Large variations in the growth of atmospheric methane, a prominent greenhouse gas, are
driven by a diverse range of anthropogenic and natural emissions and by loss from …

Accurate accounting of emissions and removals of CO 2 is critical for the planning and
verification of emission reduction targets in support of the Paris Agreement. Here, we …

We conduct a global inverse analysis of 2010–2018 GOSAT observations to better
understand the factors controlling atmospheric methane and its accelerating increase over …

All measurements of X CO 2 from space have systematic errors. To reduce a large fraction of
these errors, a bias correction is applied to X CO 2 retrieved from GOSAT and OCO-2 …

Atmospheric carbon monoxide (CO) concentrations have been decreasing since 2000, as
observed by both satellite-and ground-based instruments, but global bottom-up emission …

We use 2010–2015 observations of atmospheric methane columns from the GOSAT satellite
instrument in a global inverse analysis to improve estimates of methane emissions and their …

CO2 is one of the most important greenhouse gases. Its concentration and distribution in the
atmosphere have always been important in studying the carbon cycle and the greenhouse …

Inverse modeling of regional CO2 fluxes using atmospheric CO2 data is sensitive to the
observational coverage of the observing network. Here we use the GEOS‐Chem adjoint …

The global carbon cycle research requires precise and sufficient observations of the column-
averaged dry-air mole fraction of CO 2 (XCO 2) in addition to conventional surface mole …

This paper describes the global height-resolved methane (CH 4) retrieval scheme for the
Infrared Atmospheric Sounding Interferometer (IASI) on MetOp, developed at the Rutherford …