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Atmospheric remote sensing for anthropogenic methane emissions: Applications and research opportunities
Methane is the second most significant greenhouse gas (GHG) only after carbon dioxide.
Human activities substantially increase the atmospheric methane concentration globally, but …
Human activities substantially increase the atmospheric methane concentration globally, but …
Quantifying methane emissions from the global scale down to point sources using satellite observations of atmospheric methane
We review the capability of current and scheduled satellite observations of atmospheric
methane in the shortwave infrared (SWIR) to quantify methane emissions from the global …
methane in the shortwave infrared (SWIR) to quantify methane emissions from the global …
Accurate monitoring of atmospheric methane concentration (XCH 4) is relevant to improving
carbon accounting and climate change attribution. Nevertheless, the commonly used full …
carbon accounting and climate change attribution. Nevertheless, the commonly used full …
Urban methane emission monitoring across North America using TROPOMI data: an analytical inversion approach
Monitoring methane emissions is crucial in mitigating climate change as it has a relatively
short atmospheric lifetime of about 12 years and a significant radiative forcing impact. To …
short atmospheric lifetime of about 12 years and a significant radiative forcing impact. To …