Marko Scholze
Senior lecturer
Quantifying the benefit of A-SCOPE data for reducing uncertainties in terrestrial carbon fluxes in CCDAS
Author
Summary, in English
ESA's Earth Explorer candidate mission A-SCOPE aims at observing CO2 from space with an active LIDAR instrument. This study employs quantitative network design techniques to investigate the benefit of A-SCOPE observations in a Carbon Cycle Data Assimilation System. The system links the observations to the terrestrial vegetation model BETHY via the fine resolution version of the atmospheric transport model TM3. In the modelling process chain the observations are used to reduce uncertainties in the values of BETHY's process parameters, and then the uncertainty in the process parameters is mapped forward to uncertainties in both in long-term net carbon flux and net primary productivity over three regions. A-SCOPE yields considerably better reductions in posterior uncertainties than the ground-based GLOBALVIEW station network. This is true for assimilating monthly mean values and instantaneous values, and it is true for two potential vertical weighting functions. The strength of the constraint through A-SCOPE observations is high over the range of observational uncertainties.
Publishing year
2010-11-01
Language
English
Pages
784-796
Publication/Series
Tellus. Series B: Chemical and Physical Meteorology
Volume
62
Issue
5
Links
Document type
Journal article
Publisher
Taylor & Francis
Topic
- Physical Geography
- Meteorology and Atmospheric Sciences
Status
Published
ISBN/ISSN/Other
- ISSN: 0280-6509