Add to ORKGThe growth rate of atmospheric CO2 exhibits large temporal variation that is largely determined by year-to-year fluctuations in land¿atmosphere CO2 fluxes. This land¿atmosphere CO2-flux is driven by large-scale biomass burning and variation in net ecosystem exchange (NEE). Between- and within years, NEE varies due to fluctuations in climate. Studies on climatic influences on inter- and intra-annual variability in gross photosynthesis (GPP) and net carbon uptake in terrestrial ecosystems have shown conflicting results. These conflicts are in part related to differences in methodology and in part to the limited duration of some studies. Here, we introduce an observation-driven methodology that provides insight into the dependence of anomalies...
Warming during late winter and spring in recent decades has been credited with increasing high north...
Understanding climate controls on gross primary productivity (GPP) is crucial for accurate projecti...
A growing literature is reporting on how the terrestrial carbon cycle is experiencing year-to-year v...
The growth rate of atmospheric CO2 exhibits large temporal variation that is largely determined by y...
Tower-based eddy covariance measurements of forest-atmosphere carbon dioxide (CO2) exchange from man...
The annual net uptake of CO2 by a deciduous forest in New England varied from 1.4 to 2.8 metric tons...
<p>Quantifying carbon fluxes and pools of forest ecosystems is an active research area in global cli...
As the lifetime of regional flux networks approach twenty years, there is a growing number of papers...
The vegetation-atmosphere carbon and water exchange at one particular site can strongly vary from ye...
Abstract in Undetermined Six to nine years of net ecosystem carbon exchange (NEE) data from forests ...
Terrestrial ecosystems can act both as sinks and sources in the global carbon cycle. Forests are an ...
Non-growing season carbon fluxes can contribute to a significant amount of the full-year ecosystem c...
Terrestrial ecosystems control carbon dioxide fluxes to and from the atmosphere, through photosynthe...
Climatic variables not only directly affect the interannual variability (IAV) in net ecosystem excha...
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP...
Warming during late winter and spring in recent decades has been credited with increasing high north...
Understanding climate controls on gross primary productivity (GPP) is crucial for accurate projecti...
A growing literature is reporting on how the terrestrial carbon cycle is experiencing year-to-year v...
The growth rate of atmospheric CO2 exhibits large temporal variation that is largely determined by y...
Tower-based eddy covariance measurements of forest-atmosphere carbon dioxide (CO2) exchange from man...
The annual net uptake of CO2 by a deciduous forest in New England varied from 1.4 to 2.8 metric tons...
<p>Quantifying carbon fluxes and pools of forest ecosystems is an active research area in global cli...
As the lifetime of regional flux networks approach twenty years, there is a growing number of papers...
The vegetation-atmosphere carbon and water exchange at one particular site can strongly vary from ye...
Abstract in Undetermined Six to nine years of net ecosystem carbon exchange (NEE) data from forests ...
Terrestrial ecosystems can act both as sinks and sources in the global carbon cycle. Forests are an ...
Non-growing season carbon fluxes can contribute to a significant amount of the full-year ecosystem c...
Terrestrial ecosystems control carbon dioxide fluxes to and from the atmosphere, through photosynthe...
Climatic variables not only directly affect the interannual variability (IAV) in net ecosystem excha...
The total uptake of carbon dioxide by ecosystems via photosynthesis (gross primary productivity, GPP...
Warming during late winter and spring in recent decades has been credited with increasing high north...
Understanding climate controls on gross primary productivity (GPP) is crucial for accurate projecti...
A growing literature is reporting on how the terrestrial carbon cycle is experiencing year-to-year v...