice – and the record or near-record low sea ice cover at both poles has pushed global sea ice cover to an all-time minimum.”

The story was picked up in newspapers around the world, including the Guardian, Hindustan Times and Washington Post.

In response to the news from C3DS, Prof Richard Allan – a professor of climate science at the University of Reading – warned that “the long-term prognosis for Arctic sea ice is grim”. He added: 

“Averaging over all regions the global warming trend is clear, with February 2025 more than 1.5C above pre-industrial conditions, repeating a level of excess warmth experienced in all but one of the past 20 months despite a weak cooling influence of La Niña conditions in the Pacific.”

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<![CDATA[Global soil moisture in ‘permanent’ decline due to climate change]]> http://cb.2x2.graphics/post/56926 2025-03-27T18:00:00Z A new study warns that global declines in soil moisture in the 21st century could mark a “permanent” shift in the world’s water cycle.

Combining data from satellites, sea level measurements and observations of “polar motion”, the research shows how soil moisture levels have decreased since the year 2000.

The findings, published in Science, suggest the decline is primarily driven by an increasingly thirsty atmosphere as global temperatures rise, as well as shifts in rainfall patterns.

Consequently, the researchers warn the observed changes are likely to be “permanent” if current warming trends continue.

An accompanying perspective article says the study provides “robust evidence” of an “irreversible shift” in terrestrial water sources under climate change.

The drying out of soil “increases the severity and frequency” of major droughts, with consequences for humans, ecosystems and agriculture, explains Dr Benjamin Cook, an interdisciplinary Earth system scientist working at the NASA Goddard Institute for Space Studies and Columbia University, who was not involved in the research.

He tells Carbon Brief:

“Droughts are one of the most impactful, expensive natural hazards out there, because they are typically persistent and long lasting. Everything needs water – ecosystems need water, agriculture needs water. People need water. If you don’t have enough water – you’re in trouble.”

§ Drying soil

Every year, around 6tn tonnes of water cycles through Earth’s land surface. When rain falls on land it gets held up in soil, wetlands, groundwater, lakes and reservoirs on its journey back to the oceans.

Soil moisture forms a critical part of the Earth’s system, helping to irrigate soil, cycle nutrients and regulate the climate. 

The amount of water contained in the soil is sensitive to a range of factors, including changes in rainfall, evaporation, vegetation and climate – as well as human activity, such as intensive agriculture. 

The research points to a “gradual decline” in soil moisture levels in the 21st century, kickstarted by a period of “sharp depletion” in the three years over 2000-02.

Specifically, the researchers find the depletion of soil moisture resulted in a total loss of 1,614bn tonnes (gigatonnes, or Gt) of water over 2000-02 and then 1,009Gt between 2002 and 2016.

(For context, ice loss in Greenland resulted in 900Gt of water loss over 2002-06.) 

Soil moisture has not recovered as of 2021, according to the research, and is unlikely to pick up under present climate conditions. 

Joint-lead author Prof Dongryeol Ryu, professor of hydrology and remote sensing at the University of Melbourne, explains to Carbon Brief:

“We observed a stepwise decline [in soil moisture] twice in the past two decades, interspersed within a continuously declining trend in soil moisture. We haven’t seen this trend earlier, so that is why this is very concerning.”

Ryu explains the decision to analyse changes to soil moisture on a global scale meant the researchers could confirm trends difficult to see in smaller geographic datasets:

“The unique thing we found through analysing these larger-scale measures is that – even if we have seen widely fluctuating ups and downs in precipitation and increasing temperature – the total water contained in the soil, as soil moisture and groundwater, has been declining gradually from around the beginning of this century.“

The maps below illustrate soil moisture changes in 2003-07 and 2008-12 against a 1995-99 baseline, as estimated by the ERA5-Land reanalysis dataset. The areas marked on the map in brown saw a drop in soil moisture and the areas marked in blue an increase in soil moisture.

The top map shows soil moisture depletion across large regions in eastern and central Asia, central Africa and North and South America over 2003-07. The lower map shows that “replenishment” in the years that followed occurred in relatively small parts of South America, India, Australia and North America.

§ Climate change 

Ryu says the researchers “suspect that increasing temperature played an important role” in the decline in terrestrial water storage and soil moisture in the 21st century. 

The study points to two factors driving gradual depletion of soil moisture over the last quarter century: fluctuations to rainfall patterns and increasing “evaporative demand”.

Evaporative demand refers to the atmosphere’s “thirst” for water, or how much moisture it can take from the land, vegetation and surface water.

Studies have highlighted how global evaporative demand has been increasing over the last two decades globally, impacting water availability, hurting crops and causing drought.

The new study notes that “increasing evaporative demand driven by a warming climate” suggests a “more consistent and widespread trend toward drying as temperatures rise”. 

Ryu says the “very unusual” drop in water moisture observed over 2000-02 could be attributed to low levels of rainfall globally, which coincided with the “period when evaporative demand started increasing”.

Another – less pronounced – period of rapid soil moisture decline seen over 2015-16 can be attributed to droughts triggered by the 2014-16 El Niño event, Ryu notes. 

Ryu says the study findings indicate that soil moisture can no longer bounce back from a dry year, as it has in the past:

“It used to be that when precipitation goes up again, we recover water in the soil. But because of this increasing evaporative demand, once we have strong El Niño years – which lead to much less rainfall for a year or two – it seems that we are not recovering the water fully because of increasing evaporative demand. Because of that – even if we have a wet year following dry years – the water in the soil doesn’t seem to recover.” 

§ Cross-validation

Measuring changes in global soil moisture has historically presented a challenge to scientists, given the lack of comprehensive and direct observations of water in soil.

The researchers attempt to reduce this uncertainty by corroborating the ERA5-Land reanalysis dataset from the European Centre for Medium-Range Weather Forecasts (ECMWF) with three geophysical measurement datasets.

ERA5’s land surface modelling system uses meteorological and other input data to estimate water within the upper few metres of the soil.

These figures were compared with data collected by the Gravity Recovery and Climate Experiment (GRACE) mission – a joint satellite mission between NASA and the German Aerospace Center.

Running since 2002, the GRACE mission tracks changes to the Earth’s gravity by collecting data on groundwater depletion, ice sheet loss and sea level rise. These observations have revealed a persistent loss of water from land to the ocean. 

The scientists also cross-reference the ERA5 reanalysis data with a century-old dataset that measures fluctuations in the rotation of the Earth as the distribution of mass on the planet changes.

(The redistribution of ice and water, such as melting ice sheets and depleting groundwater, causes the planet to wobble as it spins and its axis to shift slightly. This is known as “polar motion”.)

The third set of measurements the scientists use is global mean sea level height, which is collected by satellites. 

To extract soil moisture changes from this set of data, the researchers subtracted other components of sea level rise from the overall total – including Greenland ice melt, Antarctica ice melt, the impact of increasing sea surface temperature (which expands water volume) and the contribution of groundwater. 

This process of elimination left researchers with an estimate of the contribution of soil moisture to global sea level rise. 

The study notes that both the sea surface height and polar motion observations “support the conclusion that the abrupt change in soil moisture is genuine”. 

Ryu says using global average sea level rise and “Earth wobble” to track water redistribution on land is the “main innovation” applied in the paper. 

He adds the value of “reverse engineering” the ERA5 dataset is to understand how to enhance land surface modelling in the future:

“By explaining all the contributing factors to this measurement, you can understand the process. And if you understand the process, you can actually predict what’s going to happen in the future if any of these factors change in a certain manner.”

NASA’s Dr Cook says the “corroborating evidence” supplied by the paper offers a “really strong case that there has been a large-scale decline in soil moisture in recent decades”. 

