10/09/2021

(Inverse) How To Save A Planet: To Avoid Catastrophe, This Shocking Amount Of Fossil Fuels Must Stay In The Ground

Inverse - Tara Yarlagadda

Fossil fuel companies have used smoke and mirrors for decades to assure us that air pollution isn’t so bad.

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A new study doesn’t examine that idea. Rather, it asks: We know that extraction and production processes are not as clean as they could be. So, essentially, what is the impact of those?

In the United States, burning fossil fuels account for 74 percent of the nation’s greenhouse gas emissions, which isn’t new information exactly. However, scientists suggest that focusing on just the air pollution doesn’t show the full extent of the damage done.

“There needs to be a serious discussion around the regional distribution of fossil fuel production decline, allowing for a managed and equitable solution,” Dan Welsby, lead author on the study from University College London, tells Inverse.

What’s new

A study published Wednesday in the journal Nature asserts that humans also need to significantly limit the percentage of fossil fuels that are pulled from the ground.

The research team wanted to know how much fossil fuel we would need to leave undisturbed to avoid allowing the global average air temperature to rise 1.5° Celsius above what it was between 1850-1900, a 50-year period known for “pre-industrial temperature.”

The scientists came up with two takeaways after analyzing the data from a simulation model. The percentage of fossil fuels — coal, oil and gas, and methane — that humans need to leave unextracted in the Earth is:
  • Sixty percent of the world’s oil and methane gas will need to remain unextracted
  • A shocking 90 percent of the world's coal will need to remain unextracted

The 1.5°C and 2°C meaning: Why it matters


Even though a 2°C increase doesn’t seem like a lot, on a global scale, this is the stuff of apocalyptic scenarios: Extreme heat, permanent flooding, vegetation die-off, severe air contamination, mass extinctions, the erosion of entire ecosystems, all of it.

In many locations around the world, it’s essentially the beginning of a movie like Mad Max.

Definitely crack open “Differential climate impacts for policy-relevant limits to global warming: the case of 1.5 ◦C and 2 ◦C” (2016) in the journal Earth System Dynamics for precise statistical forecasts on grim matters such as lower agricultural yields and the rapid death of coral reefs. It is a blast.

You can consider this summer’s climate-change-driven extreme weather events a teaser trailer of sorts. Catastrophes have been increasing since the 1970s, an uptick documented recently by United Nations: “Disasters surge five-fold over 50 years” is the headline.

Now that we know why those tiny global air temperature increases are such a big deal, here’s how they play into this latest study asserting we need to leave more fossil fuels in the ground:

In January 2015, climate scientists Paul Ekins, a co-author of this new study, and Cristophe McGlade published a report on the percentage of fossil fuels humans would need to leave in the ground.

Later that year, when world leaders and climate policymakers signed the Paris Climate Agreement, they realized that a more stringent benchmark below 2°C would be necessary to avoid more extreme risks and human suffering due to the climate crisis. Specifically, they agreed upon 1.5°C as the revised target. (That’s 2.7°F.)

In a 2018 report, the UN’s Intergovernmental Panel on Climate Change (IPCC) predicted: “Climate-related risks for natural and human systems are higher for global warming of 1.5°C than at present but lower than at 2°C.” So, obvious. 1.5°C is still bad, but maybe we could avoid hitting it.

In a 2021 report, unofficially known as the IPCC’s ”reality check” report, we learned that 1.5°C might already be out of our reach because greenhouse emissions in the atmosphere are already too powerful.

The researchers define “unextractable fossil fuels” as the volumes that need to stay in the ground, regardless of end-use, in order to avoid the “1.5 °C scenario” of global warming. For example, you can see that the yellow of the United States on the coal section means that all the coal in the U.S. needs to stay in the ground to avoid a climate tipping point. Dan Welsby , James Price , Steve Pye & Paul Ekins

How the scientists came to their findings

These researchers determined we need to leave 60 percent of oil and methane and 90 percent of coal untouched with a simulation model.

This model captured the global energy system from production to transport to distribution to predict the specific percentages of fossil fuels we would need to leave unextracted by 2050 and 2100.

These findings far surpass the percentages reported in the previous 2015 study, suggesting we will need to leave a considerable majority of the world’s fossil fuel in the ground if we want to keep Earth habitable for humans in the decades and centuries to come.

The study authors further find that oil and gas production will need to decline by 3 percent annually until 2050 to meet our climate target of 1.5 degrees Celsius.

