Add to ORKGWe combined atmospheric CO2 measurements, satellite observations, and an atmospheric transport model in an inverse modeling framework to infer a key property of vegetation physiology, the light-use efficiency (LUE) of net primary production, for large geographic regions. We find the highest LUE in boreal regions and in the northern hemisphere tropics. Within boreal zones, Eurasian LUE is higher than North American LUE and has a distinctly different seasonal profile. This longitudinal asymmetry is consistent with ecological differences expected from the much greater cover of deciduous vegetation in boreal Eurasia caused by the vast Siberian forests of the deciduous conifer, Larch. Inferred LUE of the northern hemisphere tropics is also high ...
Simulating gross primary productivity (GPP) of terrestrial ecosystems has been a major challenge in ...
A critical variable in the estimation of gross primary production of terrestrial ecosystems is light...
Observations show an increasing amplitude in the seasonal cycle of CO2 (ASC) north of 45°N of 56 ± 9...
Optimum daily light-use efficiency (LUE) and normalized canopy photosynthesis (GEE*) rate, a proxy f...
Improvements in understanding carbon sources and sinks allows insight into the dimensions of the hum...
Satellite-based light use efficiency (LUE) models are important tools for estimating regional and gl...
A common assumption of remote sensing-based light use efficiency (LUE) models for estimating vegetat...
Terrestrial gross primary production (GPP) is the largest global CO2 flux and determines other ecosy...
Quantifying the mechanistic links between carbon fluxes and forest canopy attributes will advance un...
Gross primary production (GPP) by terrestrial ecosystems is a key quantity in the global carbon cycl...
A warming trend larger than the global average is changing high-latitude terrestrial ecosystems. The...
Atmospheric monitoring of high northern latitudes (> 40°N) has shown an enhanced seasonal cycle of c...
1 The arctic environment is highly heterogeneous in terms of plant distribution and productivity. If...
The concept of light-use efficiency (LUE) is the underlying basis for estimating carbon exchange in ...
International audienceObservations show an increasing amplitude in the seasonal cycle of CO 2 (ASC) ...
Simulating gross primary productivity (GPP) of terrestrial ecosystems has been a major challenge in ...
A critical variable in the estimation of gross primary production of terrestrial ecosystems is light...
Observations show an increasing amplitude in the seasonal cycle of CO2 (ASC) north of 45°N of 56 ± 9...
Optimum daily light-use efficiency (LUE) and normalized canopy photosynthesis (GEE*) rate, a proxy f...
Improvements in understanding carbon sources and sinks allows insight into the dimensions of the hum...
Satellite-based light use efficiency (LUE) models are important tools for estimating regional and gl...
A common assumption of remote sensing-based light use efficiency (LUE) models for estimating vegetat...
Terrestrial gross primary production (GPP) is the largest global CO2 flux and determines other ecosy...
Quantifying the mechanistic links between carbon fluxes and forest canopy attributes will advance un...
Gross primary production (GPP) by terrestrial ecosystems is a key quantity in the global carbon cycl...
A warming trend larger than the global average is changing high-latitude terrestrial ecosystems. The...
Atmospheric monitoring of high northern latitudes (> 40°N) has shown an enhanced seasonal cycle of c...
1 The arctic environment is highly heterogeneous in terms of plant distribution and productivity. If...
The concept of light-use efficiency (LUE) is the underlying basis for estimating carbon exchange in ...
International audienceObservations show an increasing amplitude in the seasonal cycle of CO 2 (ASC) ...
Simulating gross primary productivity (GPP) of terrestrial ecosystems has been a major challenge in ...
A critical variable in the estimation of gross primary production of terrestrial ecosystems is light...
Observations show an increasing amplitude in the seasonal cycle of CO2 (ASC) north of 45°N of 56 ± 9...