However, he says the relatively short reference period of the study means that identifying the cause of the decline is less clear cut: 

“Whether [the decline] is permanent or not  is much more uncertain…On these timescales, internal natural variability can be really, really strong. Attributing this decline to something specific – either climate change or internal variability – is much much more difficult.”

§ Sea level rise

A notable finding in the study’s sea level rise analysis is that terrestrial water storage may have been the dominant driver of sea level rise in the early 21st century.

Specifically, the paper notes that the decline in terrestrial water storage over 2000-02 – when soil moisture plummeted – led to global average sea level rise of almost 2mm annually.

The researchers note this rate of sea level rise is “unprecedented” and “significantly higher” than the rate of sea level rise attributed to Greenland ice mass loss, which they note is approximately 0.8mm a year.

Prof Reed Maxwell, a professor at the High Meadows Environmental Institute at Princeton University, who was also not involved in the study, says the researchers’ efforts to compare soil moisture with other global water stores was “novel” and “opens the door to future study of a more holistic global water balance”.

§ ‘Creeping disaster’

The paper notes that land surface and hydrological models require “substantial improvement” to accurately simulate changes in soil moisture in changing climate.

Current models do not factor the impacts of agricultural intensification, nor the ongoing “greening” of semi-arid regions – both of which “may contribute” to a further decline in soil moisture, it states.

Writing in a perspectives article published in Science, Prof Luis Samaniego from the department of computational hydrosystems at the Helmholtz Centre for Environmental Research says that it is “essential” that next-generation models incorporate human-caused influences such as farming, large dams and irrigation systems.

The study posits that the “innovative methods” for estimating changes in global soil moisture presented in the study provide opportunities to “improve the present state of modelling at global and continental scales”. 

More broadly, advances in scientific understanding of changes to soil moisture can help improve the world’s preparedness for drought.

Drought is often described as a “creeping disaster” – because by the time it is identified, it is usually already well under way.

Paper author Ryu explains:

“Unlike a flood and heatwaves, drought comes very very slowly – and has prolonged and delayed consequences. We better be prepared earlier than later, because once drought comes you can expect a long period of consequences.”

Dr Shou Wang, associate professor at the Hydroclimate Extremes Lab and the Hong Kong Polytechnic University, who was not involved in the study, says the research findings are “crucial” for advancing understanding of the “potential drivers and dynamics” of “unprecedented hydrological extremes in a warming climate”. He tells Carbon Brief:

“This is breakthrough work that uncovers the drivers of hydrological regime changes, which are leading to unprecedented hydrological extremes such as compound and consecutive drought-flood events.”

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<![CDATA[Glossary: Decoding how China talks about energy and climate change]]> http://cb.2x2.graphics/post/56872 2025-03-27T16:39:42Z China, the world’s biggest greenhouse gas emitter as well as the fastest deployer and manufacturer of low-carbon technologies, has issued a series of climate policies to help reach net-zero.

As Carbon Brief has detailed in its China country profile, China’s complex political system – a labyrinth of committees, conferences and other bodies – often makes it hard to find out and interpret its policies that happened both at the central and local levels.

The complex nature of climate change and energy technologies have also led Chinese policymakers and regulators to create an abundance of terms, phrases and acronyms that need explanation.

Below, Carbon Brief provides the definitive guide to jargons – from the frequently-used to the obscure – appearing in China’s climate world.

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<![CDATA[Experts: What do Trump’s tariffs mean for global climate action?]]> http://cb.2x2.graphics/post/56890 2025-03-27T15:28:06Z The Trump administration in the US has imposed tariffs on all imports from China, Mexico and Canada, as well as on steel, aluminium and cars from around the world.

In response, the US has been hit with retaliatory tariffs from major trading partners, including the EU.

US president Donald Trump has said he intends to launch a further round of reciprocal tariffs on 2 April, targeting a broader range of countries.

This escalating “trade war” is expected to slow global growth and has also triggered warnings of a US recession.

Global energy flows and efforts to tackle climate change are already being affected by the escalating trade tensions. 

The tariffs are expected to disrupt the global trade in clean technologies, from electric cars to the materials used to build wind turbines. 

At the same time, as high-emitting industries face higher costs, some commentators have suggested that tariffs could hamper US plans for fossil-fuel expansion. 

And as clean technology becomes more expensive to manufacture in the US, other nations – particularly China – are likely to step up to fill in any gaps. 

Carbon Brief has asked a range of researchers and policy experts what they think Trump’s tariffs could mean for global climate action and energy supplies.

These are their responses, first as sample quotes, then, below, in full:

  • Dr Kyle Chan: “With US automakers struggling to compete, Chinese electric vehicle companies will likely gain a stronger position.”
  • Elisabetta Cornago: “China may redirect its exports towards the relatively open EU market, challenging homegrown clean-tech industries at a time when the EU is trying to support and revitalise them.”
  • Dr Bentley Allan and Dr Tim Sahay: “G7 and G20 countries are strengthening their domestic economies with deficit financing and directed investments into strategic sectors, such as green and digital sectors”
  • Alex Muresianu: “A less productive US economy, which must pay higher prices for key inputs, is one that can spare fewer resources to address climate change.”
  • Antoine Vagneur-Jones: “The administration’s fondness for data centres requires significant grid investment and yet the US relies on its neighbours for its supply of large power transformers.”
  • Jimena Blanco: “The US is mainly or wholly import-reliant for around four-fifths of its identified 50 critical minerals, including from its partners Canada and Mexico.”
  • Dr Simi Thambi​​​​: “An increase in trade protectionism is not good for climate action.”
  • Robert Rozansky: “One upside to Trump’s trade war is that it might stymie his efforts to push US liquified natural gas (LNG) expansion into overdrive.”
  • Chris Severson-Baker: “The Canadian oil and gas lobby…has been using this moment to make the case for more oil and gas production and infrastructure.”
  • Anne-Sophie Corbeau: “Trump’s tariffs have already had an impact on LNG trade…China has not imported a single US LNG cargo since 6 February.”
  • Avantika Goswami: “Tariffs – if imposed widely – may hurt the exports of countries like India, which nurture aspirations to mimic China’s role as an exporter of green goods.”
  • Tu Le: “If manufacturers have to move multiple factories, that changes, reduces or eliminates what would have likely been more investment in research and development for clean energy vehicles.”
  • Ellie Belton: “A more unpredictable US could create opportunities for the UK and EU to attract low-carbon investment and gain a competitive edge in the energy transition.”
  • Eileen Torres Morales: “The effects of Trump’s tariffs on the global transition to green iron and steelmaking are still uncertain.”
  • Dr Aurélien Saussay: “When faced with increased economic pressures from tariffs, countries could be more tempted to relax environmental standards to maintain competitiveness.”
Image - Dr Kyle Chan (note)Dr Kyle Chan
Postdoctoral researcher and author of High Capacity
Princeton University

Trump’s tariffs will likely have wide-ranging effects on China’s clean-tech industry and global climate progress. Higher tariffs on China will directly impact US imports of Chinese clean tech goods, such as lithium batteries, which reached $1.9bn in December 2024. 

Chinese solar manufacturing firms will also be hit indirectly through tariffs on production sites in south-east Asia, which collectively supplies 80% of US solar imports. Meanwhile, China’s retaliation could disrupt US access to critical minerals for its own clean-tech industry. This includes graphite for battery anodes and rare earth metals for wind turbines.

The impact on China’s electric vehicle industry in particular will be consequential, albeit less direct. Chinese electric vehicle imports to the US, which were already minimal, will not be significantly affected by Trump’s new tariffs. 