“Setting targets on limiting fossil fuel production is absolutely critical if we have any chance of remaining within carbon budgets which limit global temperature rise to 1.5 degrees,” Welsby says.

The researchers also looked at different energy-producing regions of the world. Although some countries like the U.S. contribute an oversized share of the world’s greenhouse gases, the nation will only need to leave 31 percent of its oil unextracted under the scientists’ estimates (though it will need to leave 97 percent of coal in the ground by 2050).

Instead, three of the most significant regions and nations that will need to reduce their oil extraction by 2050 are:
  1. Canada will have to leave 81 percent of its methane gas, 83 percent of its coal, and 83 percent of its infamous oil sands in the ground by 2050.
  2. Central and South America — This region will need to leave 73 percent of its oil, 67 percent methane gas, and 84 percent of its coal in the ground by 2050.
  3. China and India — These nations will need to leave 76 percent of their coal in the ground by 2050. China and India are the top two coal-producing countries globally.
But richer developed nations like the U.S. can play a big role in helping other countries successfully transition to a future without fossil fuel emissions.

“There is potentially a significant leadership role here for developed countries/financial institutions in terms of helping the financing of capital for large-scale renewable power generation and other low carbon ventures in developing countries,” Welsby says.

Ultimately, to meet our climate goals, most nations will need to reach “peak [fossil fuel] production now or during the next decade,” the researchers write. However, they also suggest their predictions are likely an “underestimate,” and fossil fuel production may need to be halted even more quickly.

Why extraction matters

Fossil fuels support entire countries’ economies and the livelihoods of millions of people, not to mention the lifestyles of billions more.

But their extraction and production also release significant carbon dioxide emissions into the atmosphere, increasing global warming and making life a living hell for millions of more people.

This study also shows how essential it is for humans to leave fossil fuels in the ground over the next three decades. Still, it also poses a conundrum: How can we stop extracting fossil fuels to save our planet while preventing economic devastation in the near future? Huge investment in climate change-proof infrastructure and more jobs building green energy infrastructure — like ones included in the current federal infrastructure bill — create a path toward the answer.

“There is undoubtedly huge fossil fuel inertia within our global energy system, however, there are signs this may be changing,” Welsby says.

What’s next

The researchers have five specific suggestions to help policymakers and fossil fuel companies make the transition toward renewable energy.
  1. Remove production subsidies for fossil fuels
  2. Placing taxes on the production of fossil fuels
  3. Implementing penalties for companies that fail to comply with fossil fuel regulations, especially on methane leaks
  4. Banning new fossil fuel exploration
  5. Developing international initiatives such as a treaty on the non-proliferation of fossil fuels
Welsby calls these kinds of measures “low hanging fruit' for emissions reductions in the near term,” but also stresses “the production decline pathways we suggest can also only be achieved with a price on carbon.” In short: the solutions won’t come without a cost — literally.

It’s not all bad news

Their findings are grim, but not as much as you might think. The study’s authors note that global coal production already peaked in 2013, and oil output may even have peaked in 2019 or 2020. Other recent reports suggest that the costs of renewable energy are becoming comparable to fossil fuels, making electric vehicles more affordable.

So, if world leaders and fossil fuel companies step up the plate and assume the daunting task of rapidly transitioning away from fossil fuels, we might have a fighting shot at saving planet Earth — and ourselves.

“We need to think of this as a global problem, with a global solution,” Welsby says.

Unextractable fossil fuels in a 1.5°C world
Parties to the 2015 (United Nations Climate Change Conference) Paris Agreement pledged to limit global warming to well below 2°C and to pursue efforts to limit the temperature increase to 1.5°C relative to pre-industrial times. However, fossil fuels continue to dominate the global energy system and a sharp decline in their use must be realized to keep the temperature increase below 1.5°C. Here we use a global energy systems model to assess the amount of fossil fuels that would need to be left in the ground, regionally and globally, to allow for a 50 percent probability of limiting warming to 1.5°C. By 2050, we find that nearly 60 percent of oil and fossil methane gas, and 90 percent of coal must remain unextracted to keep within a 1.5°C carbon budget. This is a large increase in the unextractable estimates for a 2°C carbon budget, particularly for oil, for which an additional 25 percent of reserves must remain unextracted. Furthermore, we estimate that oil and gas production must decline globally by 3 percent each year until 2050. This implies that most regions must reach peak production now or during the next decade, rendering many operational and planned fossil fuel projects unviable. We probably present an underestimate of the production changes required, because a greater than 50 percent probability of limiting warming to 1.5°C requires more carbon to stay in the ground and because of uncertainties around the timely deployment of negative emission technologies at scale.

