Brazil has appointed veteran climate diplomat André Aranha Corrêa do Lago to lead this year’s COP30 UN climate summit in November in the Amazonian city of Belém.
Correa do Lago has been Secretary for Climate, Energy and Environment at Brazil’s foreign ministry and Brazil’s chief climate negotiator since 2023 when president Lula da Silva returned to power. He had previously held the same role between 2011 and 2013 and has worked on sustainable development related issues since 2001.
A career diplomat, he served as Brazilian ambassador to India and Japan. He is also a well-regarded architecture critic and curator.
He will be the fifth man in a row, and the 25th man out of 30, to be COP President. Ana Toni, Secretary of Climate Change at the Brazilian environment ministry, will be the COP30 CEO and Executive Director while environment minister Marina Silva will be without a formal role.
Brazilian climate campaigners broadly welcomed his appointment. Claudio Angelo, head of international policy at Observatório do Clima, said President Lula “has made the right call” by appointing Correa do Lago. “The ambassador has the respect of the international climate community and a deep knowledge of the multilateral process,” he added.
But Angelo also warned that Correa do Lago will need full support from Lula “to move forward the agenda in the most challenging year ever for climate diplomacy”.
Toya Manchineri from the Coordination of Indigenous Organisations of the Brazilian Amazon said his appointment “represents a positive effort but still does not guarantee what we truly expect: the centrality of Indigenous peoples in climate discussion.”
“As a COP in the Amazon, it is essential that our voice, as historical guardians of the forests, be at the heart of the debate,” Manchineri said.
His appointment comes a day after US President Donald Trump started the process of withdrawing the US from the Paris Agreement on his first day in office. But, as leaving the Paris Agreement takes a year, the US will still be a member at COP30 and has not yet indicated that it will leave the United Nations Framework Convention on Climate Change (UNFCCC).
‘Intense year’
COP presidents play a crucial role in shaping the agenda of climate summits and in helping broker deals between countries.
Last December, Correa do Lago said much expectation had been placed on Brazil because of the country’s traditional role in shaping the climate agenda. “It is going to be an extremely intense year of action to ensure that COP30 brings the best possible results,” he said.
Coming 10 years after the adoption of the Paris climate agreement, COP30 is the first opportunity for countries to take stock of the new round of nationally determined contributions (NDCs) which will offer a temperature check on global plans to reduce emissions and adapt to the impacts of climate change.
Brazil has already unveiled its updated goal of cutting emissions between 59% and 67% from 2005 levels by 2035, mostly by relying on its carbon-storing forests. Lula’s government has insisted the plan is aligned with the Paris goal of limiting global warming to 1.5C, but experts said it ignores the country’s looming fossil fuel expansion.
Governments are also expected to advance fraught negotiations on steps towards transitioning away from fossil fuels, a global goal on adaptation and climate finance.
Following deeply divided talks, countries agreed at COP29 that wealthy governments would channel at least $300 billion a year by 2035 to developing countries under the so-called new collective quantified goal (NCQG).
A larger target of $1.3 trillion a year was also set in Baku to scale up all sources of climate finance, including private investments in the Global South that are not linked to governments. But countries did not detail how the broader goal would be reached, establishing instead a vague programme called “Baku to Belem Roadmap to 1.3T” due to be completed by COP30.
Speaking about the climate finance agreement last December, Correa do Lago said Brazil needs investment and not donations.
“When it comes to talking about finance, rich countries forget the measure of urgency regarding climate change,” he said. “They talk a lot about urgency when they talk about targets, initiatives and NDCs. But when it comes to talking about finance, the element of urgency is kind of forgotten.”
Do Lago will become the first COP president in three years not to have hailed from the fossil fuel sector which is responsible for the vast majority of global emissions.
COP28 president Sultan Al-Jaber led climate negotiations in the United Arab Emirates in 2023 while simultaneously being at the helm of the Abu Dhabi National Oil Company (ADNOC), the nation’s state-owned fossil fuel company. Meanwhile, COP29 president Mukthar Babayev spent 26 years at Azerbaijan’s state-owned oil and gas company Socar before becoming the country’s environment minister.
(Reporting by Matteo Civillini; editing by Joe Lo)
The post Brazil appoints veteran climate diplomat André Correa do Lago as COP30 president appeared first on Climate Home News.
Brazil appoints veteran climate diplomat André Correa do Lago as COP30 president
The hot, dry and windy weather preceding the wildfires that tore through Chile and Argentina last month was made around three times more likely due to human-caused climate change.
This is according to a rapid attribution study by the World Weather Attribution (WWA) service.
Devastating wildfires hit multiple parts of South America throughout January.
The fires claimed the lives of 23 people in Chile and displaced thousands of people and destroyed vast areas of native forests and grasslands in both Chile and Argentina.
The authors find that the hot, dry and windy conditions that drove the “high fire danger” are expected to occur once every five years, but that these conditions would have been “rarer” in a world without climate change.
