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|Title:||The interannual variability of Africa's ecosystem productivity: a multi-model analysis|
|Authors:||WEBER Ulrich; JUNG Martin; REICHSTEIN M.; BEER C.; BRAAKHEKKE M.; LEHSTEN V.; GHENT D.; KADUK J.; VIOVY N.; CIAIS P.; GOBRON Nadine; RODENBECK C.|
|Citation:||Biogeosciences vol. 6 no. 2 p. 285-295|
|Publisher:||EUROPEAN GEOSCIENCES UNION|
|Type:||Articles in Journals|
|Abstract:||We are comparing spatially explicit process-model based estimates of the terrestrial carbon balance and its components over Africa and confront them with remote sensing based proxies of vegetation productivity and atmospheric inversions of land-atmosphere net carbon exchange. Particular emphasis is on characterizing the patterns of interannual variability of carbon fluxes and analyzing the factors and processes responsible for it. For this purpose simulations with the terrestrial biosphere models ORCHIDEE, LPJ-DGVM, LPJ-Guess and JULES have been performed using a standardized modeling protocol and a uniform set of corrected climate forcing data. While the models differ concerning the absolute magnitude of carbon fluxes, we find several robust patterns of interannual variability among the models. Models exhibit largest interannual variability in southern and eastern Africa, regions which are primarily covered by herbaceous vegetation. Interannual variability of the net carbon balance appears to be more strongly influenced by gross primary production than by ecosystem respiration. A principal component analysis indicates that moisture is the main driving factor of interannual gross primary production variability for those regions. On the contrary in a large part of the inner tropics radiation appears to be limiting in two models. These patterns are corroborated by remotely sensed vegetation properties from the SeaWiFS satellite sensor. Inverse atmospheric modeling estimates of surface carbon fluxes are less conclusive at this point, implying the need for a denser network of observation stations over Africa.|
|JRC Institute:||Institute for Environment and Sustainability|
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