A victory for Donald Trump in November’s presidential election could lead to an additional 4bn tonnes of US emissions by 2030 compared with Joe Biden’s plans, Carbon Brief analysis reveals.
This extra 4bn tonnes of carbon dioxide equivalent (GtCO2e) by 2030 would cause global climate damages worth more than $900bn, based on the latest US government valuations.
For context, 4GtCO2e is equivalent to the combined annual emissions of the EU and Japan, or the combined annual total of the world’s 140 lowest-emitting countries.
Put another way, the extra 4GtCO2e from a second Trump term would negate – twice over – all of the savings from deploying wind, solar and other clean technologies around the world over the past five years.
If Trump secures a second term, the US would also very likely miss its global climate pledge by a wide margin, with emissions only falling to 28% below 2005 levels by 2030. The US’s current target under the Paris Agreement is to achieve a 50-52% reduction by 2030.
Carbon Brief’s analysis is based on an aggregation of modelling by various US research groups. It highlights the significant impact of the Biden administration’s climate policies. This includes the Inflation Reduction Act – which Trump has pledged to reverse – along with several other policies.
The findings are subject to uncertainty around economic growth, fuel and technology prices, the market response to incentives and the extent to which Trump is able to roll back Biden’s policies.
The analysis might overstate the impact Trump could have on US emissions, if some of Biden’s policies prove hard to unpick – or if subnational climate action accelerates.
Equally, it might understate Trump’s impact. For example, his pledge to “drill, baby, drill” is not included within the analysis and would likely raise US and global emissions further through the increased extraction and burning of oil, gas and coal.
Also not included are the potential for Biden to add new climate policies if he wins a second term, nor the risk that some of his policies will be weakened, delayed or hit by legal challenges.
Regardless of the precise impact, a second Trump term that successfully dismantles Biden’s climate legacy would likely end any global hopes of keeping global warming below 1.5C.
- The ‘Trump effect’ on US emissions
- How the Biden administration is tackling warming
- What a second-term Trump might do
- The global climate implications of the US election
- How the analysis was carried out
The ‘Trump effect’ on US emissions
US greenhouse gas emissions have been falling steadily since 2005, due to a combination of economic shifts, greater efficiency, the growth of renewables and a shift from coal to gas power.
Since taking office in early 2021, Biden has pledged under the Paris Agreement to accelerate that trend by cutting US emissions to 50-52% below 2005 levels in 2030 and to net-zero in 2050.
He has implemented a long list of policies – most notably the 2022 Inflation Reduction Act – to keep those targets within reach. (See: How the Biden administration is tackling warming.)
In the “Biden” scenario in the figure below (blue line), all federal climate policies currently in place or in the process of being finalised are assumed to continue. The scenario does not include any new climate policies that might be adopted after November’s election.
The administration’s current climate policies are expected to cut US emissions significantly, bringing the country close to meeting its 2030 target range. Nevertheless, a gap remains between projected emissions and those needed to meet the 2030 and 2050 targets (green).
The “Trump” scenario (red line) assumes the IRA and other key Biden administration climate policies are rolled back. It does not include further measures that Trump could take to boost fossil fuels or undermine the progress of clean energy. (See: What a second-term Trump might do.)
For both projections, the shaded area shows the range of results from six different models, with varying assumptions on economic growth, fuel costs and the price of low-carbon technologies.
In total, the analysis suggests that US greenhouse gas emissions would fall to 28% below 2005 levels by 2030 if Trump secures a second term and rolls back Biden’s policies – far short of the 50-52% target. If Biden is reelected, emissions would fall to around 43% below 2005 levels.
In the Trump scenario, annual US greenhouse gas emissions would be around 1GtCO2e higher in 2030 than under Biden, resulting in a cumulative addition of around 4GtCO2e by that year.
Based on the recently updated central estimate of the social cost of carbon from the US Environmental Protection Agency (US EPA) – which stands at some $230 per tonne of CO2 in 2030 – those 4GtCO2e of extra emissions would cause global climate damages worth more $900bn.
To put the additional emissions in context, EU greenhouse gas emissions currently stand at around 3GtCO2e per year, while Japan’s are another 1GtCO2e. If the EU meets its climate goals, then its emissions would fall to 2GtCO2e in 2030 and to below 1GtCO2e in 2040.
Only eight of the world’s nearly 200 countries have emissions that exceed 1GtCO2e per year – and 4GtCO2e is more than the combined yearly total from the 140 lowest-emitting nations.
Expressed another way, the extra 4GtCO2e would be equivalent to double all of the emissions savings secured globally, over the past five years, by deploying wind, solar, electric vehicles, nuclear and heat pumps.
Carbon Brief’s analysis highlights several key points.
First, that Biden’s climate goals for the US in 2030 and 2050 will not be met, without further policy measures after the next election.
This could include additional state-level action, which could yield an additional 4 percentage points of emissions savings by 2030. Added to the “Biden” pathway, this would take US emissions to 47% below 2005 levels – closer to, but still not in line with the 2030 pledge.
Second, despite this policy gap, Biden’s current climate policies go a significant way towards meeting the 2030 target and could be added to in the future.
Third, if Trump is able to remove all of Biden’s key climate policies, then the US is all but guaranteed to miss its targets by a wide margin.
Given the scale of US emissions and its influence on the world, this makes the election crucial to hopes of limiting warming to 1.5C. (See: The global climate implications of the US election.)
Finally, there is policy uncertainty around which policies will be finalised, how strong any final rules will be, what legal challenges they may face and how easy they prove to roll back.
There is also uncertainty – illustrated by the ranges in the chart – around the impact of Biden’s policies, the response of households, business and industry to those measures, and the rate of economic growth, as well as over future prices for fossil fuels and low-carbon technologies.
These uncertainties are partly – but not entirely – captured by the six models underlying the analysis, which have different model structures and input assumptions.
How the Biden administration is tackling warming
In 2015, the then-president Barack Obama pledged a 26-28% reduction in US emissions below 2005 levels by 2025 as an intended “nationally determined contribution” (iNDC) to the Paris Agreement.
On taking office in 2017, the climate-sceptic president Trump then pulled the US out of the Paris Agreement, attracting global opprobrium. He then rolled back or replaced Obama-era climate policies, including the Clean Power Plan, while attempting – unsuccessfully – to prop up coal.
Trump’s successor as president, Joe Biden, campaigned in 2020 on a platform of a “clean energy revolution”. On gaining office in 2021, he immediately rejoined the Paris Agreement and then issued a more ambitious pledge to cut US emissions to 50-52% below 2005 levels by 2030.
Biden also pledged to decarbonise the electricity grid by 2035 and joined roughly 150 other countries in committing the US to reaching net-zero emissions by 2050 – the global benchmark, if the world is to keep warming below 1.5C.
In order to keep these targets within reach, the Biden administration has ushered in a series of climate policies. Most notable is the 2022 IRA, unexpectedly passed by Congress after a 51-50 Senate vote, with the tie broken by the vice president Kamala Harris.