However, the broader disruption to automotive supply chains across Mexico and Canada – along with rising steel and aluminium costs – will weaken the ability of US automakers to transition to electric vehicles. This will benefit Chinese electric vehicle makers, which continue to innovate and drive down costs. 

With US automakers struggling to compete, Chinese electric vehicle companies will likely gain a stronger position, not just in China’s domestic market, but globally as well.

Image - Elisabetta Cornago (note)Elisabetta Cornago
Senior research fellow, EU energy and climate policy
Centre for European Reform

The Trump administration is walking back on US climate commitments, both domestically by threatening to cut back Inflation Reduction Act (IRA) support for clean-tech industries and internationally, [by] withdrawing from the Paris Agreement. US tariffs can also affect climate action and the energy transition globally, hitting global value chains for clean technologies.

The Trump administration has levied tariffs on primary materials, such as steel and aluminium, on the EU as well as on China. This will increase manufacturing costs for US-based producers of goods that rely on imports of those materials, such as wind turbines and electric vehicles.

But, at the same time, because of interconnections in global value chains, the EU will also be impacted by US tariffs that are currently limited to China. 

Tariffs on Chinese exports of solar panels, electric vehicles and batteries to the US, for example, will reinforce China’s overcapacity in manufacturing in all these sectors, relative to weak Chinese demand. As a consequence, China may redirect its exports towards the relatively open EU market, challenging homegrown clean tech industries at a time when the EU is trying to support and revitalise them.

Trump’s self-harming retreat on climate and tariffs has caused uncertainty for clean energy, industry and trade. There is a macroeconomic slowdown that could negatively impact the rising green investments of the last decade. 

However, countries are strategic actors, not just passive victims of US trade policy. We are observing G7 and G20 countries take anticipatory steps.

First, they are strengthening their domestic economies with deficit financing and directed investments into strategic sectors, such as green and digital sectors. A few examples: 

  • The monumental shift in German fiscal policy will now enable investments in climate.
  • The overhaul of EU’s fiscal rules and greater funding of the EU’s industrial deal with over €100bn to support clean manufacturing.
  • Brazilian president Luiz Inácio Lula da Silva has unfurled Nova Industria Brasil to build green industrialisation. 
  • Mexican president Claudia Sheinbaum has announced and funded Plan Mexico for strategic investments.

Many nations are also diversifying their markets and multilateralist diplomacy. Targets of Trump tariff threats are involved in a flurry of trade and investment deals:

  • Within Asia, there are negotiations to green the world’s largest trade bloc – the Regional Comprehensive Economic Partnership.
  • Trade deals between Mexico-EU, EU-Brazil and Canada-EU are being revamped to allow more green trade. 
  • Countries such as Brazil and South Africa are leading diplomatic efforts through their presidencies of BRICS and G20 this year to articulate new trading and financial architecture that gives them the policy space to pursue green structural transformation to meet domestic and global climate goals.
Image - Alex Muresianu (note)Alex Muresianu
Senior policy analyst
Tax Foundation

At the most basic level, gains from trade are valuable. Historically, trade barriers have slowed the spread and adoption of new technology. The fight against climate change is just one example of the many economic challenges these tariffs will make more difficult. 

Tariffs on important inputs make building more expensive and distort the US economy toward less productive activity. A less productive US economy, which must pay higher prices for key inputs, is one that can spare fewer resources to address climate change.

Advocates of Trump’s approach to trade often invoke competition with China as a justification. However, most of Trump’s tariffs are targeted at allied or friendly nations, such as Canada, Mexico and members of the EU. US policymakers are worried about losing an innovation race with China in areas like electric vehicles or other green technologies, but putting up barriers to other markets will make us less – not more – competitive in the long term.

Image - Antoine Vagneur-Jones (note)Antoine Vagneur-Jones
Head of trade and supply chains
BloombergNEF

The tariffs jar with priorities that are – at least rhetorically – at the heart of the Trump presidency. 

The administration’s fondness for data centres requires significant grid investment and yet the US relies on its neighbours for its supply of large power transformers. Expanding manufacturing is another apparent priority, but increasing the cost of inputs will crimp domestic industry. 

And by hurting cross-border value chains and taxing imported crude, the tariffs could conceivably disadvantage traditional internal combustion engine vehicles more than their electrified equivalents.

Image - Jimena Blanco (note)Jimena Blanco
Chief analyst
Verisk Maplecroft

Against a background of tariffs and disrupted trading relationships, we are seeing a more protectionist stance towards critical minerals emerging, further complicating clean-tech supply chains.

Our research shows resource nationalism is accelerating. Among the emerging markets, 17 major critical mineral producers have seen a significant increase in risk in the past five years, including Chile and Peru – both key sources of lithium and copper.

Exact details of the new US tariff regime won’t be known until 2 April, but it is likely that the next batch of tariffs will be levied most heavily on countries with the largest trade imbalances. These countries represent the majority of Washington’s key global trade partners, meaning disruptions to supply chains – including in minerals essential for the energy transition – are increasingly likely.

The US is mainly or wholly import-reliant for around four-fifths of its identified 50 critical minerals, including from its US-Mexico-Canada Agreement (USMCA) partners Canada and Mexico. If Canada, for example, responds to the imposition of tariffs by the US with new export taxes, bans or restrictions on mineral exports, increasing costs or supply shortages are a prospect that US businesses will have to adapt to.

There is potential for US tariffs to slow the rollout of green policies if nations view renewables mandates or more stringent carbon regulation as adding additional burdens to their economy at a time of increasing trade friction. However, this could be counterbalanced somewhat by investments in low-carbon solutions such as carbon capture, utilisation and storage (CCUS) or hydrogen.

Image - Dr Simi Thambi​​​​ (note)Dr Simi Thambi​​​​
Climate economist
FAIRR

An increase in trade protectionism is not good for climate action. Climate scientists have conceptualised this as a scenario of rising retaliatory tariffs – Shared Socioeconomic Pathway 3 (SSP3) – where challenges to mitigation and adaptation are high, making it unlikely for the world to limit temperature rise to 1.5C by the end of the century. This scenario could lead to up to four times more emissions than a sustainability-focused pathway with low challenges to mitigation and adaptation.

Mitigation is very challenging in this scenario because reducing emissions is more expensive, as investments needed to scale clean technologies are not prioritised. As a result, these technologies fail to penetrate well into the markets that need them most cost-effectively. For example, according to the International Energy Agency’s (IEA) 2024 electric vehicle outlook, electric vehicle sales in emerging markets remain very low. Lowering global emissions without greening the transport sector in developing economies would be highly challenging. 

Adaptation also faces considerable challenges in SSP3, because one can expect deforestation and cropland expansion to rise in this scenario, as countries focus on their national ambitions. Extensive deforestation would reduce ecosystems and biodiversity, reducing their adaptive capacity.

Image - Robert Rozansky (note)Robert Rozansky
Global LNG analyst and project manager, Europe gas tracker
Global Energy Monitor

The Trump administration has gone all in on promoting US LNG under its “America first”, “energy dominance” agenda. As it seeks to boost new LNG production projects that are still on the drawing board, such as the Alaska LNG project touted in the State of the Union address, the US could further exacerbate a global overbuild of LNG infrastructure that threatens international climate targets. At the same time, the Trump administration’s trade war may make these same proposed LNG projects more difficult to build and finance.

Tariffs will raise the cost of raw materials, such as steel, the “backbone of LNG facilities”. If tariffs lead to economy-wide inflation, labour could become more expensive, too. The LNG industry is no stranger to the toll of inflation. For example, the cost of the under-construction Golden Pass LNG Terminal rose by $2bn after its main contractor declared bankruptcy in May citing pandemic-related cost inflation and delays.

