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As stakeholders – from facility operators to land managers to governments – work to reduce these methane emissions, however, knowing their source becomes key to tracking success. The U.S. Greenhouse Gas Center portal houses several complementary resources to identify sources and estimated levels of atmospheric methane.
About a third of methane emissions are from wetlands, generated naturally as a byproduct of microbes in oxygen-depleted soils. That microscopic level is where researcher Ben Poulter, of NASA’s Goddard Space Flight Center in Greenbelt, Maryland, started building the <Linkto='/data-catalog/lpjeosim-wetlandch4-grid-v1'>NASA Wetlands Methane Emissions Model</Link>, which incorporates satellite observations, measurements from field campaigns such as [BlueFlux](https://science.nasa.gov/science-research/earth-science/nasas-blueflux-campaign-supports-blue-carbon-management-in-south-florida/), and information about weather patterns.
About a third of methane emissions are from wetlands, generated naturally as a byproduct of microbes in oxygen-depleted soils. That microscopic level is where researcher Ben Poulter, of NASA’s Goddard Space Flight Center in Greenbelt, Maryland, started building the <Linkto='/data-catalog/lpjeosim-wetlandch4-grid-v1'>NASA Wetlands Methane Emissions Model,</Link> which incorporates satellite observations, measurements from field campaigns such as [BlueFlux](https://science.nasa.gov/science-research/earth-science/nasas-blueflux-campaign-supports-blue-carbon-management-in-south-florida/), and information about weather patterns.
“We rely on understanding the mechanics of how microbes produce methane, and how that’s related to temperature, moisture, soil type, etc.,” Poulter said. “The goal is to help us understand how much methane is coming from global wetlands, and then use that information to look at whether changes in temperature are influencing that trend.”
