Publikationstyp
Wissenschaftlicher Artikel
Erscheinungsjahr
2014
Tropospheric CH4 signals as observed by NDACC FTIR at globally distributed sites and comparison to GAWsurface in situ measurements
Tropospheric CH4 signals as observed by NDACC FTIR at globally distributed sites and comparison to GAWsurface in situ measurements
Autor:innen
Herausgeber
Quelle
Atmospheric Measurement Techniques
7 (2014), Seite 2337-2360
7 (2014), Seite 2337-2360
Schlagwörter
Forschungskennzahl (FKZ)
Verbundene Publikation
Zitation
Tropospheric CH4 signals as observed by NDACC FTIR at globally distributed sites and comparison to GAWsurface in situ measurements, 2014. Atmospheric Measurement Techniques [online]. Bd. 7 (2014), Seite 2337-2360. DOI 10.60810/openumwelt-1126. Verfügbar unter: https://openumwelt.de/handle/123456789/8539
Zusammenfassung englisch
We present lower/middle tropospheric column-averaged CH4 mole fraction time series measured by nine globally distributed ground-based FTIR (Fourier transform infrared) remote sensing experiments of the Network for the Detection of Atmospheric Composition Change (NDACC). We show that these data are well representative of the tropospheric regional-scale CH4signal, largely independent of the local surface small-scale signals, and only weakly dependent on upper tropospheric/lower stratospheric (UTLS) CH4 variations. In order to achieve the weak dependency on the UTLS, we use an a posteriori correction method. We estimate a typical precision for daily mean values of about 0.5% and a systematic error of about 2.5%. The theoretical assessments are complemented by an extensive empirical study. For this purpose, we use surface in situ CH4measurements made within the Global Atmosphere Watch (GAW) network and compare them to the remote sensing data. We briefly discuss different filter methods for removing the local small-scale signals from the surface in situ data sets in order to obtain the in situ regional-scale signals. We find good agreement between the filtered in situ and the remote sensing data. The agreement is consistent for a variety of timescales that are interesting for CH4 source/sink research: day-to-day, monthly, and inter-annual. The comparison study confirms our theoretical estimations and proves that the NDACC FTIR measurements can provide valuable data for investigating the cycle of CH4.Quelle: http://www.atmos-meas-tech.net