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Flooding in the Sahara, Amazon tributaries drying and warming tipping over 1.5°C – 2024 broke all the wrong records

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Wednesday, March 19, 2025

Climate change is the most pressing problem humanity will face this century. Tracking how the climate is actually changing has never been more critical. Today, the World Meteorological Organization (WMO) published its annual State of the Climate report, which found heat records kept being broken in 2024. It’s likely 2024 was the first year to be more than 1.5°C above the Earth’s pre-industrial average temperature. In 2024, levels of greenhouse gases in the atmosphere hit the highest point in the last 800,000 years. The combination of heat and unchecked emissions, the organisation points out, had serious consequences. Attribution studies found a link between climate change and disasters such as Hurricane Helene, which left a trail of destruction in the southeastern United States, and the unprecedented flooding in Africa’s arid Sahel region. Slowing these increasingly dangerous changes to Earth’s climate will require a rapid shift from fossil fuels to clean energy. The record heat of 2024 From the North Pole to the South Pole, the oceans and our land masses, the report catalogues alarm bells ringing ever louder for Earth’s vital signs. Steadily rising global average temperatures show us the influence of the extra heat we are trapping by emitting greenhouse gases. The ten warmest years on record have all happened in the past ten years. The report shows 2024 was the warmest year since comprehensive global records began 175 years ago. The planet was an estimated 1.55°C (plus or minus 0.13°C) warmer than it was between 1850 and 1900. Together, 2023 and 2024 marked a jump in global mean temperature from previous years. There was a jump of about 0.15°C between the previous record year (2016 or 2020 depending on the dataset) and 2023. Last year was even warmer – about 0.1°C above 2023. Last year was the first year the planet was likely more than 1.5°C above pre-industrial levels. This doesn’t mean we have broken the 2015 Paris Agreement goal of holding warming under 1.5°C – temperatures would need to be sustained over a number of years to formally lose that fight. But it’s not good news. There are a few extra factors at play in this record-breaking global temperature, including an El Niño event boosting eastern Pacific Ocean temperatures in the first part of 2024, falling pollution from shipping leading to less cloud over the ocean, and a more active sun as well. Researchers are hard at work unpicking why the Earth’s average temperature jumped in 2023 and 2024. But it is clear the 2024 record-breaking warmth and most other damning statistics in the report would not have occurred if it wasn’t for human-induced climate change. Much of the Northern Hemisphere was more than 2°C warmer in 2024 than 1951-1980 levels and many equatorial areas saw new annual temperature records. NASA GISS, CC BY-NC-ND Carbon dioxide up, glacial melt up, sea ice down It’s not just global temperatures breaking records. Carbon dioxide concentrations in the atmosphere reached 427 parts per million last year. Sea level rise has accelerated and is now about 11 centimetres above early 1990s levels, and the oceans are at their highest temperatures on record. Seasonal sea-ice in the Arctic and around Antarctica shrank to low levels (albeit short of record lows) in 2024, while preliminary data shows glacial melt and ocean acidification continued at a rapid pace. Almost all parts of the world were much warmer in 2024 than even recent averages (1991–2020) and much of the tropics experienced record heat. From cyclones to heatwaves, another year of extreme events In the English-speaking media, extreme events affecting North America, Europe and Australia are well covered, such as the devastating Hurricane Helene in the US and the lethal flash flooding in Spain. By contrast, extreme weather and its fallout in Africa, South America and Southeast Asia get less coverage. In September 2024, Super Typhoon Yagi killed hundreds and caused widespread damage through the Philippines, China and Vietnam. Later in the year, Cyclone Chido struck Mayotte and Mozambique causing more than 100,000 people to be displaced. Hundreds died in Afghanistan, Iran and Pakistan due to spring floods following an unusual cold wave. Unusual flooding hit parts of the arid Sahel and even the Sahara Desert. Meanwhile the worst drought in a century hit southern Africa, devastating small farmers and leading to rising hunger. Much of South and Central America was hit by significant drought. Huge tributaries to the Amazon River all but dried up for the first time on record. Severe summer heat hit much of the Northern Hemisphere, while more than 1,300 pilgrims died during the Hajj pilgrimage in Mecca as heat and humidity pushed past survivable limits. Globally, extreme weather forced more people from their homes than any other year since 2008, which had widespread floods and fires. Did climate change play a role in these extreme events? The answer ranges from a resounding yes in some cases to a likely small role in others. Scientists at World Weather Attribution found the fingerprints of climate change in Hurricane Helene’s large-scale rain and winds as well as the flooding rains in the eastern Sahel. Paying the price for decades of inaction This report is a dire score card. The numbers are sobering, scary but sadly, not surprising. We have known the basic mechanism by which greenhouse gases warm the planet for over 100 years. The science behind climate change has been around a long time. But our response is still not up to the task. Currently, our activities are producing ever more greenhouse gas emissions, trapping more heat and causing more and more problems for people and the planet. Every fraction of a degree of global warming matters. The damage done will keep worsening until we end our reliance on fossil fuels and reach net zero. Andrew King receives funding from the ARC Centre of Excellence for 21st Century Weather and the National Environmental Science Program. Linden Ashcroft has received funding from the Australian Research Council and is affiliated with the ARC Centre of Excellence for 21st Century Weather