In today’s climate, rainfall intensity during the “fire season” is around 20-25% lower in the areas covered by the study than it would be in a world without human-caused emissions, the study adds.
Study author Prof Friederike Otto, professor of climate science at Imperial College London, told a press briefing:
“We’re confident in saying that the main driver of this increased fire risk is human-caused warming. These trends are projected to continue in the future as long as we continue to burn fossil fuels.”
‘Significant’ damage
The recent wildfires in Chile and Argentina have been “one of the most significant and damaging events in the region”, the report says.
In the lead-up to the fires, both countries were gripped by intense heatwaves and droughts.
The authors analysed two regions – one in central Chile and the other in Argentine Patagonia, along the border between Argentina and Chile.
For example, in Argentina’s northern Patagonian Andes, the last recorded rainfall was in mid-November of 2025, according to the report. It adds that in early January, the region recorded 11 consecutive days of “extreme maximum temperatures”, marking the “second-longest warm spell in the past 65 years”.
Dr Juan Antonio Rivera, a researcher at the Argentine Institute of Snow Science, Glaciology and Environmental Sciences, told a WWA press briefing that these weather conditions dried out vegetation and decreased soil moisture, which meant that the fires “found abundant fuel to continue over time”.
In the northern Patagonian Andes of Argentina, wildfires started on 6 January in Puerto Patriada and spread over two national parks of Los Alerces and Lago Puelo and nearby regions. These fires remained active into the first week of February.
The fires engulfed more than 45,000 hectares of native and planted forest, shrublands and grasslands, including 75% of native forests in the village of Epuyén, notes the study.
At least 47 homes were burned, according to El País. La Nación reported that many families evacuated themselves to prevent any damage.
In south-central Chile, wildfires occurred from 17 to 19 January, affecting the Biobío, Ñuble and Araucanía regions.
They started near Concepción city, the capital of the Biobío region, where maximum temperatures reached 26C. In the nearby city of Chillán, temperatures reached 37C.
From there, the fires spread southwards to the coastal towns of Penco-Lirquen and Punta Parra, in the Biobío region.
The event left 23 people dead, 52,000 people displaced and more than 1,000 homes destroyed in the country, according to the study.
These wildfires burnt more than 40,000 hectares of forests, “tripling the amount of land burned in 2025” across the country, reported La Tercera.
The study adds that more than 20,000 hectares of non-native forest plantations, including Monterey pine and Eucalyptus trees, were consumed by the blaze and critical infrastructure was affected.
A WWA press release points out that the expansion of non-native pines and invasive species “has created highly flammable landscapes in Chile”.
Hot, dry and windy
Wildfires are complex events that are influenced by a wide range of factors, such as atmospheric moisture, wind speed and fuel availability.
To assess the impact of climate change on wildfires, the authors chose a “fire weather” metric called the “hot dry windy index” (HDWI). This combines maximum temperature, relative humidity and wind speed.
While this metric does not include every component that could contribute to intense wildfires, such as land-use change and fuel load data, study author Dr Claire Barnes from Imperial College London told a press briefing that HDWI is “a very good predictor of short-term, extreme, dry, fire-prone conditions”.
The authors chose to analyse two separate regions. The first lies along the coast and the foothills of the Andes around the Ñuble, Biobío and La Araucanía regions in central Chile. The second sits across the Chilean and Argentine border in Patagonia.
These regions are shown on the map below, where red circles indicate the wildfires recorded in January 2026 and pink boxes represent the study areas.
The authors also selected different time periods for the two study regions, to reflect the “different lengths of peak wildfire activity associated with the fires in each region”.
For the central Chilean study area, the authors focus their analysis on the two most severe days of HDWI, 17-18 January. For the Patagonian region, they focus on the most severe five-day period, which took place over 2-6 January.
To put the wildfire into its historical context, the authors analyse data on temperature, wind and rainfall to assess how HDWI over the two regions has changed since the year 1980.
They find that in both study regions, the high HWDI recorded in January is not “particularly extreme” in today’s climate and would typically be expected roughly once every five years. However, they add that the event would have been “rarer” in a world without climate change, in which average global temperatures are 1.3C cooler.
The authors also use a combination of observations and climate models to carry out an “attribution” analysis, comparing the world as it is today to a “counterfactual” world without human-caused climate change.
They find that climate change made the high HDWI three-times more likely in the central Chilean region and 2.5-times more likely in the Patagonian region.
The authors also conduct analysis focused solely on November-January rainfall.
Both study regions experienced “very low rainfall” in the months leading up to the fires, the authors say. They find that fire-season rainfall intensity is around 25% lower in the central Chilean region and 20% lower in the Patagonia region in today’s climate than it would have been in a world without climate change.
Finally, the authors considered the influence of climatic cycles such as the El Niño-Southern Oscillation (ENSO), a naturally occurring phenomenon that affects global temperatures and regional weather patterns.
They find that a combination of La Niña – the “cool” phase of ENSO – combined with another natural cycle called the Southern Annular Mode, led to atmospheric circulation patterns that “favoured the hot and dry conditions that enhanced fire persistence and severity in parts of the region”.
