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Satellite supergroup spots methane super-emitters with "staggering"
accuracy

Sustainability - The combination of satellites allows the
identification of major sources of greenhouse gas and is a crucial
development for climate change mitigation efforts.

News

5 August 2023
sentinel 5p (c) SRON
Author profile picture

By Team IO

Thanks to a new combination of connected satellites, the world's
methane super-emitters can be spotted with "staggering" accuracy and
almost real-time. This is a crucial new step in the global fight
against climate change. Methane is responsible for a quarter of
human-induced global warming and provides a short-term lever on
climate change because it remains in the atmosphere for a much
shorter time than CO2.

  * Using a combination of satellites, researchers can now detect
    methane super-emitters globally with great accuracy and almost in
    real time.
  * This allows the identification of major sources of this potent
    greenhouse gas and is a crucial development for climate change
    mitigation efforts.
  * The tiered approach moves from low-resolution global scans by
    Sentinel-5P to pinpointed spotting of emitters by Sentinel-3 and
    Sentinel-2 with increasing spatial resolution

ESA's Copernicus program provides satellite data that enable
scientists around the world to monitor climate change and support
mitigation efforts. One of the significant challenges is the
mitigation of methane, the second most important greenhouse gas
contributing to climate change. Combining observations from three
Copernicus satellites - Sentinel-5P, Sentinel-3, and Sentinel-2 -now
enables researchers to detect and zoom in on methane hot spots in a
tiered approach and identify the responsible super-emitters.

Decision making

Because methane is so important as a cause of human-induced global
warming, knowing where the largest methane emissions occur is key to
evidence-based decision-making and successful mitigation. Therefore,
expectations and hopes were high when the Sentinel 5 Precursor
satellite was launched in 2017. The only instrument onboard
Sentinel-5P, the Dutch TROPOspheric Monitoring Instrument (Tropomi),
was going to scan the entire globe for a range of trace gases,
including methane, every day and at city scale (7 x 5.5 km2)
resolution. "The results have been staggering", a report on SRON's
website says. The Dutch space research institute SRON (co-principal
investigator of Tropomi) has, for instance, used TROPOMI's global
coverage to find methane emission hot spots worldwide. These Tropomi
hot spots have subsequently been targeted with high-resolution (25
meters) observations from the Canadian GHGSat satellites, which can
pinpoint the exact sources. In this way, the researchers found many
methane super-emitters, varying from fossil fuel facilities to
individual landfills.

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[Schermafbeelding-202]
From a business park in Noordwijk to an international hotspot for
space: NL Space Campus
Many Dutch people will be familiar with Space Expo, which attracts
over 100,000 visitors in normal years. But less visible is what else
happens at the Space Campus.

Powerful

However, GHGSat observations cannot cover the entire world and only
part of the observations are publicly available. The gaps have
recently partly been filled with land-imaging satellites such as
Sentinel-2, which can detect the largest methane leaks under
favorable observing conditions such as over deserts. Sentinel-2's
high-resolution observations (20 m) provide global coverage every 5
days and were designed to provide operational data products for
environmental risk management, land cover classification, and land
change detection. Sentinel-2 is especially powerful in detecting
methane leaks in a tiered approach, where Tropomi Sentinel 5P is used
to tip-and-cue high spatial resolution satellites.

Missing link

The tiered approach has become even more compelling using Sentinel-3,
as researchers at SRON Netherlands Institute For Space Research and
JPL show in this week's published paper. Zooming in on an area as
large as 7 x 5,5 km2 to pinpoint a fossil fuel facility at
Sentinel-2's resolution can be challenging. Moreover, as Sentinel-2
observes locations only every five days, chances are that short-term
methane emissions like gas blowouts escape identification. That is
where Sentinel-3 comes in. With daily global coverage and the ability
to pinpoint the largest methane point sources to within 500x500 m2
(under favorable observing conditions), Sentinel-3 is the missing
link between Tropomi and Sentinel-2. Sentinel-3's daily global
coverage is also particularly important for large leaks that only
last a few hours and could easily go unnoticed between Sentinel-2
overpasses.

 
[1108_GMH_SRON_GHGSat]
First map of global methane-emitting landfills to be presented at
GOP27
Global Methane Hub, SRON, and GHGSat are mapping the world's largest
methane-emitting landfills. The map contains over a hundred of them.

Tiered approach

"The secret is the tiered approach," SRON-researcher Sudhanshu Pandey
(now at JPL) says. "We now have a supergroup of three Copernicus
satellites to spot super-emitters of methane very quickly and
precisely identify the responsible facilities. Especially
super-emitters in desert areas or extremely large emissions can be
seen very well with these instruments, zooming in with increasingly
high resolution. A fine example of very large but transient emissions
that we could examine using the complementary observations happened
along a Russian gas pipeline. In our paper, we show that Sentinel-3,
combined with Sentinel 5P and Sentinel -2, is a great asset for
methane mitigation."

Example: Russian plume

The tiered use of the three satellites started with a Sentinel-5P
observation on 18th June 2021, which showed an apparent methane plume
in Russia. Zooming in with Sentinel-3 shows that there are two
methane plumes coming from the locations indicated with the white
crosses. Further zooming in with Sentinel-2 shows the leaks originate
from two facilities along the gas transmission pipeline.

[Picture_3_satellites]Russian plume (c) SRON
    

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