The atmosphere now has the highest carbon dioxide levels in the last 800,000 years – and global heat records have toppled yet again. Coincidence? Of course not

Climate change is the most pressing problem humanity will face this century. Tracking how the climate is actually changing has never been more critical.

Today, the World Meteorological Organization (WMO) published its annual State of the Climate report, which found heat records kept being broken in 2024. It’s likely 2024 was the first year to be more than 1.5°C above the Earth’s pre-industrial average temperature. In 2024, levels of greenhouse gases in the atmosphere hit the highest point in the last 800,000 years.

The combination of heat and unchecked emissions, the organisation points out, had serious consequences. Attribution studies found a link between climate change and disasters such as Hurricane Helene, which left a trail of destruction in the southeastern United States, and the unprecedented flooding in Africa’s arid Sahel region.

Slowing these increasingly dangerous changes to Earth’s climate will require a rapid shift from fossil fuels to clean energy.

The record heat of 2024

From the North Pole to the South Pole, the oceans and our land masses, the report catalogues alarm bells ringing ever louder for Earth’s vital signs.

Steadily rising global average temperatures show us the influence of the extra heat we are trapping by emitting greenhouse gases. The ten warmest years on record have all happened in the past ten years.

The report shows 2024 was the warmest year since comprehensive global records began 175 years ago. The planet was an estimated 1.55°C (plus or minus 0.13°C) warmer than it was between 1850 and 1900.

Together, 2023 and 2024 marked a jump in global mean temperature from previous years. There was a jump of about 0.15°C between the previous record year (2016 or 2020 depending on the dataset) and 2023. Last year was even warmer – about 0.1°C above 2023.

Last year was the first year the planet was likely more than 1.5°C above pre-industrial levels. This doesn’t mean we have broken the 2015 Paris Agreement goal of holding warming under 1.5°C – temperatures would need to be sustained over a number of years to formally lose that fight. But it’s not good news.

There are a few extra factors at play in this record-breaking global temperature, including an El Niño event boosting eastern Pacific Ocean temperatures in the first part of 2024, falling pollution from shipping leading to less cloud over the ocean, and a more active sun as well.

Researchers are hard at work unpicking why the Earth’s average temperature jumped in 2023 and 2024. But it is clear the 2024 record-breaking warmth and most other damning statistics in the report would not have occurred if it wasn’t for human-induced climate change.

map of average annual heat 2024
Much of the Northern Hemisphere was more than 2°C warmer in 2024 than 1951-1980 levels and many equatorial areas saw new annual temperature records. NASA GISS, CC BY-NC-ND

Carbon dioxide up, glacial melt up, sea ice down

It’s not just global temperatures breaking records.

Carbon dioxide concentrations in the atmosphere reached 427 parts per million last year. Sea level rise has accelerated and is now about 11 centimetres above early 1990s levels, and the oceans are at their highest temperatures on record.

Seasonal sea-ice in the Arctic and around Antarctica shrank to low levels (albeit short of record lows) in 2024, while preliminary data shows glacial melt and ocean acidification continued at a rapid pace.

Almost all parts of the world were much warmer in 2024 than even recent averages (1991–2020) and much of the tropics experienced record heat.

From cyclones to heatwaves, another year of extreme events

In the English-speaking media, extreme events affecting North America, Europe and Australia are well covered, such as the devastating Hurricane Helene in the US and the lethal flash flooding in Spain.

By contrast, extreme weather and its fallout in Africa, South America and Southeast Asia get less coverage.