If it becomes more expensive to build LNG export terminals in the US, financiers committed to projects under construction may struggle to recover their investments and those evaluating proposed facilities may be hesitant to invest. 

The longer proposed projects sit without financial backers, the less likely it is they will get off the ground at all. New US LNG terminals are already set to face steep competition from an incoming wave of export projects abroad and increasingly cheap renewable power, as an alternative to gas.

Given that LNG may be roughly as bad for the climate as coal, if not worse, one upside to Trump’s trade war is that it might stymie his efforts to push US LNG expansion into overdrive.

Image - Chris Severson-Baker (note)Chris Severson-Baker
Executive director
Pembina Institute

In Canada, this is unfolding into a national debate about how best to strengthen our economic resilience and ensure long-term prosperity in the face of a hostile US. 

There is a risk that what president Trump is doing could cause knee-jerk reactions here in Canada. The Canadian oil and gas lobby, for example, has been using this moment to make the case for more oil and gas production and infrastructure, to get more of its products to markets outside the US. 

While we agree that Canada needs to diversify its trading partners, doubling down on oil and gas exports would not provide the long-term economic resiliency and energy security our country is seeking right now. We should look instead at Europe, where governments are aggressively decarbonising their economies, not only for climate reasons. They also understand that clean energy and new technologies are associated with less price volatility and more secure supplies, as well as health and affordability benefits for citizens. 

The EU’s forthcoming carbon border adjustment mechanism (CBAM) will give an advantage to low-carbon exports of steel, aluminium and cement. These are all industries that Canada is well-placed to lead on, given our abundance of emissions-free electricity to power them. However, this can only happen if we retain our nationwide industrial carbon pricing system. 

That is also why the next big nation-building project we foresee in Canada is not oil and gas infrastructure, but widespread electrification, supported by a buildout and modernisation of our electricity grid. This would help Canadians become more resilient, both to the economic impacts of trade disputes and the physical and economic impacts of climate change.

Image - Anne-Sophie Corbeau (note)Anne-Sophie Corbeau
Global research scholar at the Center on Global Energy Policy
Columbia University

Trump’s tariffs have already had an impact on LNG trade. After the Trump administration imposed new tariffs on China in early February 2025, China retaliated by announcing, among other things, a 15% tariff on US LNG. China and the US are not too dependent on each other in LNG trade, with US LNG representing only 6% of China’s LNG supply in 2024. But China has not imported a single US LNG cargo since 6 February, as Chinese offtakers of US LNG are diverting their cargoes to other regions to avoid tariffs.

However, China and the US are respectively the largest LNG importer and exporter globally. Chinese buyers have contracted significant amounts of US LNG between 2021 and 2023. Should tariffs persist or even increase, US LNG will likely continue to be diverted to other countries, making the whole global LNG market less efficient. Meanwhile, Chinese buyers may become hesitant to contract more US LNG.

Another country that may be at risk if trade relations deteriorate is Mexico. Mexico’s energy system is very dependent on gas. It is also uniquely dependent on imports of US pipeline gas, which is cheaper than LNG imports. There are also a few Mexican LNG export projects at different stages of advancement that rely on US gas supplies and are therefore in competition with US-based LNG projects. Uncertainties over the bilateral relationship could become a source of risk for Mexico.

Image - Avantika Goswami (note)Avantika Goswami
Programme manager, climate change
Centre for Science and Environment

Donald Trump’s use of tariffs as an economic weapon is an attempt to regain dominance in the US’ trade relationships, for varying reasons – one being the US’ massive trade deficit

From a climate perspective, tariffs need to be situated within a larger picture. They are likely to raise costs for general goods in the US – and green goods are not excluded from this calculus. This comes at a time when the US is lagging behind east and south-east Asia in the manufacturing of green technologies and has been slow in its domestic energy transition. 

Tariffs may further raise the cost of the transition in the US. In tandem with attempts to expand oil and gas production in the domestic energy mix as Trump promises – and also any successful reindustrialisation efforts – this could see a rise in US domestic emissions. Meanwhile, fossil fuel exports will raise emissions elsewhere.

Tariffs – if imposed widely – may hurt the exports of countries like India, which nurture aspirations to mimic China’s role as an exporter of green goods. There has been an increase in the export of solar technology from India to the US, with India’s share of the country’s module imports rising from 2.5% in 2022 to 10.7% in 2024, amounting to approximately $2bn in 2023-24. For a country with aspirations in green manufacturing, tariffs on green goods could undermine this positive momentum for India.

This shift toward protectionism in the US does not necessarily spell the collapse of the global green goods market. Instead, it may serve to strengthen China’s role in the global green technology supply chain. 

Lastly, the return to protectionism, particularly green protectionism, is an act of hypocrisy by nations like the US, which have spent years denouncing the same policies at the World Trade Organization when undertaken by developing countries.

Image - Tu Le (note)Tu Le
Managing director
Sino Auto Insights

It is important to take the Trump administration’s individual actions in totality, while also keeping in the back of your mind that the US is the second largest passenger vehicle market in the world. That drives the need for legacy automakers to sell into this market.

The tariffs force companies to review their long-term manufacturing strategy. If they have to move multiple factories, that changes, reduces or eliminates what would have likely been more investment in research and development for clean energy vehicles, due to their limited capital.

The Trump administration is also poised to eliminate the more stringent Environmental Protection Agency (EPA) vehicle emissions standards that would have taken effect in 2027. If successful, that would substantially reduce the urgency for global original equipment manufacturers to launch products with more efficient powertrains. And it pushes out the need for oil companies in Russia, the Middle East and the US to alter or reduce their investments in clean energy initiatives.

Legacy manufacturers play a role in this as well, since their leadership years ago seemed to be so bullish in their ability to easily move over to clean energy vehicles. Their initial sales forecasts for this timeframe were never realistic and it put a spotlight on this being a left versus right issue, when it should have been a discussion on energy independence all along.  

The US and EU governments are likely to push out their net-zero targets [for vehicles]. They were arbitrary to begin with. Now, with the Trump administration in place and European automakers whining about their inability to meet the more stringent requirements, they seem more than likely to be delayed past 2035. 

Image - Ellie Belton (note)Ellie Belton
Senior policy advisor – trade and climate
E3G

It is hard to imagine a scenario in which higher tariffs will benefit the global energy transition. Even if clean technologies are not directly targeted, the complex nature of international supply chains means that there will inevitably be knock-on effects, such as through increased costs for component parts like steel and aluminium. 

Retaliatory tariffs against the US will also create a domino effect, distorting trade flows worldwide and altering countries’ comparative advantage in the clean economy. The biggest risk to climate action is the uncertainty this creates, which will damage investor confidence and distract governments from driving green ambition. 

But a more unpredictable US could create opportunities for the UK and EU to attract low-carbon investment and gain a competitive edge in the energy transition. Continued efforts to provide public support for decarbonisation and seek mutual gains with cooperative trade partners will enable Europe to capitalise on the growing demand for renewable technologies globally. 

Trade policy may have become a geopolitical game, but the urgent need to deliver a safe climate remains as critical as ever. The world is currently stuck in crisis response mode, but it is vital that we do not lose sight of the long-term direction of travel.

Image - Eileen Torres Morales (note)Eileen Torres Morales
Research associate
Stockholm Environment Institute

The effects of Trump’s tariffs on the global transition to green iron and steelmaking are still uncertain. It will take some time to see the impact, if any, such as increased steel prices in the short term, changed trade dynamics or long-term impacts on global green steel production.

The announcement of steel tariffs has forced exporting countries to rapidly reconsider how to stay competitive in the US market. The tariffs might benefit steel producers in the US, but a likely outcome is that both public and private consumers within the US will face rising steel prices regardless of whether the steel is green or not.

