Your search keyword '"Petri, Christof"' showing total 2 results

1. Nitrous Oxide Profiling from Infrared Radiances (NOPIR): Algorithm description, application to 10 years of IASI observations and quality assessment

Author

Vandenbussche, Sophie, Langerock, Bavo, Vigouroux, Corinne, Buschmann, Matthias, Deutscher, Nicholas M., Feist, Dietrich G., García, Omaira E., Hannigan, James W., Hase, Frank, Kivi, Rigel, Kumps, Nicolas, Makarova, Maria V., Millet, Dylan B., Morino, Isamu, Nagahama, Tomoo, Notholt, Justus, Ohyama, Hirofumi, Ortega, Ivan, Petri, Christof, Rettinger, Markus, Schneider, Matthias, Servais, Christian P., Sha, Mahesh K., Shiomi, Kei, Smale, Dan, Strong, Kimberly, Sussmann, Ralf, Té, Yao, Velazco, Voltaire A., Vrekoussis, Mihalis, Warneke, Thorsten, Wells, Kelley C., Wunch, Debra, Zhou, Minqiang, and De Mazière, Martine

Subjects

Nitrous oxide, IASI, Retrieval, TCCON, Greenhouse gas, nitrous oxide, greenhouse gas, retrieval, validation, Earth sciences, Satellite, Validation, ddc:550, remote sensing N2O, General Earth and Planetary Sciences, NDACC, long-term record

Abstract

Nitrous oxide (N$_{2}$O) is the third most abundant anthropogenous greenhouse gas (after carbon dioxide and methane), with a long atmospheric lifetime and a continuously increasing concentration due to human activities, making it an important gas to monitor. In this work, we present a new method to retrieve N$_{2}$O concentration profiles (with up to two degrees of freedom) from each cloud-free satellite observation by the Infrared Atmospheric Sounding Interferometer (IASI), using spectral micro-windows in the N$_{2}$O ν$_{3}$ band, the Radiative Transfer for TOVS (RTTOV) tools and the Tikhonov regularization scheme. A time series of ten years (2011–2020) of IASI N$_{2}$O profiles and integrated partial columns has been produced and validated with collocated ground-based Network for the Detection of Atmospheric Composition Change (NDACC) and Total Carbon Column Observing Network (TCCON) data. The importance of consistency in the ancillary data used for the retrieval for generating consistent time series has been demonstrated. The Nitrous Oxide Profiling from Infrared Radiances (NOPIR) N$_{2}$O partial columns are of very good quality, with a positive bias of 1.8 to 4% with respect to the ground-based data, which is less than the sum of uncertainties of the compared values. At high latitudes, the comparisons are a bit worse, due to either a known bias in the ground-based data, or to a higher uncertainty in both ground-based and satellite retrievals.

Published

2022

2. Comparisons of the Orbiting Carbon Observatory-2 (OCO-2) XCO2 measurements with TCCON

Author

Wunch, Debra, Wennberg, Paul O., Osterman, Gregory, Fisher, Brendan, Naylor, Bret, Roehl, Coleen M., O'Dell, Christopher, Mandrake, Lukas, Viatte, Camille, Kiel, Matthaeus, Griffith, David W. T., Deutscher, Nicholas Michael, Velazco, Voltaire A., Notholt, Justus, Warneke, Thorsten, Petri, Christof, De Mazière, Martine, Sha, Mahesh Kumar, Sussmann, Ralf, Rettinger, Markus, Pollard, David F., Robinson, John, Morino, Isamu, Uchino, Osamu, Hase, Frank, Blumenstock, Thomas, Feist, Dietrich G., Arnold, Sabrina G., Strong, Kimberly, Mendonca, Joseph, Kivi, Rigel, Heikkinen, Pauli, Iraci, Laura, Podolske, James, Hillyard, Patrick W., Kawakami, Shuji, Dubey, Manvendra K., Parker, Harrison A., Sepúlveda Hernández, Eliezer, García Rodríguez, Omaira Elena, Te, Yao, Jeseck, Pascal, Gunson, Michael R., Crisp, David, and Eldering, Annmarie

Subjects

Aerosol scattering, Total Carbon Column Observing Network, Orbiting Carbon Observatory-2

Abstract

NASA’s Orbiting Carbon Observatory-2 (OCO-2) has been measuring carbon dioxide column-averaged dryair mole fraction, XCO2 , in the Earth’s atmosphere for over 2 years. In this paper, we describe the comparisons between the first major release of the OCO-2 retrieval algorithm (B7r) and XCO2 from OCO-2’s primary ground-based validation network: the Total Carbon Column Observing Network (TCCON). The OCO-2 XCO2 retrievals, after filtering and bias correction, agree well when aggregated around and coincident with TCCON data in nadir, glint, and target observation modes, with absolute median differences less than 0.4 ppm and RMS differences less than 1.5 ppm. After bias correction, residual biases remain. These biases appear to depend on latitude, surface properties, and scattering by aerosols. It is thus crucial to continue measurement comparisons with TCCON to monitor and evaluate the OCO-2 XCO2 data quality throughout its mission.

Published

2017