Add to ORKGDespite decades of research, gaining a comprehensive understanding of carbon (C) cycling in forests remains a considerable challenge. Uncertainties stem from persistent methodological limitations and the difficulty of resolving top-down estimates of ecosystem C exchange with bottom-up measurements of individual pools and fluxes. To address this, we derived estimates and associated uncertainties of ecosystem C fluxes for a 100–125 year old mixed temperate forest stand at the Bartlett Experimental Forest, New Hampshire, USA, using three different approaches: (1) tower-based eddy covariance, (2) a biometric approach involving C flux measurements of individual ecosystem subcomponents, and (3) an inventory approach involving changes in major C s...
How carbon (C) is allocated to different plant tissues (leaves, stem, and roots) determines how long...
Forest ecosystems function as a significant carbon sink for atmospheric carbon dioxide. However, our...
Understanding the feedback of ecosystem carbon uptake on climate change at temporal and spatial scal...
Despite decades of research, gaining a comprehensive understanding of carbon (C) cycling in forests ...
How, where, and why carbon (C) moves into and out of an ecosystem through time are long-standing que...
This study compares different approaches to quantifying the carbon cycle in a temperate deciduous fo...
Quantifying net carbon (C) storage by forests is a necessary step in the validation of carbon seques...
We present four years (2005–2008) of biometric (B) and eddy-covariance (EC) measurements of carbon (...
The eddy correlation method was used to measure the net ecosystem exchange of carbon dioxide continu...
Linking biometric measurements of stand-level biomass growth to tower-based measurements of carbon u...
The tower-based CO2 measurements and key meteorological drivers are intended to examine how regional...
We used a combination of eddy flux, canopy, soil and environmental measurements with an integrated b...
For 15 years, networks of flux towers have been developed to determine accurate carbon balance with ...
The overall project goal was to quantify the trends and variability for Net ecosystem exchange of CO...
Carbon allocation plays a critical role in forest ecosystem carbon cycling. We reviewed existing lit...
How carbon (C) is allocated to different plant tissues (leaves, stem, and roots) determines how long...
Forest ecosystems function as a significant carbon sink for atmospheric carbon dioxide. However, our...
Understanding the feedback of ecosystem carbon uptake on climate change at temporal and spatial scal...
Despite decades of research, gaining a comprehensive understanding of carbon (C) cycling in forests ...
How, where, and why carbon (C) moves into and out of an ecosystem through time are long-standing que...
This study compares different approaches to quantifying the carbon cycle in a temperate deciduous fo...
Quantifying net carbon (C) storage by forests is a necessary step in the validation of carbon seques...
We present four years (2005–2008) of biometric (B) and eddy-covariance (EC) measurements of carbon (...
The eddy correlation method was used to measure the net ecosystem exchange of carbon dioxide continu...
Linking biometric measurements of stand-level biomass growth to tower-based measurements of carbon u...
The tower-based CO2 measurements and key meteorological drivers are intended to examine how regional...
We used a combination of eddy flux, canopy, soil and environmental measurements with an integrated b...
For 15 years, networks of flux towers have been developed to determine accurate carbon balance with ...
The overall project goal was to quantify the trends and variability for Net ecosystem exchange of CO...
Carbon allocation plays a critical role in forest ecosystem carbon cycling. We reviewed existing lit...
How carbon (C) is allocated to different plant tissues (leaves, stem, and roots) determines how long...
Forest ecosystems function as a significant carbon sink for atmospheric carbon dioxide. However, our...
Understanding the feedback of ecosystem carbon uptake on climate change at temporal and spatial scal...