This has been called the largest package of domestic climate measures in US history. It offers incentives covering a broad swathe of the economy from low-carbon manufacturing to clean energy, electric vehicles, “climate-smart” agriculture and low-carbon hydrogen.
The IRA accounts for the most significant part of the emissions reductions expected as a result of Biden’s climate policies to date and shown by the blue line in the figure above.
It includes grants, loans and tax credits initially estimated to be worth $369bn. However, most of the tax credits are not capped, meaning the overall cost and impact on emissions is uncertain.
In general, cost estimates have risen since its passing, as investments triggered by the bill’s incentives have rolled in, with some now putting its ultimate cost above $1tn.
However, a recent analysis of progress since the bill passed in 2021 shows that while electric vehicle sales are running at the top end of what was expected in earlier modelling of the IRA’s impact, the deployment of clean electricity – in particular, wind power – is falling slightly behind.
(Another recent study looks at the behavioural challenges that could affect the success or failure of the IRA, including as a result of political polarisation. Separately, gas power expansion plans from several major US utilities also pose a challenge to the IRA.)
Other Biden administration initiatives with important implications for US emissions include the 2021 Infrastructure Investment and Jobs Act, loans for nuclear power plants and new standards on appliance efficiency issued by the Department of Energy.
Meanwhile, the US Environmental Protection Agency (US EPA) has finalised rules on methane emissions from oil and gas facilities. It has also proposed – but not yet finalised – rules on vehicle fuel standards, power plant greenhouse gas standards and power plant air pollution.
The administration is now rushing to finalise these rules within the next couple of months, so that they could not be overturned easily after the election using the Congressional Review Act.
The administration is reportedly planning to weaken its proposed vehicle fuel standards. The final version would retain the original aim of having two-thirds of new sales be all-electric by 2032, but would ease the trajectory to reaching that target, according to the New York Times. This would reduce the emissions-cutting impact, relative to what is assumed in the “Biden” scenario.
Separately, the administration is reported to be exempting existing gas-fired units from its proposed power plant emissions rules, focusing for now on existing coal and future gas-fired units. The New York Times quotes EPA administrator Michael Regan saying this will “achieve greater emissions reductions”, but the timescales could also affect the scenario projection.
Meanwhile, Biden has also overseen a rare Senate approval of an international climate treaty, when it ratified the Kigali Amendment on tackling climate-warming hydrofluorocarbons in 2022, with the US EPA issuing related rules the following year.
In addition, Biden’s time in office has seen further state-level action on emissions. This includes California’s clean car standards, as strengthened in 2022 and adopted by six other states.
What a second-term Trump might do
For his part, former president and Republican front-runner Donald Trump has made no secret of his desire to roll back his predecessor’s climate policies, just as he did during his first term.
For example, in 2018, the Trump administration lifted Obama-era rules on toxic air pollution from electricity generating and industrial sites – with Biden now moving to reverse the reversal.
Similarly, in 2020, his administration rolled back an Obama-era EPA rule on methane emissions from the oil and gas industry. The Biden administration’s methane rule could face a similar fate under a second Trump term.
Trump also has form when it comes to energy efficiency regulations, which he rolled back in 2020.
In November 2023, the Financial Times reported that Trump was “planning to gut” the IRA, increase investment in fossil fuels and roll back regulations to encourage electric vehicles. The newspaper added that Trump had called the IRA the “biggest tax hike in history”.
It quoted Carla Sands, an adviser to Trump, as saying:
“On the first day of a second Trump administration, the president has committed to rolling back every single one of Joe Biden’s job-killing, industry-killing regulations.”
Indeed, Republicans in the US House of Representatives have already made multiple attempts to repeal parts of the IRA. While some analysts think a full repeal of the act is unlikely, it is clear that a second-term Trump could – as Politico put it – ”hobble the climate law”.
A February 2024 commentary from investment firm Trium Capital argues that the impact on IRA will depend not only on whether Trump wins victory in November, but also on whether the Republicans retain control of the House and gain a Senate majority.
Even if the Republicans win all three races, the commentary suggests that some parts of IRA might survive beyond the election. It says that consumer incentives for electric vehicles and home heating are “most at risk”, whereas tax credits for clean energy might only be modified.
Equally, MIT Technology Review says that clean energy and EV tax credits both “appear especially vulnerable, climate policy experts say”. The publication adds:
“Moreover, Trump’s wide-ranging pledges to weaken international institutions, inflame global trade wars, and throw open the nation’s resources to fossil-fuel extraction could have compounding effects on any changes to the IRA, potentially undermining economic growth, the broader investment climate, and prospects for emerging green industries.”
Meanwhile, Trump has also criticised Biden’s infrastructure act and previously revoked California’s ability to set tougher car emissions standards, which are also adopted by other states.
In 2022, the California “waiver” was reinstated by Biden, who also opposed a 2023 Republican bill designed to remove California’s right to regulate. Yet the waiver is now embroiled in legal action brought by Republican states, expected to end up in the Supreme Court.
If he emerges victorious in November, Trump would also “plan to destroy the EPA”, according to a Guardian article published earlier this month. It reported:
“Donald Trump and his advisers have made campaign promises to toss crucial environmental regulations and boost the planet-heating fossil fuel sector. Those plans include systematically dismantling the Environmental Protection Agency (EPA), the federal body with the most power to take on the climate emergency and environmental justice, an array of Trump advisers and allies said.”
The paper cites Project 2025, described as “a presidential agenda put forth by the Heritage Foundation and other conservative organisations”. It also quotes Mandy Gunasekara, Trump’s EPA chief of staff and a contributor to the Project 2025 agenda.
After Trump was elected for the first time, many scientists, politicians and campaigners argued that his presidency would only have a relatively short-term effect on emissions and climate goals.
Many of his first-term efforts to rollback climate rules and boost fossil fuels ended in failure.
While some modelling suggested that his first presidency would delay hitting global emissions targets by a decade, Carbon Brief analysis found that US states and cities might be able to take sufficient steps to meet the country’s then-current climate goal without federal action.
However, another recent Guardian article says that a second-term Trump would be “even more extreme for the environment than his first, according to interviews with multiple Trump allies and advisers”. It adds:
“In contrast to a sometimes chaotic first White House term, they outlined a far more methodical second presidency: driving forward fossil fuel production, sidelining mainstream climate scientists and overturning rules that curb planet-heating emissions.”
Carbon Brief’s “Trump” scenario does not include additional fossil fuel emissions as a result of policies supporting coal, oil and gas production or use, as the success or otherwise of any such efforts are highly uncertain.
In addition, higher US fossil fuel production would not all be consumed domestically and would not increase global demand on a one-for-one basis.
While it would be likely to raise demand and emissions, both domestically and internationally, the precise impact would depend on the response of markets and overseas policymakers.
The global climate implications of the US election
If Biden – or another Democrat – wins the election in November and if his party regains control over the House and Senate, then they could push to implement new climate policies in 2025.