In September 2024, Super Typhoon Yagi killed hundreds and caused widespread damage through the Philippines, China and Vietnam. Later in the year, Cyclone Chido struck Mayotte and Mozambique causing more than 100,000 people to be displaced. Hundreds died in Afghanistan, Iran and Pakistan due to spring floods following an unusual cold wave.

Unusual flooding hit parts of the arid Sahel and even the Sahara Desert. Meanwhile the worst drought in a century hit southern Africa, devastating small farmers and leading to rising hunger.

Much of South and Central America was hit by significant drought. Huge tributaries to the Amazon River all but dried up for the first time on record. Severe summer heat hit much of the Northern Hemisphere, while more than 1,300 pilgrims died during the Hajj pilgrimage in Mecca as heat and humidity pushed past survivable limits.

Globally, extreme weather forced more people from their homes than any other year since 2008, which had widespread floods and fires.

Did climate change play a role in these extreme events? The answer ranges from a resounding yes in some cases to a likely small role in others.

Scientists at World Weather Attribution found the fingerprints of climate change in Hurricane Helene’s large-scale rain and winds as well as the flooding rains in the eastern Sahel.

Paying the price for decades of inaction

This report is a dire score card. The numbers are sobering, scary but sadly, not surprising.

We have known the basic mechanism by which greenhouse gases warm the planet for over 100 years. The science behind climate change has been around a long time.

But our response is still not up to the task.

Currently, our activities are producing ever more greenhouse gas emissions, trapping more heat and causing more and more problems for people and the planet. Every fraction of a degree of global warming matters. The damage done will keep worsening until we end our reliance on fossil fuels and reach net zero.

The Conversation

Andrew King receives funding from the ARC Centre of Excellence for 21st Century Weather and the National Environmental Science Program.

Linden Ashcroft has received funding from the Australian Research Council and is affiliated with the ARC Centre of Excellence for 21st Century Weather

Read the full story here.
Photos courtesy of

Ohio bills aim to sideline local critics of carbon capture projects

Ohio legislators are considering bills that would bar local governments from having a say in permitting projects that capture carbon dioxide emissions and inject them underground. The legislation could even force some landowners to let their property be used for carbon dioxide storage. The framework proposed in the…

Ohio legislators are considering bills that would bar local governments from having a say in permitting projects that capture carbon dioxide emissions and inject them underground. The legislation could even force some landowners to let their property be used for carbon dioxide storage. The framework proposed in the twin bills being considered by the state House and Senate starkly contrasts with Ohio’s approach to wind and solar farms, most of which can be blocked by counties. Instead, carbon capture and storage projects would follow a process similar to what’s used for oil and gas drilling, in which property owners must allow development on or below their land if enough neighbors support it. At least one large energy company, Tenaska, is already talking to Ohio landowners about obtaining rights to drill wells and store carbon dioxide from industrial and energy operations deep underground. An executive with the firm said the legislation would provide ​“clarity” for its planned carbon storage hub serving Ohio, West Virginia, and Pennsylvania. “This project will provide manufacturers, industrial facilities, and other businesses in this region with a solution to address growing environmental regulations and climate goals,” said Ali Kairys, senior director of project development for Tenaska. The company is in discussions with various carbon-emitting businesses, including steel refineries, ethanol plants, and power plants. The Appalachian Regional Clean Hydrogen Hub could also be a potential customer, Kairys said. In Ohio, Tenaska is eyeing Harrison, Jefferson, and Carroll counties as prime places to store CO2 underground. The three counties are among the state’s top oil and gas producers and have a history of coal mining. Tenaska initially hopes to store captured carbon dioxide in the Knox formation, which ranges from 8,500 feet to 12,000 feet below the Earth’s surface, Kairys said. Second-stage storage would use another formation roughly 5,500 to 8,000 feet underground. Other carbon sequestration projects could be on the horizon. The Great Plains Institute has identified roughly three dozen industrial facilities across the state as candidates for carbon capture projects. And even though the Trump administration is relaxing the environmental regulations that may motivate such efforts, 45Q tax credits expanded by the Inflation Reduction Act incentivize companies nationwide to develop storage projects. Ohio’s House Bill 170 and Senate Bill 136 would give the state Department of Natural Resources ​“sole and exclusive authority to regulate carbon sequestration,” a power the agency also has over oil and gas production via existing law. The Ohio Supreme Court has interpreted the oil and gas law’s language to block local government regulation of drilling, even through general zoning rules that apply to other businesses. If passed, the bills would similarly deprive counties and townships of any say over sequestration, said Bev Reed, an organizer for the Buckeye Environmental Network. ​“It’s … another really tragic thing that the Legislature is forcing on us.” The bills would also authorize a ​“consolidation” process that operators can undertake to force landowners to allow carbon dioxide storage in their property’s subsurface ​“pore space” if owners of 70% of the remaining area for an injection project have signed on. The process is similar to that for unitization, which lets oil and gas companies drill through dissenting landowners’ properties. The chief of the Ohio Department of Natural Resources’ oil and gas management division would be required to grant consolidation if it was ​“reasonably necessary to facilitate the underground storage of carbon dioxide.” A landowner could only object on the grounds that the facility’s design threatens ​“a commercially valuable mineral,” such as oil, gas, or coal. “You don’t get to object and say this is dangerous, this is ill-conceived or for any other reason,” said Heidi Gorovitz Robertson, a professor at Cleveland State University College of Law. ​“Reasonably necessary is a very low standard” for forcing property owners to give up the use of their pore space, she added. Asked to respond to advocacy groups’ complaints that the process is unfair, Tenaska’s Kairys focused instead on landowners’ potential for income.

