Mabuchi, K., H. Takagi, and S. Maksyutov, 2016: Relationships between CO2 flux estimated by inverse analysis and land surface elements in South America and Africa. J. Meteor. Soc. Japan, 94, 415-430.
https://doi.org/10.2151/jmsj.2016-021 Graphical Abstract with highlights
- In this study, the features and validity of changes in the carbon dioxide (CO2) flux estimated by inverse analysis were verified by interrelation analysis with changes in precipitation, short-wave radiation, surface temperature, and Normalized Difference Vegetation Index (NDVI) in regions of South America and Africa where CO2 flux observation data are limited.
- Sufficient accuracy of the land surface elements is required for the analysis results to confirm the CO2 flux estimated by inverse analysis. An examination of the correlation of anomalies showed consistent relationships among the precipitation, short-wave radiation, surface temperature, and NDVI data used in this study, which were created independently.
- The relationships between change in the estimated CO2 flux and characteristic changes of the land surface elements in South America and Africa were consistent in each region. This study confirmed the physical and biological validity of the changes in the CO2 flux estimated by inverse analysis.
- During the period of this study, the NDVI anomaly was influential in South America, and the precipitation (soil wetness) anomaly was an essential factor in Africa for the CO2 flux anomaly. The short-wave radiation anomaly was also influential at the inverse analysis region scale in both South America and Africa. The distinctive relationships are detected more clearly in the results of inverse analysis using both ground-based CO2 concentration data and the Greenhouse gases Observing SATellite (GOSAT) data than in the results using only ground-based CO2 concentration data. This demonstrates the usefulness of GOSAT data in regions with limited atmospheric CO2 concentration data.