Articles | Volume 17, issue 9
https://doi.org/10.5194/bg-17-2397-2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/bg-17-2397-2020
© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Summarizing the state of the terrestrial biosphere in few dimensions
Max Planck Institute for Biogeochemistry, Department for Biogeochemical Integration, 07745 Jena, Germany
Image Processing Laboratory, Universitat de València, 46980 Paterna (València), Spain
German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, 04103 Leipzig, Germany
Remote Sensing Centre for Earth System Research, Leipzig University, 04103 Leipzig, Germany
Gustau Camps-Valls
Image Processing Laboratory, Universitat de València, 46980 Paterna (València), Spain
Markus Reichstein
Max Planck Institute for Biogeochemistry, Department for Biogeochemical Integration, 07745 Jena, Germany
German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, 04103 Leipzig, Germany
Miguel D. Mahecha
Max Planck Institute for Biogeochemistry, Department for Biogeochemical Integration, 07745 Jena, Germany
German Centre for Integrative Biodiversity Research (iDiv) Halle-Jena-Leipzig, 04103 Leipzig, Germany
Remote Sensing Centre for Earth System Research, Leipzig University, 04103 Leipzig, Germany
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Cited
13 citations as recorded by crossref.
- Managing Land Carrying Capacity: Key to Achieving Sustainable Production Systems for Food Security X. Wang 10.3390/land11040484
- Spatial Patterns of Vegetation Activity Related to ENSO in Northern South America L. Estupinan‐Suarez et al. 10.1029/2022JG007344
- Three main dimensions reflected by national SDG performance X. Wu et al. 10.1016/j.xinn.2023.100507
- Beyond ecosystem modeling: A roadmap to community cyberinfrastructure for ecological data‐model integration I. Fer et al. 10.1111/gcb.15409
- Functional convergence of biosphere–atmosphere interactions in response to meteorological conditions C. Krich et al. 10.5194/bg-18-2379-2021
- A Regional Earth System Data Lab for Understanding Ecosystem Dynamics: An Example from Tropical South America L. Estupinan-Suarez et al. 10.3389/feart.2021.613395
- The three major axes of terrestrial ecosystem function M. Migliavacca et al. 10.1038/s41586-021-03939-9
- Efficacy of the CO Tracer Technique in Partitioning Biogenic and Anthropogenic Atmospheric CO2 Signals in the Humid Subtropical Eastern Highland Rim City of Cookeville, Tennessee W. Gichuhi & L. Gamage 10.3390/atmos14020208
- Earth System Data Cubes: Avenues for advancing Earth system research D. Montero et al. 10.1017/eds.2024.22
- Interactive Earth system data cube visualization in Jupyter notebooks M. Söchting et al. 10.1080/20964471.2025.2471646
- Comparing an exponential respiration model to alternative models for soil respiration components in a Canadian wildfire chronosequence (FireResp v1.0) J. Zobitz et al. 10.5194/gmd-14-6605-2021
- Earth system data cubes unravel global multivariate dynamics M. Mahecha et al. 10.5194/esd-11-201-2020
- Summarizing the state of the terrestrial biosphere in few dimensions G. Kraemer et al. 10.5194/bg-17-2397-2020
11 citations as recorded by crossref.
- Managing Land Carrying Capacity: Key to Achieving Sustainable Production Systems for Food Security X. Wang 10.3390/land11040484
- Spatial Patterns of Vegetation Activity Related to ENSO in Northern South America L. Estupinan‐Suarez et al. 10.1029/2022JG007344
- Three main dimensions reflected by national SDG performance X. Wu et al. 10.1016/j.xinn.2023.100507
- Beyond ecosystem modeling: A roadmap to community cyberinfrastructure for ecological data‐model integration I. Fer et al. 10.1111/gcb.15409
- Functional convergence of biosphere–atmosphere interactions in response to meteorological conditions C. Krich et al. 10.5194/bg-18-2379-2021
- A Regional Earth System Data Lab for Understanding Ecosystem Dynamics: An Example from Tropical South America L. Estupinan-Suarez et al. 10.3389/feart.2021.613395
- The three major axes of terrestrial ecosystem function M. Migliavacca et al. 10.1038/s41586-021-03939-9
- Efficacy of the CO Tracer Technique in Partitioning Biogenic and Anthropogenic Atmospheric CO2 Signals in the Humid Subtropical Eastern Highland Rim City of Cookeville, Tennessee W. Gichuhi & L. Gamage 10.3390/atmos14020208
- Earth System Data Cubes: Avenues for advancing Earth system research D. Montero et al. 10.1017/eds.2024.22
- Interactive Earth system data cube visualization in Jupyter notebooks M. Söchting et al. 10.1080/20964471.2025.2471646
- Comparing an exponential respiration model to alternative models for soil respiration components in a Canadian wildfire chronosequence (FireResp v1.0) J. Zobitz et al. 10.5194/gmd-14-6605-2021
Latest update: 30 Mar 2025
Short summary
To closely monitor the state of our planet, we require systems that can monitor
the observation of many different properties at the same time. We create
indicators that resemble the behavior of many different simultaneous
observations. We apply the method to create indicators representing the
Earth's biosphere. The indicators show a productivity gradient and a water
gradient. The resulting indicators can detect a large number of changes and
extremes in the Earth system.
To closely monitor the state of our planet, we require systems that can monitor
the observation...
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