US Exits Carbon Talks on Shipping, Urges Others to Follow - Document

By Jonathan Saul and Michelle NicholsLONDON (Reuters) -The United States has withdrawn from talks in London looking at advancing decarbonisation in...

By Jonathan Saul and Michelle NicholsLONDON (Reuters) -The United States has withdrawn from talks in London looking at advancing decarbonisation in the shipping sector and Washington will consider "reciprocal measures" to offset any fees charged to U.S. ships, a diplomatic note said.Delegates are at the UN shipping agency's headquarters this week for negotiations over decarbonisation measures aimed at enabling the global shipping industry to reach net zero by "around 2050".An initial proposal by a bloc of countries including the European Union, that was submitted to the UN's International Maritime Organization (IMO), had sought to reach agreement for the world’s first carbon levy for shipping on greenhouse gas (GHG) emissions."The U.S. rejects any and all efforts to impose economic measures against its ships based on GHG emissions or fuel choice," according to a diplomatic demarche sent to ambassadors by the United States."For these reasons the U.S. is not engaging in negotiations at the IMO 3rd Marine Environment Protection Committee from 7-11 April and urges your government to reconsider its support for the GHG emissions measures under consideration."It was not clear how many of the IMO's 176-member countries received the note."Should such a blatantly unfair measure go forward, our government will consider reciprocal measures so as to offset any fees charged to U.S. ships and compensate the American people for any other economic harm from any adopted GHG emissions measures," the note from Washington said.Washington also opposed "any proposed measure that would fund any unrelated environmental or other projects outside the shipping sector", the note added.U.S. officials in Washington did not immediately comment when contacted late on Tuesday.The IMO had not yet received any communication, an IMO spokesperson said on Wednesday.Shipping, which transports around 90% of world trade and accounts for nearly 3% of the world's carbon dioxide emissions, has faced calls from environmentalists and investors to deliver more concrete action, including a carbon levy.(Reporting by Jonathan Saul, Michelle Nichols, Gram Slattery and Kate Abnett; Editing by Sharon Singleton)Copyright 2025 Thomson Reuters.

Poor air quality increases depression risk

A new study finds poor air quality is linked to a heightened risk for depression. Depression is a classified as a mood disorder.

A new study indicates that long-term exposure to air pollutants could directly correlate to an increased risk for depression. The study published in Environmental Science and Ecotechnology and conducted by Harbin Medical University and Cranfield University examined the link to depressive symptoms in a Chinese adult population and six common air pollutants over 7 years. Sulfur dioxide (SO₂) was the primary pollutant linked to an increased risk of depression, and carbon monoxide (CO) and fine particular matter The findings point to sulfur dioxide as the most influential pollutant associated with increased depression risk. Particulate matter (PM2.5) and carbon monoxide also contributed to a heightened risk for mental health illness, according to the research. When an individual is exposed to a combination of pollutants, the possibility for depression is heightened. According to the authors of the study, "Essentially, air pollutants could affect the central nervous system through oxidative stress and inflammatory responses, potentially via systemic circulation, the trigeminal nerve, or olfactory receptor neurons." "Further investigation is necessary to elucidate the precise processes that link air pollution exposure to mental health outcomes," the study reads. Depression is a mood disorder that causes consistent feelings of sadness and loss of interest. It is also referred to as clinical depression. Symptoms of depression could be anxiety, sleeplessness, fatigue, irritability, loss of pleasure in activities, among others, according to the Mayo Clinic. If an individual should experience any symptoms of depression that should consult a medical professional.