There is a clear need for further policy, if US climate goals are to be met. Moreover, the expiration of a large number of tax cuts at the end of 2025 could present an opportunity to deploy carbon pricing in support of raising revenues – and cutting emissions – according to a recent study.
It suggests that a price on emissions, described as a “carbon fee”, could significantly boost US chances of hitting its 2030 target, even if paired with a partial repeal of the IRA.
(Note that the “Repeal IRA; no new emissions rules” scenario in this study is similar to the “Trump” scenario in Carbon Brief’s analysis. However, the model used in the study finds a relatively weak 2030 emissions impact of the IRA compared with most of the five others, with which it is aggregated by Carbon Brief.)
An additional point of leverage is the EU’s carbon border adjustment mechanism (CBAM), which will put a carbon price on US exports unless they face an equivalent price domestically, according to Democratic senator Sheldon Whitehouse, speaking at a launch event for the study:
“The 2025 opportunity when the Trump tax cuts collapse [creates] huge room for negotiation. Then you’ve got the CBAM happening in Europe that puts enormous pressure to get a price of carbon, if you want to avoid being tariffed at the EU and UK level.”
Whether a second-term Biden administration would attempt to put a price on carbon or not, it would be likely to push forward new policies in pursuit of US climate targets.
In contrast, a victory for Donald Trump could be expected, at a minimum, to result in full or partial repeal of the IRA and rollbacks of Biden’s climate rules, including power plants, cars and methane.
This is reflected in Carbon Brief’s “Trump” scenario, which would add a cumulative 4GtCO2e to US emissions by 2030, as shown in the figure below.
Moreover, assuming no further policy changes, this cumulative total would continue to climb beyond 2030, reaching 15GtCO2e by 2040 and a huge 27GtCO2e by 2050.
The increases in cumulative emissions under the “Trump” scenario are so large that they would imperil not only the US climate targets, but also global climate goals. (Under the 22nd amendment of the US constitution, Trump would not be allowed to run for a third term.)
In 2022, the Intergovernmental Panel on Climate Change (IPCC) sixth assessment report (AR6) said that it would be “impossible” to stay below 1.5C without strengthening current pledges:
“[F]ollowing current NDCs until 2030…[would make] it impossible to limit warming to 1.5C with no or limited overshoot and strongly increas[e] the challenge to likely limit warming to 2C.”
The corollary of this is that if the US – the world’s second-largest emitter – misses its 2030 target by a wide margin, then it would be likely to end any hope of keeping global warming below 1.5C.
How the analysis was carried out
The two scenarios set out in this analysis are based on an aggregation of modelling published by Bistline et al. (2023) and the Rhodium Group (2023).
The first study was explained by the authors in a Carbon Brief guest post. It compares the impact of the IRA using results from 11 separate models, some of which only cover the power sector. Carbon Brief’s analysis uses results from the six models that cover the entire US economy.
The “Trump” scenario is based on the “reference” pathway in this study, corresponding to the average of the six models. The only modification is that the Trump scenario is set to match the Biden scenario below until 2024.
The “Biden” scenario is based on the average IRA pathway from this study, extended using modelling from the Rhodium Group to include the impact of further Biden administration policies.
Carbon Brief’s analysis uses the “mid-emissions” pathway from the Rhodium study’s “federal-only” scenario, which includes the impact of vehicle fuel standards, power plant greenhouse gas and pollutant emissions rules, and energy efficiency regulations.
This additional Rhodium Group modelling is based on draft rules which have not yet been finalised and are subject to change, as well as to potential legal challenge, as discussed above.
The uncertainty shown for the “Trump” and “Biden” scenarios corresponds to the range in the six economy-wide models from Bistline et al. (2023).
Carbon Brief’s analysis does not include any additional post-2025 climate policies that could be adopted by a second Biden administration. Nor does it include the potential impact of pro-fossil fuel policies that could be introduced by a second Trump administration.
Finally, it also does not include additional subnational climate policies that could be introduced, nor does it consider the risk that current or future state action could be hit by federal or legal challenge.
Historical US greenhouse gas emissions are taken from the US EPA inventory through to 2021. Figures for 2022 and 2023 are based on estimated annual changes from the Rhodium Group.
The post Analysis: Trump election win could add 4bn tonnes to US emissions by 2030 appeared first on Carbon Brief.
Analysis: Trump election win could add 4bn tonnes to US emissions by 2030
Drought and heatwaves occurring together – known as “compound” events – have “surged” across the world since the early 2000s, a new study shows.
Compound drought and heat events (CDHEs) can have devastating effects, creating the ideal conditions for intense wildfires, such as Australia’s “Black Summer” of 2019-20 where bushfires burned 24m hectares and killed 33 people.
The research, published in Science Advances, finds that the increase in CDHEs is predominantly being driven by events that start with a heatwave.
The global area affected by such “heatwave-led” compound events has more than doubled between 1980-2001 and 2002-23, the study says.
The rapid increase in these events over the last 23 years cannot be explained solely by global warming, the authors note.
Since the late 1990s, feedbacks between the land and the atmosphere have become stronger, making heatwaves more likely to trigger drought conditions, they explain.
One of the study authors tells Carbon Brief that societies must pay greater attention to compound events, which can “cause severe impacts on ecosystems, agriculture and society”.
Compound events
CDHEs are extreme weather events where drought and heatwave conditions occur simultaneously – or shortly after each other – in the same region.
These events are often triggered by large-scale weather patterns, such as “blocking” highs, which can produce “prolonged” hot and dry conditions, according to the study.
Prof Sang-Wook Yeh is one of the study authors and a professor at the Ewha Womans University in South Korea. He tells Carbon Brief:
“When heatwaves and droughts occur together, the two hazards reinforce each other through land-atmosphere interactions. This amplifies surface heating and soil moisture deficits, making compound events more intense and damaging than single hazards.”
CDHEs can begin with either a heatwave or a drought.
The sequence of these extremes is important, the study says, as they have different drivers and impacts.
For example, in a CDHE where the heatwave was the precursor, increased direct sunshine causes more moisture loss from soils and plants, leading to a drought.
Conversely, in an event where the drought was the precursor, the lack of soil moisture means that less of the sun’s energy goes into evaporation and more goes into warming the Earth’s surface. This produces favourable conditions for heatwaves.
The study shows that the majority of CDHEs globally start out as a drought.
In recent years, there has been increasing focus on these events due to the devastating impact they have on agriculture, ecosystems and public health.
In Russia in the summer of 2010, a compound drought-heatwave event – and the associated wildfires – caused the death of nearly 55,000 people, the study notes.
The record-breaking Pacific north-west “heat dome” in 2021 triggered extreme drought conditions that caused “significant declines” in wheat yields, as well as in barley, canola and fruit production in British Columbia and Alberta, Canada, says the study.
