Data
This is the collection of datasets collected or elaborated by Eco-Met group (and previous BAIE group) and made available for the community:
- Bogdanovich, Ekaterina; Perez-Priego, Oscar; El-Madany, Tarek S.; Guederle, Marcus; Javier, Pacheco-Labrador; Levick, Shaun R.; Moreno, Gerardo M.; Carrara, Arnaud; Martín, M. Pilar; Migliavacca, Mirco. Majadas de Tietar - Tree structural parameters from Terrestrial Lidar Scanning (2015, 2018). This data set provides information about tree structural parameters of holm oak trees (Quercus ilex L) and their changes derived from terrestrial laser scanning (TLS). The TLS acquisition was conducted at Majadas (39°56´024.68´´N, 5°45´50.27´´W; Majadas de Tiétar, Cáceres, Extremadura) in 2015 and in 2018.
- Nair, Richard K F, Morris, Kendalynn A, Hertel, Martin, Luo, Yunpeng, Moreno, Gerardo, Reichstein, Markus, Schrumpf, Marion, Migliavacca, Mirco. (2019). MrPARTS / MANIP Root Data [Data set]. Zenodo. http://doi.org/10.5281/zenodo.2651060: this dataset contains root measurements collected in the MaNiP experiment at the experimental site Majadas de Tietar between November 2016 and May 2018. We collected direct measurements of root biomass, ingrowth cores (always initiated in December of the previous year to sampling date) and minirhizotron measurements from approximately every other month during the growing season. These data are reported in Nair et al., (2018) along with commentary on the methods of sampling. In this dataset we include data as shown in the paper; this includes the top 13 cm of fine root biomass (the majority of fine roots at most times of the year).
- Carrara, Arnaud, El-Madany, Tarek Sebastian, Lopez-Jimenez, Ramon, Hertel, Martin, Kolle, Olaf, Knauer, Jürgen, … Migliavacca, Mirco. (2018). Majadas de Tietar: Ecosystem level and understorey carbon, water, and energy fluxes in a Mediterranean tree-grass ecosystem (Version 1.0) [Data set]. Zenodo. http://doi.org/10.5281/zenodo.1314194 This dataset contains a subset of measurements collected at the experimental site Majadas de Tietar. We collected ecosystem level and understorey carbon, water, and energy fluxes in a Mediterranean Savanna using the eddy covariance technique and a series of meteorological sensors for the time period December 2015 - February 2018. The dataset is used for the development of a series of R packages including 'bigleaf' (Knauer et al., 2018).
- ICOS Ecosystem Thematic Centre and Majadas Del Tietar North: Drought-2018 ecosystem eddy covariance flux product from Majadas del Tietar North, , doi:10.18160/WW2R-8QDY, 2019. Carbon, water, and energy fluxes in measured in a Mediterranean Savanna (FLUXNET ID ES-LM1) using the eddy covariance technique and a series of meteorological sensors for the time period January 2014 - January 2019 (El-Madany et al., 2018; Luo et al., 2019)
- ICOS Ecosystem Thematic Centre and Majadas Del Tietar South: Drought-2018 ecosystem eddy covariance flux product from Majadas del Tietar South, , doi:10.18160/9XYZ-1RF8, 2019. Carbon, water, and energy fluxes in measured in a Mediterranean Savanna (FLUXNET ID ES-LM2) using the eddy covariance technique and a series of meteorological sensors for the time period January 2014 - January 2019 (El-Madany et al., 2018; Luo et al., 2019)
- ICOS Ecosystem Thematic Centre and Albuera: Drought-2018 ecosystem eddy covariance flux product from Albuera, , doi:10.18160/FKAQ-GC38, 2019. Carbon, water, and energy fluxes in measured in a Mediterranean Savanna (FLUXNET ID ES-Abr) using the eddy covariance technique and a series of meteorological sensors for the time period January 2015 - January 2019 (Luo et al., 2019; El-Madany et al., in review)
- Multiple-constraint inversion of SCOPE model: code and dataset used for the estimation of functional traits from a combination of optical data, sun induced fluorescence, and carbon fluxes: Pacheco-Labrador et al., (2019), Remote Sensing of Environment