Trump’s administration’s interest in research and development of US-based green iron and steel production also remains unclear. It is not yet known if incentives for steel decarbonisation considered in the IRA will remain. For example, will the negotiations to advance green iron and steel production under the US Department of Energy’s industrial demonstrations programme continue or not?

Although the imposition of tariffs by the US may temporarily shift attention away from international competition and policies focused on heavy industry transition, this should not distract from progress in establishing a market for low-carbon products. 

Policy instruments, such as the EU’s emissions trading system (ETS) and CBAM, should continue to be prioritised. Such tools can support the construction of a strong internal market for green steel, thus steering attention away from tariffs, back to driving innovation in low-carbon technology and emissions reductions that contribute to global climate action.

Image - Dr Aurelien Saussay (note)Dr Aurélien Saussay
Assistant professor at the Grantham Research Institute on Climate Change and the Environment
London School of Economics and Political Science

The looming threat of Trump’s tariffs is already reshaping energy policy decisions in concerning ways. 

Perhaps most alarming, from a European standpoint, is European Commission president Ursula von der Leyen’s recent suggestion that Europe should increase its imports of US shale gas-derived LNG to appease the Trump administration and avoid tariffs. This move would seriously undermine the EU’s 2050 net-zero commitment.

This potential shift illustrates how trade tensions can indirectly sabotage climate progress. I’m particularly concerned by how these tariffs could undermine the viability of carbon-pricing schemes in major economies. When faced with increased economic pressures from tariffs, countries could be more tempted to relax environmental standards to maintain competitiveness.

The steel and aluminium sectors – already struggling to decarbonise – would be especially vulnerable. Many mills have begun investing in cleaner technologies, but tariffs could force them to prioritise cost-cutting over emissions reduction.

Furthermore, the uncertainty created by trade wars makes low-carbon investments riskier. Clean energy technologies, many of which are capital intensive, require stable policy environments to attract investments. The constant threat of retaliatory tariffs dampens investor confidence.

Perhaps most importantly, retaliatory tariffs on clean-energy technologies could significantly slow the global energy transition. This is particularly the case for tariffs targeting China, which is a leader in many of the key decarbonisation technologies. By increasing costs for solar panels, wind turbines and electric vehicles, these measures would hamper deployment rates precisely when acceleration is needed.

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<![CDATA[Cropped 26 March 2025: US birds in peril; UK ecologists ‘job fears’; Finance ‘fuelling’ deforestation]]> http://cb.2x2.graphics/post/56856 2025-03-26T15:00:00Z We handpick and explain the most important stories at the intersection of climate, land, food and nature over the past fortnight.

This is an online version of Carbon Brief’s fortnightly Cropped email newsletter. Subscribe for free here.

§ Key developments

Forest and biodiversity funds

TRANSFORMING FOREST FINANCE: A Forest Declaration Assessment report revealed that global forest finance is “not only falling short, but actively fuelling deforestation”, said Down to Earth. According to the report, for every dollar allocated to forest protection, six dollars go to activities driving deforestation. In 2023 alone, private financial institutions invested $6.1tn in sectors linked to deforestation, while governments spent $500bn in subsidies harmful to nature. Relatedly, several organisations launched a call to action for forest protection. It listed the priority actions for governments in 2025, which include enhancing ambition in forest goals, promoting deforestation-free trade, scaling up forest finance and securing land rights of forest communities.

NEW CONTRIBUTIONS: Brazil’s planned $125bn “Tropical Forests Forever Facility” is on track to be launched at COP30 this year, the Straits Times reported. The outlet said that several countries, including Germany, France and the United Arab Emirates, have expressed interest in contributing to the fund. Brazilian outlet ((o))eco said that the fund “would pay countries for each hectare of rainforest maintained or restored”. Meanwhile, Ireland announced its first donation, of $16m, to Brazil’s Amazon Fund, according to Reuters. The fund, which is already supported by seven other countries, seeks to halt deforestation and boost sustainable development in the Amazon rainforest.

SHORT SCOPE: The Kunming Biodiversity Fund is only supporting six projects of $1.2m, according to the UN Development Programme, cited by Dialogue Earth. The fund was launched by China at the first part of the COP15 biodiversity summit in 2021. The outlet noted that China’s $207m pledge is the only contribution to the fund so far. The fund approved its first nine projects at COP16 last year, with six of them currently underway. Elsewhere, carbon credit registry Verra suspended the activities of four auditors that “overlooked integrity problems” with methane-cutting rice offset projects in China, Climate Home News reported. 

England’s new national forest  

INTO THE WOODS: BBC News reported that 20m trees will be planted to create England’s first new national forest in three decades. The “Western Forest” will be composed of new and existing woodlands in the south-west of the country, the outlet said. It will be the first of three new national forests to help meet woodland goals, according to the UK government. The 20m trees will be planted over the “coming decades”, the Times noted, and will be spread across farmlands and urban areas. Meanwhile, a new government-led group of major landowners in England met to discuss ways to cooperate on nature restoration goals, Business Green said. 

BUDGET WOES: Farming representatives “reacted with fury” after the UK government closed England’s sustainable farming incentive subsidy scheme to new applicants until next year, the Times reported. The newspaper said: “Labour promised £5bn in nature-friendly farming subsidies over this year and the next financial year, but has burnt through the budget already.” The 37,000 existing agreements will still be honoured, the newspaper said. Gavin Lane from the Country Land and Business Association described it as a “disaster for nature recovery”. A “reformed” version of the scheme will be announced this summer, the Department for Environment, Food and Rural Affairs said in a statement

PESTICIDE CUTS: Meanwhile, the UK government announced plans to cut pesticide use on farms by 10% by 2030 to help “protect bees and other pollinators”, according to the Guardian. The plan, which the newspaper said had been delayed since 2018, included penalties for irresponsible pesticide use. A spokesperson for Pesticide Collaboration, a group of health and environmental organisations, academics, farmers and others, said they were “thrilled” with the plan. The group told the Guardian that they were pleased that it “takes into account both how much of a pesticide is used and how toxic it is”, but added that they had hoped for a higher target. 

HABITAT CHANGES: Elsewhere, proposed changes to the UK’s planning system “sparked job security fears among thousands of ecologists”, the Financial Times said. The newspaper explained: “The proposed measures will significantly reduce the number of protected species surveys required for development to be approved, as part of a government drive to speed up delivery of big infrastructure projects”. Ecologists who complete these surveys are concerned about the impacts for their work, according to the FT. The proposed reforms survived their “first Commons test” this week, the Independent said, while the Guardian reported that UK nature charities called on ministers to “urgently strengthen environmental protections in new planning laws”.

§ Spotlight

Third of US birds should be prioritised for conservation

This week, Carbon Brief looks at the 2025 US State of the Birds report, which assesses the health of bird populations in the country.

Image - Cerulean warbler, a migratory songbird, perched on a branch. Credit: Cerulean Warbler by Justin Lawson; Cornell Lab of Ornithology | Macaulay Library. (note)

Nearly a third of all bird species in the US face a decline in their populations or other threats, such as habitat loss, a new report concluded.

The 2025 State of the Birds report, published by a coalition of conservation organisations under the North American Bird Conservation Initiative, used bird population data over 1970-2022 to identify the avian species most at risk. 

The “at-risk” species were those with low population numbers or declining populations, as well as those facing external threats.

These species – 229 in all – “should be prioritised in conservation planning to protect existing populations and build toward population recovery”, the report said.

Conservation concerns

Of the birds studied, 112 species are of “high concern” for conservation. 