Increasing events
To assess how CDHEs are changing, the researchers use daily reanalysis data to identify droughts and heatwaves events. (Reanalysis data combines past observations with climate models to create a historical climate record.) Then, using an algorithm, they analyse how these events overlap in both time and space.
The study covers the period from 1980 to 2023 and the world’s land surface, excluding polar regions where CDHEs are rare.
The research finds that the area of land affected by CDHEs has “increased substantially” since the early 2000s.
Heatwave-led events have been the main contributor to this increase, the study says, with their spatial extent rising 110% between 1980-2001 and 2002-23, compared to a 59% increase for drought-led events.
The map below shows the global distribution of CDHEs over 1980-2023. The charts show the percentage of the land surface affected by a heatwave-led CDHE (red) or a drought-led CDHE (yellow) in a given year (left) and relative increase in each CDHE type (right).
The study finds that CDHEs have occurred most frequently in northern South America, the southern US, eastern Europe, central Africa and south Asia.
Threshold passed
The authors explain that the increase in heatwave-led CDHEs is related to rising global temperatures, but that this does not tell the whole story.
In the earlier 22-year period of 1980-2001, the study finds that the spatial extent of heatwave-led CDHEs rises by 1.6% per 1C of global temperature rise. For the more-recent period of 2022-23, this increases “nearly eightfold” to 13.1%.
The change suggests that the rapid increase in the heatwave-led CDHEs occurred after the global average temperature “surpasse[d] a certain temperature threshold”, the paper says.
This threshold is an absolute global average temperature of 14.3C, the authors estimate (based on an 11-year average), which the world passed around the year 2000.
Investigating the recent surge in heatwave-leading CDHEs further, the researchers find a “regime shift” in land-atmosphere dynamics “toward a persistently intensified state after the late 1990s”.
In other words, the way that drier soils drive higher surface temperatures, and vice versa, is becoming stronger, resulting in more heatwave-led compound events.
Daily data
The research has some advantages over other previous studies, Yeh says. For instance, the new work uses daily estimations of CDHEs, compared to monthly data used in past research. This is “important for capturing the detailed occurrence” of these events, says Yeh.
He adds that another advantage of their study is that it distinguishes the sequence of droughts and heatwaves, which allows them to “better understand the differences” in the characteristics of CDHEs.
Dr Meryem Tanarhte is a climate scientist at the University Hassan II in Morocco, and Dr Ruth Cerezo Mota is a climatologist and a researcher at the National Autonomous University of Mexico. Both scientists, who were not involved in the study, agree that the daily estimations give a clearer picture of how CDHEs are changing.
Cerezo-Mota adds that another major contribution of the study is its global focus. She tells Carbon Brief that in some regions, such as Mexico and Africa, there is a lack of studies on CDHEs:
“Not because the events do not occur, but perhaps because [these regions] do not have all the data or the expertise to do so.”
However, she notes that the reanalysis data used by the study does have limitations with how it represents rainfall in some parts of the world.
Compound impacts
The study notes that if CDHEs continue to intensify – particularly events where heatwaves are the precursors – they could drive declining crop productivity, increased wildfire frequency and severe public health crises.
These impacts could be “much more rapid and severe as global warming continues”, Yeh tells Carbon Brief.
Tanarhte notes that these events can be forecasted up to 10 days ahead in many regions. Furthermore, she says, the strongest impacts can be prevented “through preparedness and adaptation”, including through “water management for agriculture, heatwave mitigation measures and wildfire mitigation”.
The study recommends reassessing current risk management strategies for these compound events. It also suggests incorporating the sequences of drought and heatwaves into compound event analysis frameworks “to enhance climate risk management”.
Cerezo-Mota says that it is clear that the world needs to be prepared for the increased occurrence of these events. She tells Carbon Brief:
“These [risk assessments and strategies] need to be carried out at the local level to understand the complexities of each region.”
The post Heatwaves driving recent ‘surge’ in compound drought and heat extremes appeared first on Carbon Brief.
Heatwaves driving recent ‘surge’ in compound drought and heat extremes
Greenhouse Gases
DeBriefed 6 March 2026: Iran energy crisis | China climate plan | Bristol’s ‘pioneering’ wind turbine
Welcome to Carbon Brief’s DeBriefed.
An essential guide to the week’s key developments relating to climate change.
This week
Energy crisis
ENERGY SPIKE: US-Israeli attacks on Iran and subsequent counterattacks across the Middle East have sent energy prices “soaring”, according to Reuters. The newswire reported that the region “accounts for just under a third of global oil production and almost a fifth of gas”. The Guardian noted that shipping traffic through the strait of Hormuz, which normally ferries 20% of the world’s oil, “all but ground to a halt”. The Financial Times reported that attacks by Iran on Middle East energy facilities – notably in Qatar – triggered the “biggest rise in gas prices since Russia’s full-scale invasion of Ukraine”.
‘RISK’ AND ‘BENEFITS’: Bloomberg reported on increases in diesel prices in Europe and the US, speculating that rising fuel costs could be “a risk for president Donald Trump”. US gas producers are “poised to benefit from the big disruption in global supply”, according to CNBC. Indian government sources told the Economic Times that Russia is prepared to “fulfil India’s energy demands”. China Daily quoted experts who said “China’s energy security remains fundamentally unshaken”, thanks to “emergency stockpiles and a wide array of import channels”.
‘ESSENTIAL’ RENEWABLES: Energy analysts said governments should cut their fossil-fuel reliance by investing in renewables, “rather than just seeking non-Gulf oil and gas suppliers”, reported Climate Home News. This message was echoed by UK business secretary Peter Kyle, who said “doubling down on renewables” was “essential” amid “regional instability”, according to the Daily Telegraph.
China’s climate plan
PEAK COAL?: China has set out its next “five-year plan” at the annual “two sessions” meeting of the National People’s Congress, including its climate strategy out to 2030, according to the Hong Kong-based South China Morning Post. The plan called for China to cut its carbon emissions per unit of gross domestic product (GDP) by 17% from 2026 to 2030, which “may allow for continued increase in emissions given the rate of GDP growth”, reported Reuters. The newswire added that the plan also had targets to reach peak coal in the next five years and replace 30m tonnes per year of coal with renewables.
ACTIVE YET PRUDENT: Bloomberg described the new plan as “cautious”, stating that it “frustrat[es] hopes for tighter policy that would drive the nation to peak carbon emissions well before president Xi Jinping’s 2030 deadline”. Carbon Brief has just published an in-depth analysis of the plan. China Daily reported that the strategy “highlights measures to promote the climate targets of peaking carbon dioxide emissions before 2030”, which China said it would work towards “actively yet prudently”.
Around the world
- EU RULES: The European Commission has proposed new “made in Europe” rules to support domestic low-carbon industries, “against fierce competition from China”, reported Agence France-Presse. Carbon Brief examined what it means for climate efforts.
- RECORD HEAT: The US National Oceanic and Atmospheric Administration has said there is a 50-60% chance that the El Niño weather pattern could return this year, amplifying the effect of global warming and potentially driving temperatures to “record highs”, according to Euronews.