Why build nuclear power in place of old coal, when you could have pumped hydropower instead?

Research reveals most of the sites the Coalition has earmarked for nuclear power plants would be suitable for pumped hydropower plants.

Phillip Wittke, ShutterstockAustralia’s energy policy would take a sharp turn if the Coalition wins the upcoming federal election. A Dutton government would seek to build seven nuclear power plants at the sites of old coal-fired power stations. The Coalition says its plan makes smart use of the existing transmission network and other infrastructure. But solar and wind power would need to be curtailed to make room in the grid for nuclear energy. This means polluting coal and gas power stations would remain active for longer, releasing an extra 1 billion to 2 billion tonnes of carbon dioxide. So is there another option? Yes: pumped hydro storage plants. This technology is quicker and cheaper to develop than nuclear power, and can store solar and wind rather than curtail it. It’s better suited to Australia’s electricity grid and would ultimately lead to fewer emissions. Drawing on our recent global analysis, we found the technology could be deployed near all but one of the seven sites the Coalition has earmarked for nuclear power. The Coalition is likely to spend anywhere from A$116 billion to $600 billion of taxpayers’ money to deliver up to 14 gigawatts of nuclear energy. Experts say the plan will not lower power prices and will take too long to build. Our findings suggest cheap storage of solar and wind, in the form of pumped hydro, is a better way forward. This way, we can continue to build renewable energy capacity while stabilising the grid. More than 45GW of solar and wind is already up and running, with a further 23GW being supported by the Capacity Investment Scheme until 2027. Only a handful of the pumped hydro sites we found would be needed to decarbonise the energy system, reaching the 1,046 gigawatt-hours of storage CSIRO estimates Australia needs. Building pumped hydro storage systems near old coal-fired power generators has some advantages, such as access to transmission lines – although more will be needed as electricity demand increases. But plenty of other suitable sites exist, too. Filling the gaps Pumped hydro is a cheap, mature technology that currently provides more than 90% of the world’s electrical energy storage. It involves pumping water uphill from one reservoir to another at a higher elevation for storage. Then, when power is needed, water is released to flow downhill through turbines, generating electricity on its way to the lower reservoir. Together with battery storage, pumped hydro solves the very real problem of keeping the grid stable and reliable when it is dominated by solar and wind power. By 2030, 82% of Australia’s electricity supply is expected to come from renewables, up from about 40% today. But solar panels only work during the day and don’t produce as much power when it’s cloudy. And wind turbines don’t generate power when it’s calm. That’s where storage systems come in. They can charge up when electricity is plentiful and then release electricity when it’s needed. Grid-connected batteries can fill short-term gaps (from seconds to a few hours). Pumped hydro can store electricity overnight, and longer still. These two technologies can be used together to supply electricity through winter, and other periods of calm or cloudy weather. Two types of pumped-storage hydropower, one doesn’t require dams on rivers. NREL Finding pumped hydro near the Coalitions’s proposed nuclear sites Australia has three operating pumped hydro systems: Tumut 3 in the Snowy Mountains, Wivenhoe in Queensland, and Shoalhaven in the Kangaroo Valley of New South Wales. Two more are under construction, including Snowy 2.0. Even after all the cost blowouts, Snowy 2.0 comes at a modest construction cost of A$34 per kilowatt-hour of energy storage, which is ten times cheaper than the cost CSIRO estimates for large, new batteries. We previously developed a “global atlas” to identify potential locations for pumped hydro facilities around the world. More recently, we created a publicly available tool to filter results based on construction cost, system size, distance from transmission lines or roads, and away from environmentally sensitive locations. In this new analysis, we used the tool to find pumped hydro options near the sites the Coalition has chosen for nuclear power plants. Mapping 300 potential pumped hydro sites The proposed nuclear sites are: Liddell Power Station, New South Wales Mount Piper Power Station, New South Wales Loy Yang Power Stations, Victoria Tarong Power Station, Queensland Callide Power Station, Queensland Northern Power Station, South Australia (small modular reactor only) Muja Power Station, Western Australia (small modular reactor only). We used our tool to identify which of these seven sites would instead be suitable for a pumped hydro project, using the following criteria: low construction cost (for a pumped hydro project) located within 85km of the proposed nuclear sites. We included various reservoir types in our search: new reservoirs on undeveloped land (“greenfield” sites) repurposing existing reservoirs (“bluefield” sites) repurposing existing mining pits (“brownfield” sites). Exactly 300 sites matched our search criteria. No options emerged near the proposed nuclear site in Western Australia, but suitable sites lie further north in the mining region of the Pilbara. One option east of Melbourne, depicted in the image below, has a storage capacity of 500 gigawatt-hours. Compared with Snowy 2.0, this option has a much shorter tunnel, larger energy capacity, and larger height difference between the two reservoirs (increasing the potential energy stored in the water). And unlike Snowy 2.0, it is not located in a national park. Of course, shortlisted sites would require detailed assessment to confirm the local geology is suitable for pumped hydro, and to evaluate potential environmental and social impacts. More where that came from We restricted our search to sites near the Coalition’s proposed nuclear plants. But there are hundreds of potential pumped hydro sites along Australia’s east coast. Developers can use our free tool to identify the best sites. So far, the Australian electricity transition has mainly been driven by private investment in solar and wind power. With all this renewable energy entering the grid, there’s money to be made in storage, too. Large, centralised, baseload electricity generators, such as coal and nuclear plants, are becoming a thing of the past. A smarter energy policy would balance solar and wind with technologies such as pumped hydro, to secure a reliable electricity supply. Timothy Weber receives funding from the Australian government Department of Foreign Affairs and Trade, and the Australian Centre for Advanced Photovoltaics.Andrew Blakers receives funding from the Australian government Department of Foreign Affairs and Trade and other organisations.