These species have faced “steep” population losses and have lost at least half of their populations in the last 50 years. They include the whooping crane, chimney swift and California condor. The report termed these species “tipping point species” and called for increased scientific research to determine the drivers of their declines, as well as “immediate help through voluntary and proactive conservation action”.

Another 117 bird species are of “moderate concern”, meaning they have small or declining populations, but have not faced such steep declines as the higher-risk species. This category also includes common birds that have “experienced large losses”, such as sparrows and blackbirds. 

The remaining 489 bird species are of “low concern” for conservation, although the report noted that half of these have also experienced long-term declines in population, but “fall short of the thresholds for priority conservation planning”.

Threatened species

The report also looked at the changes in the population of species from different ecosystems.

The chart below shows the population change, since 1970, for eight types of birds classified in the report.

Image - Population trend of eight groups of birds, since 1970. Source: State of the Birds report (2025). (note)

Notably, grassland birds have seen the largest overall declines, losing around 43% of their total population since 1970 and with several species reaching the “tipping point” described in the report. US grasslands are “in collapse”, the report noted, due to expanding agriculture, drought and invasive alien species.

Aridland birds have also lost more than 40% of their population since 1970, the report said. About a quarter of the 31 aridland species analysed, including the scaled quail and rufous-crowned sparrow, are in the “high concern” category. Shorebirds have the largest number of species listed as high concern. The report noted that the largest declines of these species are registered in migratory staging sites along the Atlantic coastline. 

By contrast, ducks and waterbirds are the best-placed groups, with 24% and 16% increases in their populations, respectively. The abundance of duck populations coincides with policies aimed at conserving their wetland habitats and other conservation programmes. 

Nonetheless, individual species within these groups have also seen declines in population, the report said. Additionally, while their numbers have still improved since 1970, duck populations have dropped steeply over the past decade.

The document also listed various benefits provided by birds. Nearly 100 million people in the US are birdwatchers, a hobby that contributes to the mental well-being of people with depression and reduces symptoms of stress and anxiety. Moreover, birding yields $108bn annually in trips and equipment and generates 1.4m jobs.

The report concluded:

“Restoring bird populations and addressing causes of their declines benefits millions of Americans.”

§ News and views

COP ‘CONTRADICTION’: Earlier this month, BBC News reported on the building of a new highway “to ease traffic to” COP30 host city Belém that would run through “thousands of acres of protected Amazon rainforest”. The Brazilian newspaper O Globo quoted scientists who said the 13km road is a “contradiction in the governor’s environmental discourse”. In response, the Brazilian government clarified that the highway is not “part of the 33 infrastructure projects planned for COP30” and said that the initial framing “misinforms readers by misleadingly suggesting a connection between the construction project and the federal government’s actions” preparing for COP30.

US AG CUTS: The US Department of Agriculture (USDA) cut two programmes that paid farmers $1bn to provide food to schools and food banks for low-income families, the New York Times reported. It added that the agriculture secretary has “broad discretion” to use the funding “for purposes aligned with the administration’s aims”. A smallholder farmer from Missouri told the newspaper that her production had doubled thanks to those programmes, but now she is concerned about how she will make payments on her debts. The Washington Post reported that the USDA also cancelled an additional $500m in deliveries to food banks.

NATURE DEALS: Colombia rejected a number of debt-for-nature swap offers due to “fears” about the impact they could have on the country’s credit rating, Bloomberg reported. Susana Muhamad, who resigned as Colombia’s environment minister in February, told the outlet that these swaps could “send the wrong message to the markets and make our financial situation worse”. This is also the government’s current stance, a spokesperson for the environment ministry told Bloomberg. (See Carbon Brief’s Q&A for more on these financial agreements, where a developing country’s debt is effectively exchanged for investment in conversation.)

PAYOUT PUSHBACK: Context News reported that farmers in India’s most vulnerable districts can pay higher crop insurance premiums, but receive lower payouts, than farmers in less vulnerable areas. The outlet cited a thinktank report saying that this “undermines the purpose” of India’s government-run crop-insurance scheme, which is the world’s largest. The report, from the Centre for Science and Environment, found that farmers living in “climate-vulnerable districts” faced higher premiums, lower levels of insurance cover and smaller payouts than farmers in lower-risk areas, Context News said.

‘FRAGILE’ MOUNTAINS: “Unprecedented changes” to mountains and glaciers threaten fresh water access for more than two billion people, according to a UN report covered by Carbon Brief. Mountains and glaciers are becoming “increasingly vulnerable” to climate change and unsustainable human activities, the report said. This is having a wide range of impacts on agriculture, local ecosystems and other aspects of life. One expert told Carbon Brief that glacier loss is already causing “loss of life, loss of livelihood and, most importantly of all, the loss of a place that many communities have called home for generations”. 

‘METHANE MESS’: Major supermarkets are not reporting on their methane emissions or setting targets to reduce emissions of the potent greenhouse gas, according to a new report. The analysis, published by environmental campaign groups the Changing Markets Foundation and Mighty Earth, said that there is a “disconnect between retailers’ climate promises and action”. The report analysed climate reports and other data from 20 “top-grossing” food retailers in the US and Europe to assess their progress on mitigating methane emissions. It identified a “significant lack of action” to address methane emissions, with US retailers performing “especially badly”. 

§ Watch, read, listen

REN-EWE-ABLE?: Ambrook Research explored whether grazing sheep under solar panels “count[s] as clean energy”.

OFF THE MENU: A Climate Home News comment article by a former Colombian negotiator argued that food systems have been “sidelined” in the agenda for the COP30 climate summit. 

IN DANGER AGAIN: Euractiv covered the increase in wolf hunting in the EU, against a backdrop of “manipulated numbers” and lax regulations.
MARINE LIFE: A “sustainable blue economy” is needed to protect the ocean from “surging” threats, including overfishing and climate change, researchers wrote in Dialogue Earth.

§ New science

  • A Nature Communications study found that three-quarters of species’ ranges in border areas between countries are not under protection. The findings, based on analysis of the distributional ranges of almost 20,000 land-based species, show the “urgent” need for cross-border cooperation to meet global biodiversity goals, the researchers wrote. 
  • Grass-fed beef in the US is generally more carbon-intensive than industrially produced beef, according to a study in Proceedings of the National Academy of Sciences. The research found that the emissions per kilogram of protein in “even the most efficient” grass-fed beef are 10-25% higher than industrial beef – and as much as 40 times higher than plant protein and other animal alternatives. 
  • Nearly 30% of forest loss in 15 tropical countries over 2001-20 occurred within one kilometre of a road, a Communications Earth and Environment study found. The researchers used datasets of roads and forest loss to produce high-resolution maps of deforestation, highlighting the “urgent need” to protect and restore forests along tropical roads.

§ In the diary

Cropped is researched and written by Dr Giuliana Viglione, Aruna Chandrasekhar, Daisy Dunne, Orla Dwyer and Yanine Quiroz. Please send tips and feedback to cropped@carbonbrief.org

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<![CDATA[Guest post: How human behaviour shapes effective climate policies]]> http://cb.2x2.graphics/post/56858 2025-03-26T10:18:59Z There is clear evidence that technological change will be insufficient to meet UK and global climate goals on its own, leaving a vital role for consumer and business behaviour change.

Indeed, most measures to reach net-zero emissions by mid-century will require at least some behaviour change by the public.

This includes reducing car use, changing diets to eat less red meat and dairy, cutting waste and buying electric vehicles and heat pumps.

The scale of change is profound: limiting warming to 1.5C would mean reducing the average European carbon footprint from 7.5 tonnes of carbon dioxide equivalent (tCO2e) to 2.8tCO2e per person by 2030.

