Ancillary vegetation measurements at ICOS ecosystem stations. Sonnentag, O., Pokorny, R., Gielen, B., Lohila, A., Acosta, M., Metzger, C., Moureaux, C., Buchmann, N., Saunders, M., Cescatti, A., Vincke, C., Soudani, K., Nilsson, M., B., Peichl, M., Fleck, S., Altimir, N., Tallec, T., Ceschia, E., Manise, T., Kolari, P., Simioni, G., Wohlfahrt, G., Pavelka, M., Matteucci, G., Marańon-Jimenez, S., Klumpp, K., Papale, D., Montagnani, L., Merbold, L., Osborne, B., Tuittila, E., Hörtnagl, L., & Loustau, D. International Agrophysics, 32(4):645-664, 2018.
doi  abstract   bibtex   
The Integrated Carbon Observation System is a Pan-European distributed research infrastructure that has as its main goal to monitor the greenhouse gas balance of Europe. The ecosystem component of Integrated Carbon Observation System consists of a multitude of stations where the net greenhouse gas exchange is monitored continuously by eddy covariance measurements while, in addition many other measurements are carried out that are a key to an understanding of the greenhouse gas balance. Amongst them are the continuous meteorological measurements and a set of non-continuous measurements related to vegetation. The latter include Green Area Index, aboveground biomass and litter biomass. The standardized methodology that is used at the Integrated Carbon Observation System ecosystem stations to monitor these vegetation related variables differs between the ecosystem types that are represented within the network, whereby in this paper we focus on forests, grasslands, croplands and mires. For each of the variables and ecosystems a spatial and temporal sampling design was developed so that the variables can be monitored in a consistent way within the ICOS network. The standardisation of the methodology to collect Green Area Index, above ground biomass and litter biomass and the methods to evaluate the quality of the collected data ensures that all stations within the ICOS ecosystem network produce data sets with small and similar errors, which allows for inter-comparison comparisons across the Integrated Carbon Observation System ecosystem network.
@article{
 title = {Ancillary vegetation measurements at ICOS ecosystem stations},
 type = {article},
 year = {2018},
 pages = {645-664},
 volume = {32},
 id = {4e0d5f80-493e-3c0e-9651-f82a6103df6f},
 created = {2020-08-28T15:56:02.048Z},
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 profile_id = {5c1040db-25e3-36ea-a919-0994a44709e7},
 group_id = {c4af41cc-7e3c-3fd3-9982-bdb923596eee},
 last_modified = {2020-09-08T15:25:49.055Z},
 read = {false},
 starred = {false},
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 citation_key = {Sonnentag2018},
 private_publication = {false},
 abstract = {The Integrated Carbon Observation System is a Pan-European distributed research infrastructure that has as its main goal to monitor the greenhouse gas balance of Europe. The ecosystem component of Integrated Carbon Observation System consists of a multitude of stations where the net greenhouse gas exchange is monitored continuously by eddy covariance measurements while, in addition many other measurements are carried out that are a key to an understanding of the greenhouse gas balance. Amongst them are the continuous meteorological measurements and a set of non-continuous measurements related to vegetation. The latter include Green Area Index, aboveground biomass and litter biomass. The standardized methodology that is used at the Integrated Carbon Observation System ecosystem stations to monitor these vegetation related variables differs between the ecosystem types that are represented within the network, whereby in this paper we focus on forests, grasslands, croplands and mires. For each of the variables and ecosystems a spatial and temporal sampling design was developed so that the variables can be monitored in a consistent way within the ICOS network. The standardisation of the methodology to collect Green Area Index, above ground biomass and litter biomass and the methods to evaluate the quality of the collected data ensures that all stations within the ICOS ecosystem network produce data sets with small and similar errors, which allows for inter-comparison comparisons across the Integrated Carbon Observation System ecosystem network.},
 bibtype = {article},
 author = {Sonnentag, Oliver and Pokorny, Radek and Gielen, Bert and Lohila, Annalea and Acosta, Manuel and Metzger, Christine and Moureaux, Christine and Buchmann, Nina and Saunders, Matthew and Cescatti, Alessandro and Vincke, Caroline and Soudani, Kamel and Nilsson, Mats B. and Peichl, Matthias and Fleck, Stefan and Altimir, Nuria and Tallec, Tiphaine and Ceschia, Eric and Manise, Tanguy and Kolari, Pasi and Simioni, Guillaume and Wohlfahrt, Georg and Pavelka, Marian and Matteucci, Giorgio and Marańon-Jimenez, Sara and Klumpp, Katja and Papale, Dario and Montagnani, Leonardo and Merbold, Lutz and Osborne, Bruce and Tuittila, Eeva-Stiina and Hörtnagl, Lukas and Loustau, Denis},
 doi = {10.1515/intag-2017-0048},
 journal = {International Agrophysics},
 number = {4}
}
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