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A technician works on a pipeline
Methane is the world’s second most abundant greenhouse gas, and it’s many times more potent than carbon dioxide. Vanderlei Almeida/AFP via Getty Images

Biden announces a sweeping methane plan – here’s why cutting the greenhouse gas is crucial for protecting climate and health

President Joe Biden announced a sweeping new U.S. plan for reducing emissions of methane, a potent greenhouse gas, at the UN climate summit on Nov. 2, 2021. He also urged countries to join a global pledge to cut methane emissions 30% this decade.

The moves are a big deal for efforts to slow climate change – and also for health. While methane isn’t as abundant as carbon dioxide, it’s a far more potent greenhouse gas at warming the planet and also a source of unhealthy air pollution. The U.S. plan includes rules being proposed by the Environmental Protection Agency to limit methane emissions from new and existing oil and gas sources, and proposes rules for monitoring methane leaks and expanding pipeline safety standards. Other initiatives target methane from agriculture and landfills.

Drew Shindell, a climate scientist and physicist who led a recent U.N. report on methane, explains the urgency and how the benefits of reducing methane emissions far outweigh the costs.

Why is methane a concern, and is this goal enough?

Methane emissions have been going up very quickly, and research shows they need to drop by nearly half by 2030 to meet the Paris climate agreement goal of keeping global warming under 1.5 degrees Celsius (2.7 F) on the lowest-cost path. That means the world has a rapid U-turn to make.

The new global pledge, if taken up widely and implemented, would dramatically change the world’s methane trajectory. It’s an ambitious minimum target, and ideally the 30% will have to be substantially exceeded to increase the chances of methane following a 1.5 C path.

The good news is that the world has a lot to gain by cutting these emissions.

Methane is a potent greenhouse gas, but it’s also a precursor of surface ozone, which is a toxic air pollutant. So, reducing methane improves the quality of the air we breathe at the same time that it reduces climate change, and the results are almost immediate.

A NASA computer animation shows large sources of increasing methane emissions.

Methane is also valuable. If you capture methane from a landfill, you have a source of income right there. Capture it from leaking natural gas pipelines, and it pays for itself, because that’s the whole point of these pipelines – they transport methane as natural gas.

With the technology already available today, the world could cut methane emissions from fossil fuels, agriculture and rotting waste by 45% within a decade. That would avoid 0.3 degrees Celsius (0.5 F) of warming, which might not sound like much, but it’s one-fifth of the Paris climate agreement budget of 1.5 C.

So, you get climate benefits, you get public health benefits and it’s also a financial win for the companies capturing the methane.

It’s not like this is rocket science. A large part of the methane being released is from natural gas pipelines and storage, oil and gas pumping and landfills – and those are all problems companies know how to fix. Furthermore, recent satellite and aircraft data suggest that many sources have larger emissions than once thought, especially in the energy sector. This suggests that actively working on methane reductions may bring more benefits than initial estimates and could put countries well over the 30% goal of the pledge.

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How does cutting methane improve health?

Methane causes ground-level ozone, which contributes to a lot of respiratory problems, including asthma in children, respiratory infections and chronic obstructive pulmonary disorders. There’s pretty robust evidence that it can also exacerbate cardiovascular disease.

Both methane and ozone are also greenhouse gases that cause global warming, which creates more health risks, particularly through heat exposure.

We looked at medical research and modeling, and used that to figure out what’s at stake. We found that for every million tons of methane emitted, about 1,430 people die prematurely, there are about 4,000 asthma-related emergencies and 300 million work hours are lost to the health effects. To put that into context, around 370 million tons of methane are released annually due to human activities.

If you reduce methane emissions in 2022, you’ll see the ozone response in 2022, whereas you have to wait to see the climate effects until the climate system adjusts over at least a decade.

What’s causing methane emissions to rise so quickly?

Global emissions are going up. That’s easy to measure by chemical sampling of the air, and satellites can monitor large methane sources. But which sources are most responsible is a tougher question.

Global methane emissions were fairly level about 15 to 20 years ago, and then they started creeping up. Now, especially over the past five years or so, they’ve been rising at a fast rate.

Some studies point to the rise of hydraulic fracturing, which quickly expanded gas production and roughly parallels the recent methane increase. Others say livestock and the increasing global demand for meat played a big role. Some point to natural sources – particularly wetlands in the tropics responding to climate change.

The most likely scenario is that it’s a combination of all three.

The bottom line is that the overall methane emissions have to be lowered to slow climate change. If the increase is coming from fossil fuel or waste or livestock, then countries need to go after the human sources. If it’s coming from natural systems that are responding to climate change, they still have to go after those human sources of methane. Cutting methane emissions is the strongest leverage to slow those feedbacks down.

If cutting methane pays for itself, and the technology exists, why isn’t more being done?

The oil and gas industry itself is divided on methane. Many of the big companies supported the U.S. methane emissions rules that were set by the Obama administration – and later rolled back by the Trump administration – because they know capturing methane pays for itself. It’s not an onerous economic burden on them, and supporting it can improve the image of the industry.

For small operators, however, the upfront costs of equipment and the need to hire labor to inspect the pipelines may be harder.

For example, if a company is going to repair a pipeline, it can close off a section, bring in a compressor, and pump all of the excess gas farther down the line before starting to work on it. Doing that requires getting a compressor and having the trucks to move it and the staff to maintain it. A lot of studies have found that these investments pay for themselves in a few years because of the value of the methane saved. But many small operators find it simpler to just vent the gas into the atmosphere when they want to work on the pipe.

A similar problem exists with landfills and waste. As organic matter like food waste decomposes, it releases methane. Many landfills in developed countries already capture some of that methane gas. But many developing countries don’t have managed landfills or even trash pickup, making it impossible to capture the biogas.

Our report lists a few recommendations, in addition to technical solutions, that can be used for landfills everywhere, including better waste sorting so organic material is kept out of landfills and used for compost instead, and reducing food waste overall. That can also reduce hunger if unused foods are gathered and distributed.

Agriculture also has some straightforward solutions. Eating a healthy diet that, for many people, means cutting out excess red meat would go a long way in reducing the amount of livestock being produced for slaughter. These kinds of health and food security programs could boost the total methane reductions well beyond the 30% goal. Encouraging changes in food consumption can be politically dicey, but this is a huge emissions source. We’re not going to keep warming under 1.5 C without dealing with it.


Read more: 4 strategies for a global breakthrough on energy and climate change


This is an updated version of an article originally published on May 6, 2021.

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