- FLAGSHIP FUND: The African Development Bank’s “flagship clean energy fund” plans to more than double its financing to $2.5bn for African renewables over the next two years, reported the Associated Press.
- NO WITHDRAWAL: Vanuatu has defied US efforts to force the Pacific-island nation to drop a UN draft resolution calling on the world to implement a landmark International Court of Justice (ICJ) ruling on climate, according to the Guardian.
98
The number of nations that submitted their national reports on tackling nature loss to the UN on time – just half of the 196 countries that are part of the UN biodiversity treaty – according to analysis by Carbon Brief.
Latest climate research
- Sea levels are already “much higher than assumed” in most assessments of the threat posed by sea-level rise, due to “inadequate” modelling assumptions | Nature
- Accelerating human-caused global warming could see the Paris Agreement’s 1.5C limit crossed before 2030 | Geophysical Research Letters covered by Carbon Brief
- Future “super El Niño events” could “significantly lower” solar power generation due to a reduction in solar irradiance in key regions, such as California and east China | Communications Earth & Environment
(For more, see Carbon Brief’s in-depth daily summaries of the top climate news stories on Monday, Tuesday, Wednesday, Thursday and Friday.)
Captured
UK greenhouse gas emissions in 2025 fell to 54% below 1990 levels, the baseline year for its legally binding climate goals, according to new Carbon Brief analysis. Over the same period, data from the World Bank shows that the UK’s economy has expanded by 95%, meaning that emissions have been decoupling from growth.
Spotlight
Bristol’s ‘pioneering’ community wind turbine
Following the recent launch of the UK government’s local power plan, Carbon Brief visits one of the country’s community-energy success stories.
The Lawrence Weston housing estate is set apart from the main city of Bristol, wedged between the tree-lined grounds of a stately home and a sprawl of warehouses and waste incinerators. It is one of the most deprived areas in the city.
Yet, just across the M5 motorway stands a structure that has brought the spoils of the energy transition directly to this historically forgotten estate – a 4.2 megawatt (MW) wind turbine.
The turbine is owned by local charity Ambition Lawrence Weston and all the profits from its electricity sales – around £100,000 a year – go to the community. In the UK’s local power plan, it was singled out by energy secretary Ed Miliband as a “pioneering” project.
‘Sustainable income’
On a recent visit to the estate by Carbon Brief, Ambition Lawrence Weston’s development manager, Mark Pepper, rattled off the story behind the wind turbine.
In 2012, Pepper and his team were approached by the Bristol Energy Cooperative with a chance to get a slice of the income from a new solar farm. They jumped at the opportunity.
“Austerity measures were kicking in at the time,” Pepper told Carbon Brief. “We needed to generate an income. Our own, sustainable income.”
With the solar farm proving to be a success, the team started to explore other opportunities. This began a decade-long process that saw them navigate the Conservative government’s “ban” on onshore wind, raise £5.5m in funding and, ultimately, erect the turbine in 2023.
Today, the turbine generates electricity equivalent to Lawrence Weston’s 3,000 households and will save 87,600 tonnes of carbon dioxide (CO2) over its lifetime.
‘Climate by stealth’
Ambition Lawrence Weston’s hub is at the heart of the estate and the list of activities on offer is seemingly endless: birthday parties, kickboxing, a library, woodworking, help with employment and even a pop-up veterinary clinic. All supported, Pepper said, with the help of a steady income from community-owned energy.
The centre itself is kitted out with solar panels, heat pumps and electric-vehicle charging points, making it a living advertisement for the net-zero transition. Pepper noted that the organisation has also helped people with energy costs amid surging global gas prices.
Gesturing to the England flags dangling limply on lamp posts visible from the kitchen window, he said:
“There’s a bit of resentment around immigration and scarcity of materials and provision, so we’re trying to do our bit around community cohesion.”
This includes supper clubs and an interfaith grand iftar during the Muslim holy month of Ramadan.
Anti-immigration sentiment in the UK has often gone hand-in-hand with opposition to climate action. Right-wing politicians and media outlets promote the idea that net-zero policies will cost people a lot of money – and these ideas have cut through with the public.
Pepper told Carbon Brief he is sympathetic to people’s worries about costs and stressed that community energy is the perfect way to win people over:
“I think the only way you can change that is if, instead of being passive consumers…communities are like us and they’re generating an income to offset that.”
From the outset, Pepper stressed that “we weren’t that concerned about climate because we had other, bigger pressures”, adding:
“But, in time, we’ve delivered climate by stealth.”
Watch, read, listen
OIL WATCH: The Guardian has published a “visual guide” with charts and videos showing how the “escalating Iran conflict is driving up oil and gas prices”.
MURDER IN HONDURAS: Ten years on from the murder of Indigenous environmental justice advocate Berta Cáceres, Drilled asked why Honduras is still so dangerous for environmental activists.
TALKING WEATHER: A new film, narrated by actor Michael Sheen and titled You Told Us To Talk About the Weather, aimed to promote conversation about climate change with a blend of “poetry, folk horror and climate storytelling”.
Coming up
- 8 March: Colombia parliamentary election
- 9-19 March: 31st Annual Session of the International Seabed Authority, Kingston, Jamaica
- 11 March: UN Environment Programme state of finance for nature 2026 report launch
Pick of the jobs
- London School of Economics and Political Science, fellow in the social science of sustainability | Salary: £43,277-£51,714. Location: London
- NORCAP, innovative climate finance expert | Salary: Unknown. Location: Kyiv, Ukraine
- WBHM, environmental reporter | Salary: $50,050-$81,330. Location: Birmingham, Alabama, US
- Climate Cabinet, data engineer | Salary: hourly rate of $60-$120 per hour. Location: Remote anywhere in the US
DeBriefed is edited by Daisy Dunne. Please send any tips or feedback to debriefed@carbonbrief.org.
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The post DeBriefed 6 March 2026: Iran energy crisis | China climate plan | Bristol’s ‘pioneering’ wind turbine appeared first on Carbon Brief.
China’s leadership has published a draft of its 15th five-year plan setting the strategic direction for the nation out to 2030, including support for clean energy and energy security.
The plan sets a target to cut China’s “carbon intensity” by 17% over the five years from 2026-30, but also changes the basis for calculating this key climate metric.
The plan continues to signal support for China’s clean-energy buildout and, in general, contains no major departures from the country’s current approach to the energy transition.
The government reaffirms support for several clean-energy industries, ranging from solar and electric vehicles (EVs) through to hydrogen and “new-energy” storage.
The plan also emphasises China’s willingness to steer climate governance and be seen as a provider of “global public goods”, in the form of affordable clean-energy technologies.
However, while the document says it will “promote the peaking” of coal and oil use, it does not set out a timeline and continues to call for the “clean and efficient” use of coal.
This shows that tensions remain between China’s climate goals and its focus on energy security, leading some analysts to raise concerns about its carbon-cutting ambition.
