Characterizing ecosystem-atmosphere interactions in terms of carbon and water exchange on different time scales is considered a major challenge in terrestrial biogeochemical cycle research. The respective time series currently comprise an observation period of up to one decade. In this study, we explored whether the observation period is already sufficient to detect cross-relationships between the variables beyond the annual cycle, as they are expected from comparable studies in climatology. We investigated the potential of Singular System Analysis (SSA) to extract arbitrary kinds of oscillatory patterns. The method is completely data adaptive and performs an effective signal to noise separation. We found that most observations (Net Ecosyst...
The response of the terrestrial net ecosystem exchange (NEE) of CO<sub>2</sub> to climate variation...
Understanding the dependencies of the terrestrial carbon and water cycle with meteorological conditi...
Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO2) origina...
Characterizing ecosystem-atmosphere interactions in terms of carbon and water exchange on different ...
Characterizing ecosystem-atmosphere interactions in terms of carbon and water exchange on different ...
In times of climate change it is important to deeply understand how the biosphere responds to climat...
The net ecosystem exchange of CO<sub>2</sub> (NEE) varies at time scales from seconds to years and l...
The net ecosystem exchange of CO2 (NEE) varies at time scales from seconds to years and longer via t...
Plant phenology drives the timing, magnitude, and variability in biosphere-atmosphere exchanges. Our...
Terrestrial biosphere models are indispensable tools for analyzing the Biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere-atmosphere exchange...
Attribution in ecosystems aims to identify the cause-effect relationships between the variables invo...
The variability in land surface heat (H), water vapor (LE), and CO2 (or net ecosystem exchange, NEE)...
Understanding how net ecosystem exchange (NEE) changes with temperature is central to the debate on ...
Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO 2) origin...
The response of the terrestrial net ecosystem exchange (NEE) of CO<sub>2</sub> to climate variation...
Understanding the dependencies of the terrestrial carbon and water cycle with meteorological conditi...
Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO2) origina...
Characterizing ecosystem-atmosphere interactions in terms of carbon and water exchange on different ...
Characterizing ecosystem-atmosphere interactions in terms of carbon and water exchange on different ...
In times of climate change it is important to deeply understand how the biosphere responds to climat...
The net ecosystem exchange of CO<sub>2</sub> (NEE) varies at time scales from seconds to years and l...
The net ecosystem exchange of CO2 (NEE) varies at time scales from seconds to years and longer via t...
Plant phenology drives the timing, magnitude, and variability in biosphere-atmosphere exchanges. Our...
Terrestrial biosphere models are indispensable tools for analyzing the Biosphere-atmosphere exchange...
Terrestrial biosphere models are indispensable tools for analyzing the biosphere-atmosphere exchange...
Attribution in ecosystems aims to identify the cause-effect relationships between the variables invo...
The variability in land surface heat (H), water vapor (LE), and CO2 (or net ecosystem exchange, NEE)...
Understanding how net ecosystem exchange (NEE) changes with temperature is central to the debate on ...
Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO 2) origin...
The response of the terrestrial net ecosystem exchange (NEE) of CO<sub>2</sub> to climate variation...
Understanding the dependencies of the terrestrial carbon and water cycle with meteorological conditi...
Large interannual variations in the measured growth rate of atmospheric carbon dioxide (CO2) origina...