Lund University Publications

Spatial and temporal variability of land CO2 fluxes estimated with remote sensing and analysis data over western Eurasia

• Mark

Lafont, Sébastien ; Kergoat, Laurent ; Dedieu, Gérard ; Chevillard, Anne ; Karstens, Ute ^LU and Kolle, Olaf

Abstract

The Eurosiberian Carbonflux project was designed to address the feasibility of inferring the regional carbon balance over Europe and Siberia from a hierarchy of models and atmospheric CO₂ measurements over the continent. Such atmospheric CO₂ concentrations results from the combination of connective boundary layer dynamics, synoptic events, large-scale transport of CO₂, and regional surface fluxes and depend on the variability of these processes in time and space. In this paper we investigate the spatial and temporal variability of the land surface CO₂ fluxes derived from the TURC model. This productivity model is driven by satellite NDVI and forced by ECMWF or REMO meteorology. We first... (More)

The Eurosiberian Carbonflux project was designed to address the feasibility of inferring the regional carbon balance over Europe and Siberia from a hierarchy of models and atmospheric CO₂ measurements over the continent. Such atmospheric CO₂ concentrations results from the combination of connective boundary layer dynamics, synoptic events, large-scale transport of CO₂, and regional surface fluxes and depend on the variability of these processes in time and space. In this paper we investigate the spatial and temporal variability of the land surface CO₂ fluxes derived from the TURC model. This productivity model is driven by satellite NDVI and forced by ECMWF or REMO meteorology. We first present an analysis of recent CO₂ flux measurements over temperature and boreal forests, which are used to update the TURC model. A strong linear relationship has been found between maximum hourly CO₂ fluxes and the mean annual air temperature, showing that boreal biomes have a lower photosynthetic capacity than temperate ones. Then, model input consistency and simulated CO₂ flux accuracy are evaluated against local measurements from two sites in Russia. Finally, the spatial and temporal patterns of the daily CO₂ fluxes over Eurasia are analysed. We show that, during the growing season (spring and summer), the daily CO₂ fluxes display characteristics spatial patterns of positive and negative fluxes at the synoptic scale. These patterns are found to correspond to cloudy areas (areas with low incoming radiation) and to follow the motion of cloud cover areas over the whole domain. As a consequence, we argue that covariations of surface CO₂ fluxes and atmospheric transport at the synoptic scale may impact CO₂ concentrations over continents and need to be investigated.

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