Below, Carbon Brief outlines the key climate change and energy aspects of the plan, including targets for carbon intensity, non-fossil energy and forestry.
Note: this article is based on a draft published on 5 March and will be updated if any significant changes are made in the final version of the plan, due to be released at the close next week of the “two sessions” meeting taking place in Beijing.
- What is China’s 15th five-year plan?
- What does the plan say about China’s climate action?
- What is China’s new CO2 intensity target?
- Does the plan encourage further clean-energy additions?
- What does the plan signal about coal?
- How will China approach global climate governance in the next five years?
- What else does the plan cover?
What is China’s 15th five-year plan?
Five-year plans are one of the most important documents in China’s political system.
Addressing everything from economic strategy to climate policy, they outline the planned direction for China’s socio-economic development in a five-year period. The 15th five-year plan covers 2026-30.
These plans include several “main goals”. These are largely quantitative indicators that are seen as particularly important to achieve and which provide a foundation for subsequent policies during the five-year period.
The table below outlines some of the key “main goals” from the draft 15th five-year plan.
| Category | Indicator | Indicator in 2025 | Target by 2030 | Cumulative target over 2026-2030 | Characteristic |
|---|---|---|---|---|---|
| Economic development | Gross domestic product (GDP) growth (%) | 5 | Maintained within a reasonable range and proposed annually as appropriate. | Anticipatory | |
| ‘Green and low-carbon | Reduction in CO2 emissions per unit of GDP (%) | 17.7 | 17 | Binding | |
| Share of non-fossil energy in total energy consumption (%) | 21.7 | 25 | Binding | ||
| Security guarantee | Comprehensive energy production capacity (100m tonnes of standard coal equivalent) |
51.3 | 58 | Binding |
Select list of targets highlighted in the “main goals” section of the draft 15th five-year plan. Source: Draft 15th five-year plan.
Since the 12th five-year plan, covering 2011-2015, these “main goals” have included energy intensity and carbon intensity as two of five key indicators for “green ecology”.
The previous five-year plan, which ran from 2021-2025, introduced the idea of an absolute “cap” on carbon dioxide (CO2) emissions, although it did not provide an explicit figure in the document. This has been subsequently addressed by a policy on the “dual-control of carbon” issued in 2024.
The latest plan removes the energy-intensity goal and elevates the carbon-intensity goal, but does not set an absolute cap on emissions (see below).
It covers the years until 2030, before which China has pledged to peak its carbon emissions. (Analysis for Carbon Brief found that emissions have been “flat or falling” since March 2024.)
The plans are released at the two sessions, an annual gathering of the National People’s Congress (NPC) and the Chinese People’s Political Consultative Conference (CPPCC). This year, it runs from 4-12 March.
The plans are often relatively high-level, with subsequent topic-specific five-year plans providing more concrete policy guidance.
Policymakers at the National Energy Agency (NEA) have indicated that in the coming years they will release five sector-specific plans for 2026-2030, covering topics such as the “new energy system”, electricity and renewable energy.
There may also be specific five-year plans covering carbon emissions and environmental protection, as well as the coal and nuclear sectors, according to analysts.
Other documents published during the two sessions include an annual government work report, which outlines key targets and policies for the year ahead.
The gathering is attended by thousands of deputies – delegates from across central and local governments, as well as Chinese Communist party members, members of other political parties, academics, industry leaders and other prominent figures.
What does the plan say about China’s climate action?
Achieving China’s climate targets will remain a key driver of the country’s policies in the next five years, according to the draft 15th five-year plan.
It lists the “acceleration” of China’s energy transition as a “major achievement” in the 14th five-year plan period (2021-2025), noting especially how clean-power capacity had overtaken fossil fuels.
The draft says China will “actively and steadily advance and achieve carbon peaking”, with policymakers continuing to strike a balance between building a “green economy” and ensuring stability.
Climate and environment continues to receive its own chapter in the plan. However, the framing and content of this chapter has shifted subtly compared with previous editions, as shown in the table below. For example, unlike previous plans, the first section of this chapter focuses on China’s goal to peak emissions.
| 11th five-year plan (2006-2010) | 12th five-year plan (2011-2015) | 13th five-year plan (2016-2020) | 14th five-year plan (2021-2025) | 15th five-year plan (2026-2030) | |
|---|---|---|---|---|---|
| Chapter title | Part 6: Build a resource-efficient and environmentally-friendly society | Part 6: Green development, building a resource-efficient and environmentally friendly society | Part 10: Ecosystems and the environment | Part 11: Promote green development and facilitate the harmonious coexistence of people and nature | Part 13: Accelerating the comprehensive green transformation of economic and social development to build a beautiful China |
| Sections | Developing a circular economy | Actively respond to global climate change | Accelerate the development of functional zones | Improve the quality and stability of ecosystems | Actively and steadily advancing and achieving carbon peaking |
| Protecting and restoring natural ecosystems | Strengthen resource conservation and management | Promote economical and intensive resource use | Continue to improve environmental quality | Continuously improving environmental quality | |
| Strengthening environmental protection | Vigorously develop the circular economy | Step up comprehensive environmental governance | Accelerate the green transformation of the development model | Enhancing the diversity, stability, and sustainability of ecosystems | |
| Enhancing resource management | Strengthen environmental protection efforts | Intensify ecological conservation and restoration | Accelerating the formation of green production and lifestyles | ||
| Rational utilisation of marine and climate resources | Promoting ecological conservation and restoration | Respond to global climate change | |||
| Strengthen the development of water conservancy and disaster prevention and mitigation systems | Improve mechanisms for ensuring ecological security | ||||
| Develop green and environmentally-friendly industries |
Title and main sections of the climate and environment-focused chapters in the last five five-year plans. Source: China’s 11th, 12th, 13th, 14th and 15th five-year plans.
The climate and environment chapter in the latest plan calls for China to “balance [economic] development and emission reduction” and “ensure the timely achievement of carbon peak targets”.
Under the plan, China will “continue to pursue” its established direction and objectives on climate, Prof Li Zheng, dean of the Tsinghua University Institute of Climate Change and Sustainable Development (ICCSD), tells Carbon Brief.
What is China’s new CO2 intensity target?
In the lead-up to the release of the plan, analysts were keenly watching for signals around China’s adoption of a system for the “dual-control of carbon”.
This would combine the existing targets for carbon intensity – the CO2 emissions per unit of GDP – with a new cap on China’s total carbon emissions. This would mark a dramatic step for the country, which has never before set itself a binding cap on total emissions.
Policymakers had said last year that this framework would come into effect during the 15th five-year plan period, replacing the previous system for the “dual-control of energy”.
However, the draft 15th five-year plan does not offer further details on when or how both parts of the dual-control of carbon system will be implemented. Instead, it continues to focus on carbon intensity targets alone.
Looking back at the previous five-year plan period, the latest document says China had achieved a carbon-intensity reduction of 17.7%, just shy of its 18% goal.
