Basal ecosystem respiration rate (BR), which is the ecosystem respiration rate at a given temperature, is a common and important parameter in empirical models for quantifying ecosystem respiration (ER) globally. Numerous studies have indicated that BR varies in space. However, many empirical ER models still use a global constant BR largely due to the lack of a functional description for BR. In this study, we redefined BR to be ecosystem respiration rate at the mean annual temperature. To test the validity of this concept, we conducted a synthesis analysis using 276 site-years of eddy covariance data, from 79 research sites located at latitudes ranging from ~3ºS to ~70ºN. Results showed that mean annual ER rate closely matches ER rate at mean annual temperature. Incorporation of site-specific BR into global ER model substantially improved simulated ER compared to an invariant BR at all sites. These results confirm that ER at the mean annual temperature can be considered as BR in empirical models. A strong correlation was found between the mean annual ER and mean annual gross primary production (GPP). Consequently, GPP, which is typically more accurately modelled, can be used to estimate BR. A light use efficiency GPP model (i.e. EC-LUE) was applied to estimate global GPP, BR and ER with input data from MERRA (Modern Era Retrospective-Analysis for Research and Applications) and MODIS (MODerate resolution Imaging Spectroradiometer). The global ER was 103 Pg C yr-1, with the highest respiration rate over tropical forests and the lowest value in dry and high-latitude areas.
Yuan, W.; Luo, Y.; Li, X.; Liu, S.; Yu, G.; Zhou, T.; Bahn, M.; Black, A.; Richardson, A.D.; Desai, A.R.; Cescatti, A.; Marcolla, B.; Jacobs, C.; Chen, J.; Aurela, M.; Bernhofer, C.; Gielen, B.; Bohrer, G.; Cook, D.R.; Dragoni, D.; Dunn, A.L.; Gianelle, D.; Grünwald, T.; Ibrom, A.; Leclerc, M.Y.; Lindroth, A.; Marchesini, L.B.; Montagnani, L.; Rodeghiero, M.; Rodrigues, A.; Starr, G.; Stoy, P.C.; Liu, H. (2011). Redefinition and global estimation of basal ecosystem respiration rate. GLOBAL BIOGEOCHEMICAL CYCLES, 25: GB4002. doi: 10.1029/2011GB004150 handle: http://hdl.handle.net/10449/20641
Redefinition and global estimation of basal ecosystem respiration rate
Marcolla, Barbara;Gianelle, Damiano;Rodeghiero, Mirco;
2011-01-01
Abstract
Basal ecosystem respiration rate (BR), which is the ecosystem respiration rate at a given temperature, is a common and important parameter in empirical models for quantifying ecosystem respiration (ER) globally. Numerous studies have indicated that BR varies in space. However, many empirical ER models still use a global constant BR largely due to the lack of a functional description for BR. In this study, we redefined BR to be ecosystem respiration rate at the mean annual temperature. To test the validity of this concept, we conducted a synthesis analysis using 276 site-years of eddy covariance data, from 79 research sites located at latitudes ranging from ~3ºS to ~70ºN. Results showed that mean annual ER rate closely matches ER rate at mean annual temperature. Incorporation of site-specific BR into global ER model substantially improved simulated ER compared to an invariant BR at all sites. These results confirm that ER at the mean annual temperature can be considered as BR in empirical models. A strong correlation was found between the mean annual ER and mean annual gross primary production (GPP). Consequently, GPP, which is typically more accurately modelled, can be used to estimate BR. A light use efficiency GPP model (i.e. EC-LUE) was applied to estimate global GPP, BR and ER with input data from MERRA (Modern Era Retrospective-Analysis for Research and Applications) and MODIS (MODerate resolution Imaging Spectroradiometer). The global ER was 103 Pg C yr-1, with the highest respiration rate over tropical forests and the lowest value in dry and high-latitude areas.File | Dimensione | Formato | |
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