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(AU ABC) Most Fossil Fuels 'Must Stay Unburned' For One-In-Two Chance Of Meeting 1.5c Warming Limit

 ABC Science - Belinda Smith

To limit global warming, almost 90 per cent of the world's coal reserves must not be extracted, according to a new study. (Getty Images: Andrey Rudakov/Bloomberg)

Key Points
  • The Paris Climate Agreement's goal is to limit global warming to well below 2, preferably to 1.5 degrees Celsius, compared to pre-industrial levels
  • About 60 per cent of oil and gas and 90 per cent of coal reserves must be "unextractable" for a 50 per cent chance of meeting that target, researchers say
  • This decline in fossil fuels required globally by 2050 implies many regions face peak production now or during the next decade
Australia must leave almost all its coal in the ground, as well as a good chunk of its oil and gas, if the world is to have an even chance of keeping global warming to 1.5C.

That's according to calculations published in Nature today, which found the lion's share of fossil fuel reserves worldwide must remain untapped if we're to stay at the lower end of the target set in the 2015 Paris Agreement on climate change.

Coal requires the biggest drop in production overall — around 90 per cent worldwide by 2050, compared to 60 per cent for oil and gas, according to Dan Welsby, a researcher at University College London's Institute of Sustainable Resources and co-author of the study.
"For coal, all regions need to have already reached peak production."
And Australia is no exception, Mr Welsby added.

"For some … countries in the Pacific region, for example Australia, they have unextractable coal reserves of 95 per cent."

"Unextractable" reserves are those that must be left in the ground to limit warming.

The study comes days after federal Resources and Water Minister Keith Pitt said Australia has no plans to stop mining and exporting coal "well beyond 2030".

"Coal consumption throughout Asia is forecast by the International Energy Agency to grow over the next decade to meet the energy demands of countries like China, India and South Korea," Mr Pitt said in a statement on Monday.

"Australia has an important role to play in meeting that demand."

Shifting goalposts

About 80 per cent of the world's energy needs are supplied by burning fossil fuels, with coal releasing more carbon dioxide per unit of energy than oil or gas.

Keeping fossil fuels in the ground has been a mantra in climate change circles for years.

For instance, then-United Nations climate chief Christiana Figueres said in a 2013 speech that most of the world's coal reserves should not be extracted.

NSW produces around 250 million tonnes of raw coal every year. (Getty Images: Airphoto Australia)

It wasn't until 2015 that UCL Institute of Sustainable Resources researchers first quantified the proportion of "unextractable" fossil fuels if the world hoped to stay under 2 degrees of warming.

They found 82 per cent of coal, 49 per cent of gas and 33 per cent of oil reserves would need to remain in the ground.

Beautiful one day, uninsurable the next?

Carbon emissions have since steadily increased (with a fleeting pandemic-related dip) and focus has shifted from 2 degrees of warming to 1.5,  said Will Steffen, a climate researcher with the Australian National University and author of the Climate Council report Unburnable carbon: Why we need to leave fossil fuels in the ground.

The goalposts have shifted, and the newest calculations from UCL, he said, depict a more urgent situation.

"In 2015, they were looking at a 2-degree target. Now, of course, there's a lot more consensus that 2 degrees is really dangerous," Professor Steffen said.

"What it's showing is that inaction is really deadly now."

What must be left in the ground, by 2050, in Australia ...
  • Coal: 95 per cent of reserves or 80 billion tonnes
  • Oil: 40 per cent or 1.7 billion barrels
  • Gas: 35 per cent or 0.8 trillion cubic metres
... and the world
  • Coal: 89 per cent of reserves or 826 billion tonnes
  • Oil: 58 per cent or 744 billion barrels
  • Gas: 59 per cent or 92 trillion cubic metres

Source: Welsby et al., Nature



For Australia, which relies heavily on mining and exporting coal, the new study's recommendations are particularly daunting, Professor Steffen said.

"By 2050, we basically have to leave 95 per cent of it in the ground."

The figure applies to coal reserves — that is, coal in mines that are already operational or being developed, such as Waratah Coal's proposal in Queensland's Galilee Basin.

Reserves are a fraction of the nation's actual coal resources, which is all the coal we know exists from geological surveys.

"The critical calculation we need to do is to find out just how many reserves we have on the books. How many of those are already operating?" Professor Steffen said.

"And if that [adds up to] more than 5 per cent of reserves, then that means absolutely we cannot open up any new ones, including in the Galilee Basin."