This is in contrast with calculations by Lauri Myllyvirta, lead analyst at the Centre for Research on Energy and Clean Air (CREA), which had suggested that China had only cut its carbon intensity by 12% over the past five years.
At the time it was set in 2021, the 18% target had been seen as achievable, with analysts telling Carbon Brief that they expected China to realise reductions of 20% or more.
However, the government had fallen behind on meeting the target.
Last year, ecology and environment minister Huang Runqiu attributed this to the Covid-19 pandemic, extreme weather and trade tensions. He said that China, nevertheless, remained “broadly” on track to meet its 2030 international climate pledge of reducing carbon intensity by more than 65% from 2005 levels.
Myllyvirta tells Carbon Brief that the newly reported figure showing a carbon-intensity reduction of 17.7% is likely due to an “opportunistic” methodological revision. The new methodology now includes industrial process emissions – such as cement and chemicals – as well as the energy sector.
(This is not the first time China has redefined a target, with regulators changing the methodology for energy intensity in 2023.)
For the next five years, the plan sets a target to reduce carbon intensity by 17%, slightly below the previous goal.
However, the change in methodology means that this leaves space for China’s overall emissions to rise by “3-6% over the next five years”, says Myllyvirta. In contrast, he adds that the original methodology would have required a 2% fall in absolute carbon emissions by 2030.
The dashed lines in the chart below show China’s targets for reducing carbon intensity during the 12th, 13th, 14th and 15th five-year periods, while the bars show what was achieved under the old (dark blue) and new (light blue) methodology.
The carbon-intensity target is the “clearest signal of Beijing’s climate ambition”, says Li Shuo, director at the Asia Society Policy Institute’s (ASPI) China climate hub.
It also links directly to China’s international pledge – made in 2021 – to cut its carbon intensity to more than 65% below 2005 levels by 2030.
To meet this pledge under the original carbon-intensity methodology, China would have needed to set a target of a 23% reduction within the 15th five-year plan period. However, the country’s more recent 2035 international climate pledge, released last year, did not include a carbon-intensity target.
As such, ASPI’s Li interprets the carbon-intensity target in the draft 15th five-year plan as a “quiet recalibration” that signals “how difficult the original 2030 goal has become”.
Furthermore, the 15th five-year plan does not set an absolute emissions cap.
This leaves “significant ambiguity” over China’s climate plans, says campaign group 350 in a press statement reacting to the draft plan. It explains:
“The plan was widely expected to mark a clearer transition from carbon-intensity targets toward absolute emissions reductions…[but instead] leaves significant ambiguity about how China will translate record renewable deployment into sustained emissions cuts.”
Myllyvirta tells Carbon Brief that this represents a “continuation” of the government’s focus on scaling up clean-energy supply while avoiding setting “strong measurable emission targets”.
He says that he would still expect to see absolute caps being set for power and industrial sectors covered by China’s emissions trading scheme (ETS). In addition, he thinks that an overall absolute emissions cap may still be published later in the five-year period.
Despite the fact that it has yet to be fully implemented, the switch from dual-control of energy to dual-control of carbon represents a “major policy evolution”, Ma Jun, director of the Institute of Public and Environmental Affairs (IPE), tells Carbon Brief. He says that it will allow China to “provide more flexibility for renewable energy expansion while tightening the net on fossil-fuel reliance”.
Does the plan encourage further clean-energy additions?
“How quickly carbon intensity is reduced largely depends on how much renewable energy can be supplied,” says Yao Zhe, global policy advisor at Greenpeace East Asia, in a statement.
The five-year plan continues to call for China’s development of a “new energy system that is clean, low-carbon, safe and efficient” by 2030, with continued additions of “wind, solar, hydro and nuclear power”.
In line with China’s international pledge, it sets a target for raising the share of non-fossil energy in total energy consumption to 25% by 2030, up from just under 21.7% in 2025.
The development of “green factories” and “zero-carbon [industrial] parks” has been central to many local governments’ strategies for meeting the non-fossil energy target, according to industry news outlet BJX News. A call to build more of these zero-carbon industrial parks is listed in the five-year plan.
Prof Pan Jiahua, dean of Beijing University of Technology’s Institute of Ecological Civilization, tells Carbon Brief that expanding demand for clean energy through mechanisms such as “green factories” represents an increasingly “bottom-up” and “market-oriented” approach to the energy transition, which will leave “no place for fossil fuels”.
He adds that he is “very much sure that China’s zero-carbon process is being accelerated and fossil fuels are being driven out of the market”, pointing to the rapid adoption of EVs.
The plan says that China will aim to double “non-fossil energy” in 10 years – although it does not clarify whether this means their installed capacity or electricity generation, or what the exact starting year would be.
Research has shown that doubling wind and solar capacity in China between 2025-2035 would be “consistent” with aims to limit global warming to 2C.
While the language “certainly” pushes for greater additions of renewable energy, Yao tells Carbon Brief, it is too “opaque” to be a “direct indication” of the government’s plans for renewable additions.
She adds that “grid stability and healthy, orderly competition” is a higher priority for policymakers than guaranteeing a certain level of capacity additions.
China continues to place emphasis on the need for large-scale clean-energy “bases” and cross-regional power transmission.
The plan says China must develop “clean-energy bases…in the three northern regions” and “integrated hydro-wind-solar complexes” in south-west China.
It specifically encourages construction of “large-scale wind and solar” power bases in desert regions “primarily” for cross-regional power transmission, as well as “major hydropower” projects, including the Yarlung Tsangpo dam in Tibet.
As such, the country should construct “power-transmission corridors” with the capacity to send 420 gigawatts (GW) of electricity from clean-energy bases in western provinces to energy-hungry eastern provinces by 2030, the plan says.
State Grid, China’s largest grid operator, plans to install “another 15 ultra-high voltage [UHV] transmission lines” by 2030, reports Reuters, up from the 45 UHV lines built by last year.
Below are two maps illustrating the interlinkages between clean-energy bases in China in the 15th (top) and 14th (bottom) five-year plan periods.
The yellow dotted areas represent clean energy bases, while the arrows represent cross-regional power transmission. The blue wind-turbine icons represent offshore windfarms and the red cooling tower icons represent coastal nuclear plants.
The 15th five-year plan map shows a consistent approach to the 2021-2025 period. As well as power being transmitted from west to east, China plans for more power to be sent to southern provinces from clean-energy bases in the north-west, while clean-energy bases in the north-east supply China’s eastern coast.
It also maps out “mutual assistance” schemes for power grids in neighbouring provinces.
Offshore wind power should reach 100GW by 2030, while nuclear power should rise to 110GW, according to the plan.
What does the plan signal about coal?
The increased emphasis on grid infrastructure in the draft 15th five-year plan reflects growing concerns from energy planning officials around ensuring China’s energy supply.
Ren Yuzhi, director of the NEA’s development and planning department, wrote ahead of the plan’s release that the “continuous expansion” of China’s energy system has “dramatically increased its complexity”.