However, they add that this has a comparably small effect on the overall intensity of the wildfires, with climate change standing out as the main driver.
(These findings are yet to be published in a peer-reviewed journal. However, the methods used in the analysis have been published in previous attribution studies.)
Vulnerable communities
The wildfires affected native forests, national parks and small rural and tourist communities in both countries.
A 2025 study conducted in Chile, cited in the WWA analysis, found that 74% of survey respondents did not have appropriate education and awareness on wildfires.
This suggests that insufficient preparedness on early warning signs, response measures and prevention can “exacerbate the severity and frequency of these events”, the WWA authors say.
Aynur Kadihasanoglu, senior urban specialist at the Red Cross Red Crescent Climate Center, said in the WWA press release that many settlements in Chile are close to flammable pine plantations, which “puts lives and livelihoods at risk”.
Additionally, the head of Chile’s National Forest Corporation pointed to “structural shortcomings” in fire prevention, such as lack of regulation in lands without management plans, reported BioBioChile.
In Argentina, the response to the fires has been hampered by large budget cuts and reductions in forest rangers, according to the WWA press release. Experts have criticised Argentina’s self-styled “liberal-libertarian” president Javier Milei for the cuts and the delay to declaring a state of emergency in Patagonia.
According to the Associated Press, “Milei slashed spending on the National Fire Management Service by 80% in 2024 compared to the previous year”. The service “faces another 71% reduction in funds” in its 2026 budget, the newswire adds.
Argentinian native forests and grasslands are experiencing “intense pressure” from wildfires, according to the study. Many vulnerable native animal species, such as the huemul and the pudú, are losing critical habitat, while birds, such as the Patagonian black woodpecker, are losing nesting sites.
The post Climate change made ‘fire weather’ in Chile and Argentina three times more likely appeared first on Carbon Brief.
Climate change made ‘fire weather’ in Chile and Argentina three times more likely
Activists say the decision is the latest sign of growing grassroots opposition to the industry in the U.S.
A Pennsylvania county on Tuesday rejected a plan to rezone land so a data center could be built there, becoming the latest locality to push back against an electricity-hungry industry growing rapidly nationwide.
Pennsylvania County Denies Rezoning Plan That Would Have Allowed a Data Center
Whatever oil and gas companies would have you believe, fossil gas has no useful role to play in the energy transition. In fact it’s dirty, expensive, and unnecessary
Renewables are not only better for the climate, they are cheaper and create more jobs. Pursuing the concept of a ‘gas-led recovery’ would deliver economic as well as environmental ruin.
6 reasons gas is bad for the climate and the economy
- Burning known global oil and gas reserves, even without coal, would make limiting temperature rise to 1.5°C impossible: Burning existing proven and probable gas reserves alone would lead to 173 gigatonnes of greenhouse gas emissions, nearly half of the remaining post-2015 carbon budget for remaining below 1.5°C with 50% probability. In fact to meet the IPCC’s most realistic pathway to 1.5°C would require a reduction of not less than 39% in fossil gas consumption between 2018 and 2030.
- Gas may be as polluting as coal: Taking into account the greenhouse gas emissions associated with extracting, producing, and transporting gas to consumers, scientists are now concluding that across the entire lifecycle gas may be as polluting as coal, if not more: Not only is the process of liquefying and transporting gas energy intensive but the amount of methane, a greenhouse gas 86 times more potent than CO2 in the short term, routinely leaking from gas infrastructure has been severely underestimated.
- Investors are already overexposed to gas: Investing in new gas projects now will either lead to assets becoming stranded as global efforts to curb emissions gain momentum or they will cause climate action to fail, thereby contributing to the increased costs of climate damage. As of 2019 almost $5 trillion USD of investments have already been committed to new oil and gas fields that are incompatible with limiting warming to 1.5°C.
- Renewables are cheaper than gas: Since 2016, gas has been driving up energy prices for Australian households and businesses. According to the CSIRO, Lazard, and Bloomberg’s levelized cost of energy analyses, solar and wind have been the cheapest power generation technologies for new capacities in most major economies for some time and are now even competitive with installed coal.
- Fossil gas is not needed for grid reliability: Storage solutions and demand response technology are becoming competitive with gas peaker plants for balancing electricity grids. AEMO’s most recent draft Integrated System Plan shows no need for significant gas expansion in any scenario. And according to Wood MacKenzie batteries could soon replace all gas peakers. Electrifying transport and buildings is expected to further help meet grid reliability expectations.
- New fossil gas infrastructure would lock in emission increases for decades. Global gas production plans already in train are set to exceed the global carbon budget for 1.5°C by 70%. Approximately half of the existing fossil gas fleet was built after 2000. New fossil gas plants and infrastructure being built are either likely to operate and emit greenhouse gases for decades, shattering the earth’s carbon budget, or become stranded assets.
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Climate change made ‘fire weather’ in Chile and Argentina three times more likely
Climate change made ‘fire weather’ in Chile and Argentina three times more likely
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