Behaviour change is also required to adapt to climate risks, such as flooding, drought and heat stress, our research shows.

This includes emergency and long-term behavioural responses, such as evacuation, buying insurance and installing equipment. 

However, policies to deliver these behaviour changes are currently lacking in the UK.

In 2023, a House of Lords inquiry concluded that the government’s approach to enabling behaviour change for climate and environmental goals was “seriously inadequate”. 

The Skidmore review of net-zero, also published in 2023, similarly concluded that more government action is needed to support behaviour change and advocated a public-engagement strategy to deliver this.

More recently, in a major review for the Climate Change Committee (CCC), my co-authors and I outlined what behavioural science can tell us about how to deliver effective climate policy.

We found that, in general, wider social or practical factors – such as norms, functionality and price – tend to be more influential for encouraging low-carbon behaviours than an individual’s knowledge, values and emotions.

§ How to change behaviour

There is a sizeable evidence base on how to deliver low-carbon and climate-resilient lifestyles and on changing behaviour in professional contexts. 

Using literature searches and a call for evidence, identifying almost 400 sources in total, we examined evidence for what works to change behaviour within eight main areas: 

  • diet 
  • consumption 
  • aviation
  • adaptation
  • net-zero skills and careers
  • business leaders and the transition to sustainability 
  • land use and farming 
  • policy acceptability

Numerous behavioural theories and models exist to explain and predict climate mitigation and adaptation actions. 

Psychological theories, such as the theory of planned behaviour (TPB) and the value-belief-norm model (VBN) assume action is primarily driven by internal factors, such as attitudes, values and knowledge. 

Specifically, the TPB states that behaviour results from intentions, which, in turn, are the outcome of attitudes, perceptions of social norms and ability.

The VBN sees behaviour as the outcome of a sequence of values, which informs beliefs and perceived responsibility for environmental problems, which shapes the moral obligation to act, leading to action. 

Since the TPB includes perceived ability, acknowledging external social, physical and economic factors can limit or propel action. Research suggests it does better than the VBN at explaining higher-impact environmental behaviours, such as avoiding driving, than lower-impact behaviours that tend to be more within individuals’ control, such as recycling.

In contrast, sociological theories – such as social practice theory – tend to place more emphasis on the contextual drivers of action, such as physical infrastructure and social conventions.

Social practice theory sees practices – such as showering or cooking – as resulting from the interaction of physical and technological factors, social conventions and skills. These also see action as routine or habitual more often than intentional. 

Integrative models also exist that draw on various theories to explain behaviour. One of the most commonly used is the COM-B model, which identifies capabilities, opportunities and motivations as the key drivers of behaviour.

Our review found that, in general, low-carbon and climate-resilient behaviours are driven by both internal and external factors, including: 

  1. Individual knowledge, values and emotions.
  2. Social factors, such as norms and group identity.
  3. Practical factors, such as functionality, ease and price. 

Of these various drivers, individual factors – such as knowledge – tend to be less influential in changing behaviour than wider social or practical factors. 

Consequently, interventions targeting individual decision-making or motivation, such as information provision, tend to be less effective than interventions targeting the context of action. These interventions, such as regulations, incentives and infrastructure changes, typically make behaviour easy, attractive and normal – or even the default.

One review found that informational approaches, such as labelling or in-home displays, were on average only 3% effective. In contrast, “nudges” that adjust choice environments to make sustainable choices easier, but without coercion, were, on average, 25% effective. 

These nudges could include locating recycling bins closer than regular waste bins or putting energy consumers on green tariffs (instead of fossil fuel tariffs) by default. 

Individual-focused interventions, such as information provision (e.g. campaigns), are known as “downstream” measures, while context-focused interventions, such as nudges, economic measures and regulation, are “upstream” measures. 

Despite evidence of its limited efficacy and tendency to exacerbate inequalities, there is a preference amongst policymakers for downstream over upstream interventions. 

This is, in part, because the former is more easily experimentally tested and costed, but it is also due to power structures in government, political ideology and skills gaps.

§ Targeted and timely change

Beyond targeting upstream changes, our review also found that interventions are more effective when they are: 

  • Targeted – to the specific needs and abilities of different groups. 
  • Combined – that is, they include downstream and upstream approaches, as well as addressing the multiple behavioural drivers and barriers. 
  • Timed – to when habits are malleable, such as household renovation or relocation, or when business leaders or farmers are making key investment decisions. (In psychology, this is termed “habit discontinuity”.)

Public engagement is also important for effective behaviour change interventions to both foster acceptance and address contextual factors or constraints to efficacy, our research suggests. 

Interventions to change behaviour that are imposed on people without consultation risk being rejected, as seen with the “Gilets Jaunes” in France and London’s Ultra low emission zone (Ulez) expansion protests. Bringing the public into decision-making from the outset to scope a problem and identify solutions is more likely to lead to fairer and more acceptable outcomes. 

Climate assemblies and juries are examples of how this is increasingly being achieved. Engagement can also help communicate the need for and benefits of climate action and therefore promote policy acceptance.

From our research over the years at the Centre for Climate Change and Social Transformations (CAST), we know that different approaches work better depending on the sector.

For example, adaptation behaviour change requires a stronger focus on information provision than mitigation actions, since there is little public awareness of why or how to adapt to climate risks. 

For transport, congestion charging and reallocating road space from cars to less polluting modes – such as pedestrianisation and low-traffic neighbourhoods – are amongst the most effective ways of cutting car use. Additionally, frequent flyer levies enjoy public support so may be a fair and effective way of curbing aviation growth. 

But, in both cases, there is a need for “carrots” as well as “sticks”. Alternatives to driving and flying must also be convenient, affordable and attractive if people are to switch to these lower-carbon modes, our research found. 

For diet change, communicating the various benefits of low-carbon diets and carbon labelling – for health and the environment – has some effect. However, our research suggests lowering the price of vegetarian options and making them more available – including the default option – is far more effective. 

In one simple, but effective, study, researchers doubled the proportion of vegetarian meals available in canteens – from one-in-four, to two-in-four options. This led to increases in vegetarian meal sales of up to 79%. 

But there are still gaps in the evidence base. Little is known, for example, about how to encourage people to adopt climate-resilient behaviours or to reduce flying. More generally, we found little evaluation of real-world interventions. 

§ Removing barriers

Our review concludes with core recommendations for using behavioural science in climate policy. These include identifying behavioural targets – for example, based on carbon impact and feasibility – engaging with the public and combining, timing and tailoring interventions.

While there are evidence gaps, our research shows that much is already known about how to foster low-carbon, climate-resilient behaviour change. 

Moreover, the public wants to play their part in tackling climate change. Public concern about climate change has not been reduced by Covid-19 or the cost-of-living crisis – and most people in the UK and around the world agree that individual behaviour change is needed

We found that the government now needs to use these insights from behavioural science to remove the barriers to behaviour change. This, in turn, will help accelerate the net-zero transition and adapt to climate risks. 

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<![CDATA[DeBriefed 21 March 2025: Germany’s climate win; Conservatives’ net-zero row-back; Key messages from major UK climate conference]]> http://cb.2x2.graphics/post/56841 2025-03-21T13:17:06Z Welcome to Carbon Brief’s DeBriefed.
An essential guide to the week’s key developments relating to climate change.

§ This week

Germany’s €100bn climate funding

BILLIONS IN FUNDING: Germany’s parliament on Tuesday voted to create a €500bn defence and infrastructure fund and relax “constitutionally-protected debt rules”, the Guardian reported, with “the last-minute backing of the Greens” in return for “guarantees that €100bn of the funds destined for infrastructure would be allocated for climate and economic transformation investments”. The deal came following “clumsy” initial negotiations from Germany’s chancellor-in-waiting, Friedrich Merz, Bloomberg said. It reported that the Greens “finally came around” after Merz’s negotiators “conceded to their key demands”, which also included adding Germany’s 2045 climate-neutrality target into the constitution. 