South Dakota Action Threatens Massive Carbon Dioxide Pipeline Proposed for Midwest

South Dakota's governor signed a bill into law Thursday that bans the taking of private property for building carbon dioxide pipelines

South Dakota's governor signed a bill into law Thursday that bans the taking of private property for building carbon dioxide pipelines, a blow to a sprawling Midwest pipeline network that ethanol producers see as key for their future.The new law muddies the waters for Summit Carbon Solutions and the planned $8.9 billion, 2,500-mile (4,023-kilometer) pipeline that already has approvals in three other states.Republican Gov. Larry Rhoden said the measure restricting eminent domain “does not kill” Summit's proposed project, and he encouraged the company to view the bill as “an opportunity to reset.”“I made my decision based on my own consideration of the facts, the policy arguments, legislative history, my own opinions and experience and my judgment about what is best for South Dakota,” Rhoden said.In a statement, Summit lamented the bill signing as changing the rules in the middle of the game. The company is seeking approval from South Dakota regulators for its proposed route in the state.“This kind of regulatory uncertainty creates real challenges — not just for our project, but for the ethanol plants in South Dakota that now face a competitive disadvantage compared to their counterparts in neighboring states," the company said. “While this presents obstacles, our project moves forward in states that support investment and innovation, and we will have more news on that soon.”The company's proposed pipeline system would transport planet-warming emissions from dozens of ethanol plants in five states for burial deep underground in North Dakota.Property rights have been a passionate issue in South Dakota, where voters last year rejected a suite of regulations that opponents said would deny local control over such projects and consolidate authority with state regulators. Supporters called it a “landowner bill of rights.”The bill states: “Notwithstanding the provisions of any other law, a person may not exercise the right of eminent domain to acquire right-of-way for, construct, or operate a pipeline for the preponderant purpose of transporting carbon oxide.”Eminent domain is the taking of private property with compensation to the owner.Summit has approvals for its routes in Iowa and North Dakota, a leg in Minnesota and underground storage in North Dakota. In 2023, South Dakota regulators rejected Summit's permit application. New proceedings are underway.It isn't clear how Summit would move forward with its project if it could not build in South Dakota.Supporters see carbon capture projects such as Summit's pipeline as a way to fight climate change and to help the ethanol industry. Opponents question carbon capture's effectiveness at large scale and say it allows the fossil fuels industry to continue with little meaningful change.Some opponents argue the amount of greenhouse gases sequestered through the process would make little difference and could lead farmers to grow more corn despite environmental concerns about the crop.Dura reported from Bismarck, North Dakota.Copyright 2025 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.Photos You Should See - Feb. 2025

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