'Glimmers of hope'

The researchers acknowledge that their calculations paint a "bleak picture", with no guarantee that the world will stay under 1.5 degrees of warming, even if fossil fuel production is drastically cut.

"We use a carbon budget in our modelling that's compatible with only a 50 per cent probability of meeting the 1.5C target, which is one of the headline goals of the Paris agreement," Mr Welsby said.

"And if we want a higher chance of staying below 1.5C, then we have to, of course, keep more carbon in the ground, more fossil fuels in the ground, and therefore there has to be higher rates of decline of production from today."

'Electrify everything'
Australia could rapidly get most of the way to net zero emissions by using existing technology to electrify "low-hanging fruit", according to some experts. Read more

Australia could rapidly get most of the way to net zero emissions by using existing technology to electrify "low-hanging fruit", according to some experts.

Their estimates of "unextractable" fossil fuels are likely to be at the lower end, as they don't take into account future feedback systems that could release additional carbon into the atmosphere, accelerating warming even further.

For instance, if northern hemisphere permafrost melts, it can release huge quantities of stored methane and other greenhouse gases, which melts more permafrost.

Carbon removal technologies such as carbon capture and storage (CCS) had little effect on the researchers' calculations.

"The speed of the transition [away from fossil fuels] has to be so rapid … that when you adjust for the role of CCS, it does change things a bit, but not dramatically," Mr Welsby said.

Indeed, CCS has been implemented to an extent in Australia, such as the Gorgon gas facility in Western Australia, but fell well short of its target.

But there are, Mr Welsby added, "glimmers of hope" as the cost of renewables, such as solar and wind power, continues to drop.

"By no means are we suggesting these are easy reductions, no matter the region in question.

"So, it really is a case of having the political will to resist the temptation of extracting every last bit of fossil fuels … and focusing on really pushing hard on the low-carbon economy.
"It is definitely feasible, but it really comes down to the politics of the situation."
Professor Steffen sees vast opportunities for Australia to export renewable electricity via undersea cables from northern Australia, or hydrogen generated using solar or wind power.

World's largest solar farm could help power Singapore from NT desert. YouTube 

"We have enormous renewable opportunities, solar and wind, more than any other OECD country. And we have a potentially huge market on our doorstep, up in South-East and East Asia in particular," he said.

"And technologically, we can produce massive amounts of electricity using renewables at very low cost, because solar is much, much cheaper than a coal-fired power station, for example.

"The handwriting's on the wall economically. This is where we're going globally."

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(UK The Times) Climate Change Promises Dropped From UK-Australia Trade Deal

The TimesOliver Wright

Scott Morrison, the Australian prime minister, will not commit to targeting net-zero emissions by 2050. DOMINIC LIPINSKI/REUTERS



Ministers have bowed to pressure from Australia to drop binding climate change commitments from a UK-Australian trade deal, a leaked government memo suggests.

In a concession condemned by environmental groups the Department for International Trade is understood to have agreed to Australian demands not to include commitments to limit global warming to two degrees under the Paris climate change agreement.

Trade lawyers warned last night that the omission would leave the UK with “no remedies” if future Australian governments failed to act to reduce carbon emissions in line with those of the UK.

Last month Scott Morrison, the Australian prime minister, refused to commit to targeting net-zero emissions by 2050, a key aim of the Cop26 climate change conference in Glasgow in November. Britain is leading attempts to corral large industrialised countries into further commitments.

Yesterday Alok Sharma, the UK’s climate envoy, returned from China as government sources expressed optimism that Beijing would unveil substantive commitments on emissions.

An internal Whitehall memo, passed to Sky News, suggests that other ministers are keen to avoid trade deals being scuppered by climate commitments.

It suggests that the business secretary Kwasi Kwarteng, trade secretary Liz Truss and Brexit minister Lord Frost agreed to drop UK demands that multilateral environmental agreements should take precedence over the Australian trade agreement.

The note, written by a senior official in the Cabinet office, also makes clear that the deal would also not “reference to Paris Agreement temperature goals”. This was a key part of the UK’s trade deal with the EU.

A government source did not dispute the substance of the decision but claimed that the references to temperature were “implicit” within the agreement. “The final text of the agreement will contain a commitment to address all the Paris climate goals — so therefore implicitly includes temperature,” they said.

Markus Gehring, an international trade law specialist at Cambridge University, said that he was “very concerned” that the UK risked being undercut if its trading partners did not share its climate objectives.

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