He said the NEA felt there was an “urgent need” to enhance the “secure and reliable” replacement of fossil-fuel power with new energy sources, as well as to ensure the system’s “ability to absorb them”.
Meanwhile, broader concerns around energy security have heightened calls for coal capacity to remain in the system as a “ballast stone”.
The plan continues to support the “clean and efficient utilisation of fossil fuels” and does not mention either a cap or peaking timeline for coal consumption.
Xi had previously told fellow world leaders that China would “strictly control” coal-fired power and phase down coal consumption in the 15th five-year plan period.
The “geopolitical situation is increasing energy security concerns” at all levels of government, said the Institute for Global Decarbonization Progress in a note responding to the draft plan, adding that this was creating “uncertainty over coal reduction”.
Ahead of its publication, there were questions around whether the plan would set a peaking deadline for oil and coal. An article posted by state news agency Xinhua last month, examining recommendations for the plan from top policymakers, stated that coal consumption would plateau from “around 2027”, while oil would peak “around 2026”.
However, the plan does not lay out exact years by which the two fossil fuels should peak, only saying that China will “promote the peaking of coal and oil consumption”.
There are similarly no mentions of phasing out coal in general, in line with existing policy.
Nevertheless, there is a heavy emphasis on retrofitting coal-fired power plants. The plan calls for the establishment of “demonstration projects” for coal-plant retrofitting, such as through co-firing with biomass or “green ammonia”.
Such retrofitting could incentivise lower utilisation of coal plants – and thus lower emissions – if they are used to flexibly meet peaks in demand and to cover gaps in clean-energy output, instead of providing a steady and significant share of generation.
The plan also calls for officials to “fully implement low-carbon retrofitting projects for coal-chemical industries”, which have been a notable source of emissions growth in the past year.
However, the coal-chemicals sector will likely remain a key source of demand for China’s coal mining industry, with coal-to-oil and coal-to-gas bases listed as a “key area” for enhancing the country’s “security capabilities”.
Meanwhile, coal-fired boilers and industrial kilns in the paper industry, food processing and textiles should be replaced with “clean” alternatives to the equivalent of 30m tonnes of coal consumption per year, it says.
“China continues to scale up clean energy at an extraordinary pace, but the plan still avoids committing to strong measurable constraints on emissions or fossil fuel use”, says Joseph Dellatte, head of energy and climate studies at the Institut Montaigne. He adds:
“The logic remains supply-driven: deploy massive amounts of clean energy and assume emissions will eventually decline.”
How will China approach global climate governance in the next five years?
Meanwhile, clean-energy technologies continue to play a role in upgrading China’s economy, with several “new energy” sectors listed as key to its industrial policy.
Named sectors include smart EVs, “new solar cells”, new-energy storage, hydrogen and nuclear fusion energy.
“China’s clean-technology development – rather than traditional administrative climate controls – is increasingly becoming the primary driver of emissions reduction,” says ASPI’s Li. He adds that strengthening China’s clean-energy sectors means “more closely aligning Beijing’s economic ambitions with its climate objectives”.
Analysis for Carbon Brief shows that clean energy drove more than a third of China’s GDP growth in 2025, representing around 11% of China’s whole economy.
The continued support for these sectors in the draft five-year plan comes as the EU outlined its own measures intended to limit China’s hold on clean-energy industries, driven by accusations of “unfair competition” from Chinese firms.
China is unlikely to crack down on clean-tech production capacity, Dr Rebecca Nadin, director of the Centre for Geopolitics of Change at ODI Global, tells Carbon Brief. She says:
“Beijing is treating overcapacity in solar and smart EVs as a strategic choice, not a policy error…and is prepared to pour investment into these sectors to cement global market share, jobs and technological leverage.”
Dellatte echoes these comments, noting that it is “striking” that the plan “barely addresses the issue of industrial overcapacity in clean technologies”, with the focus firmly on “scaling production and deployment”.
At the same time, China is actively positioning itself to be a prominent voice in climate diplomacy and a champion of proactive climate action.
This is clear from the first line in a section on providing “global public goods”. It says:
“As a responsible major country, China will play a more active role in addressing global challenges such as climate change.”
The plan notes that China will “actively participate in and steer [引领] global climate governance”, in line with the principle of “common,but differentiated responsibilities”.
This echoes similar language from last year’s government work report, Yao tells Carbon Brief, demonstrating a “clear willingness” to guide global negotiations. But she notes that this “remains an aspiration that’s yet to be made concrete”. She adds:
“China has always favored collective leadership, so its vision of leadership is never a lone one.”
The country will “deepen south-south cooperation on climate change”, the plan says. In an earlier section on “opening up”, it also notes that China will explore “new avenues for collaboration in green development” with global partners as part of its “Belt and Road Initiative”.
China is “doubling down” on a narrative that it is a “responsible major power” and “champion of south-south climate cooperation”, Nadin says, such as by “presenting its clean‑tech exports and finance as global public goods”. She says:
“China will arrive at future COPs casting itself as the indispensable climate leader for the global south…even though its new five‑year plan still puts growth, energy security and coal ahead of faster emissions cuts at home.”
What else does the plan cover?
The impact of extreme weather – particularly floods – remains a key concern in the plan.
China must “refine” its climate adaptation framework and “enhance its resilience to climate change, particularly extreme-weather events”, it says.
China also aims to “strengthen construction of a national water network” over the next five years in order to help prevent floods and droughts.
An article published a few days before the plan in the state-run newspaper China Daily noted that, “as global warming intensifies, extreme weather events – including torrential rains, severe convective storms, and typhoons – have become more frequent, widespread and severe”.
The plan also touches on critical minerals used for low-carbon technologies. These will likely remain a geopolitical flashpoint, with China saying it will focus during the next five years on “intensifying” exploration and “establishing” a reserve for critical minerals. This reserve will focus on “scarce” energy minerals and critical minerals, as well as other “advantageous mineral resources”.
Dellatte says that this could mean the “competition in the energy transition will increasingly be about control over mineral supply chains”.
Other low-carbon policies listed in the five-year plan include expanding coverage of China’s mandatory carbon market and further developing its voluntary carbon market.
China will “strengthen monitoring and control” of non-CO2 greenhouse gases, the plan says, as well as implementing projects “targeting methane, nitrous oxide and hydrofluorocarbons” in sectors such as coal mining, agriculture and chemicals.
This will create “capacity” for reducing emissions by 30m tonnes of CO2 equivalent, it adds.
Meanwhile, China will develop rules for carbon footprint accounting and push for internationally recognised accounting standards.
It will enhance reform of power markets over the next five years and improve the trading mechanism for green electricity certificates.
It will also “promote” adoption of low-carbon lifestyles and decarbonisation of transport, as well as working to advance electrification of freight and shipping.
The post Q&A: What does China’s 15th ‘five-year plan’ mean for climate change? appeared first on Carbon Brief.
Q&A: What does China’s 15th ‘five-year plan’ mean for climate change?
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