TAKING CLIMATE ‘SERIOUSLY’: The Greens said in a statement on social media that the agreement “finally takes the challenges of the future seriously”, according to the New York Times. Paula Piechotta, a member of the Greens in the German Bundestag, told the German newspaper Tagesspiegel that the deal was a “great success for democracy in our country, for sustainability and intergenerational justice”. The newspaper added that the far-right Alternative for Germany (AfD) and the Left party, “unsurprisingly”, criticised the agreement.

UK opposition breaks cross-party climate consensus

BREAKING AWAY: In a speech, Kemi Badenoch, leader of the UK opposition Conservative party, said it was “impossible” for the UK to meet its net-zero target by 2050, marking a “sharp break from years of political consensus”, BBC News reported. She did not offer an alternative target for the goal, the broadcaster said, quoting her telling reporters that if the Conservatives “do find a target is necessary, then yes we will have one”. Badenoch “failed to cite any evidence in support” of her arguments, according to a factcheck published by Carbon Brief, which concluded that much of the existing evidence “contradicts” her claims.

TORY BACKLASH: In response, Conservative former prime minister Theresa May, who was responsible for passing the 2050 target into law, warned the move “will hurt future generations and cost Britons”, the Times reported. The Confederation of British Industry (CBI) also criticised the speech, warning that “now is not the time to step back from the opportunities of the green economy”, according to the i newspaper. In the Daily Telegraph, Ambrose Evans-Pritchard said Badenoch’s “rant comes close to political tragedy”.

§ Around the world

  • CARNEY CUTS: New Canadian prime minister Mark Carney removed the country’s “consumer carbon tax”, CBC News reported, adding that the policy had been a “potent point of attack” for his political opponents.
  • GREENPEACE BILL: Greenpeace has been ordered to pay $660m in damages over its protests against the Dakota Access pipeline in 2016, which could “bankrupt its US operations” if upheld, the Financial Times said.
  • UK-CHINA FORUM: The UK and China agreed to establish an “annual climate dialogue”, with the first meeting to be held in London later this year, the Times reported. 
  • CHEQUES AND BALANCES: A US judge has “temporarily barred” attempts by the Trump administration to recoup at least $14bn in “grants issued by the Biden administration for climate and clean-energy projects”, the Washington Post said.
  • EXTREME HEAT: “Severe heatwave conditions” have begun affecting several areas across India “unusually early in the season”, the Hindustan Times reported.
  • SOUTH AFRICAN SUPPORT: The EU will fill a “$1bn hole” in South Africa’s “just energy transition partnership” left by the US, the Financial Times reported. The US is also “stalling” $2.6bn of climate finance for South Africa, Bloomberg said.

§ 152

The number of “unprecedented” extreme weather events that occurred in 2024, according to the World Meteorological Organization’s State of the Climate 2024 report. Heatwaves were the most common type of unprecedented events – defined as events “worse than any ever recorded in the region” – followed by “rain or wet spells” and floods.

§ Latest climate research

  • New research in Climate and Development explored how environmental justice featured in the climate action plans of rust-belt cities in the US, finding that few “provided enough details” to determine if it was a priority.
  • A new Science Advances study identified “increasing storminess” in the south-western Caribbean, which was attributed to “industrial-age warming”.
  • Marine heatwaves are now 5.1 times more frequent and 4.7 times more intense since records began, new research in Communications Earth & Environment found.

(For more, see Carbon Brief’s in-depth daily summaries of the top climate news stories on Monday, Tuesday, Wednesday, Thursday and Friday.)

§ Captured

Image (note)

The UK’s high electricity prices are primarily driven by gas prices, according to an analysis published by Carbon Brief, with the UK typically seeing gas set electricity prices 98% of the time – compared to an average in the EU of 40%.

§ Spotlight

Chatham House talks climate and resilience

Carbon Brief outlines key takeaways from Chatham House’s climate and energy summit.

Chatham House, the UK’s leading international affairs thinktank, held its annual summit on climate and energy on 18-19 March. This year’s theme was: “Securing a resilient future.”

Carbon Brief attended the conference, where speakers including COP30 CEO Ana Toni, UK climate envoy Rachel Kyte and Moroccan minister for energy transition and sustainable development Leila Benali shared their thoughts on encouraging and enacting climate action.

Climate backlash

A sense of urgency permeated discussions at the summit, underpinned by concerns over growing anti-climate narratives.

Toni argued climate scepticism proves climate action is on the right track. 

She said: “First people ignore you, then they laugh at you, then they fight you – and this is where we are – then we win.”

Image - COP30 CEO Ana Toni and UK climate envoy Rachel Kyte at Chatham House. Credit: Anika Patel, Carbon Brief (note)

Other speakers said that increasing support for climate action by building new norms and creating overlapping interests could also be effective strategies. 

Former US climate envoy Todd Stern pointed to increasing adoption of electric vehicles, while ClientEarth CEO Laura Clarke raised the example of community-owned renewable power

Fretting over finance

Clean Earth Gambia founder Fatou Jeng warned that climate finance, as ever likely to be an important issue at COP30, has “not progressed much”.

Blended finance” – using public money to leverage private funds – was heavily criticised in several panels. Ben Parsons, a partner at consultancy firm Oaklin, noted that only 72 such deals were agreed in 2024.

Speakers agreed that innovative mechanisms to derisk climate finance were needed, with Morocco’s Benali critiquing “exclusive” and inflexible private financing options.

Ndongo Samba Sylla, head of research and policy at International Development Economics Associates, argued that using local currencies would significantly boost climate finance. 

Resilience through renewables

A key benefit of the UK’s “climate leadership”, Kyte argued, is that the energy transition will “make British people more secure”.

Parsons said the argument – recently deployed by Conservative leader Badenoch – that the energy transition replaced reliance on Russian fossil fuels with reliance on Chinese technology was incorrect. 

“Fossil fuels are fuel – they require constant replenishment. Renewables are infrastructure,” he said, adding that arguably the UK should be accelerating its deployment of clean-energy technology.

On cybersecurity challenges in renewable power systems, Alex Schoch, vice president and group director of flexibility and electrification at Octopus Energy, argued that the key issue is how renewable energy “hardware” is managed, rather than where it is sourced from.

Parsons agreed, noting that the UK’s current power system has “plenty of cybersecurity vulnerabilities in it today”. 

He said: “We have to make sure we’re putting [cybersecurity strategies] in place…But I don’t think that goes hand in hand with thinking we should avoid buying renewables from certain parts of the world.”

In a session on energy security in war-time Ukraine, held under the Chatham House rule, participants noted that the country was a case study for the importance of energy security.

Speakers said that since Russia’s invasion of Ukraine, attacks on thermal power plants have seen growing use of low-carbon energy – particularly distributed solar.

§ Watch, read, listen

ELEPHANT IN THE ROOM: The Columbia Energy Exchange podcast explored how the new Trump government underpinned discussions at the energy industry event CERAWeek.

‘CONFLICT BLINDSPOT’: A new report by ODI found that “less than 10% of international climate finance” in 2022 went to fragile and conflict-affected countries.

METHANE INACTION: Leading supermarkets in the global north are “failing to address the methane pollution in their supply chains”, according to a study covered by Desmog.

§ Coming up

§ Pick of the jobs

DeBriefed is edited by Daisy Dunne. Please send any tips or feedback to debriefed@carbonbrief.org.

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