Terrestrial carbon sinks in China and around the world and their contribution to carbon neutrality
Enhancing the terrestrial ecosystem carbon sink (referred to as terrestrial C sink) is an
important way to slow down the continuous increase in atmospheric carbon dioxide (CO2) …
important way to slow down the continuous increase in atmospheric carbon dioxide (CO2) …
Remote sensing of the terrestrial carbon cycle: A review of advances over 50 years
Quantifying ecosystem carbon fluxes and stocks is essential for better understanding the
global carbon cycle and improving projections of the carbon-climate feedbacks. Remote …
global carbon cycle and improving projections of the carbon-climate feedbacks. Remote …
[HTML][HTML] Scaling carbon fluxes from eddy covariance sites to globe: synthesis and evaluation of the FLUXCOM approach
FLUXNET comprises globally distributed eddy-covariance-based estimates of carbon fluxes
between the biosphere and the atmosphere. Since eddy covariance flux towers have a …
between the biosphere and the atmosphere. Since eddy covariance flux towers have a …
What is global photosynthesis? History, uncertainties and opportunities
Quantifying global terrestrial photosynthesis is essential to understanding the global carbon
cycle and the climate system. Remote sensing has played a pivotal role in advancing our …
cycle and the climate system. Remote sensing has played a pivotal role in advancing our …
Statistical upscaling of ecosystem CO2 fluxes across the terrestrial tundra and boreal domain: Regional patterns and uncertainties
The regional variability in tundra and boreal carbon dioxide (CO2) fluxes can be high,
complicating efforts to quantify sink‐source patterns across the entire region. Statistical …
complicating efforts to quantify sink‐source patterns across the entire region. Statistical …
New-generation geostationary satellite reveals widespread midday depression in dryland photosynthesis during 2020 western US heatwave
Emerging new-generation geostationary satellites have broadened the scope for studying
the diurnal cycle of ecosystem functions. We exploit observations from the Geostationary …
the diurnal cycle of ecosystem functions. We exploit observations from the Geostationary …
Evaluation of global terrestrial evapotranspiration using state-of-the-art approaches in remote sensing, machine learning and land surface modeling
Evapotranspiration (ET) is critical in linking global water, carbon and energy cycles.
However, direct measurement of global terrestrial ET is not feasible. Here, we first reviewed …
However, direct measurement of global terrestrial ET is not feasible. Here, we first reviewed …
Global terrestrial carbon fluxes of 1999–2019 estimated by upscaling eddy covariance data with a random forest
The terrestrial biosphere is a key player in slowing the accumulation of carbon dioxide in the
atmosphere. While quantification of carbon fluxes at global land scale is important for …
atmosphere. While quantification of carbon fluxes at global land scale is important for …
Evaluating different machine learning methods for upscaling evapotranspiration from flux towers to the regional scale
Evapotranspiration (ET) is a vital variable for land‐atmosphere interactions that links surface
energy balance, water, and carbon cycles. The in situ techniques can measure ET …
energy balance, water, and carbon cycles. The in situ techniques can measure ET …
Gap‐filling approaches for eddy covariance methane fluxes: A comparison of three machine learning algorithms and a traditional method with principal component …
Methane flux (FCH4) measurements using the eddy covariance technique have increased
over the past decade. FCH4 measurements commonly include data gaps, as is the case with …
over the past decade. FCH4 measurements commonly include data gaps, as is the case with …