Supporting data for Laguë et al. (2019): Separating the impact of individual land surface properties on the terrestrial energy budget in both the coupled and un-coupled land-atmosphere system
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Authors
Lague, Marysa Monique
Swann, Abigail L.S.
Bonan, Gordon B.
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Abstract
The data provided here can be used to reproduce the figures in Laguë et al. (2019): "Separating the impact of individual land surface properties on the terrestrial energy budget in both the coupled and un-coupled land-atmosphere system".
Description
The .tar file contains a set of netcdf files containing the data presented in Laguë et al. (2019).
Experiment names are as follows:
global_a1_cv2_hc0.1_rs100 (albedo = 0.1; evaporative resistance = 100 s/m; vegetation height = 0.1 m)
global_a2_cv2_hc0.1_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 0.1 m)
global_a3_cv2_hc0.1_rs100 (albedo = 0.3; evaporative resistance = 100 s/m; vegetation height = 0.1 m)
global_a2_cv2_hc0.1_rs200 (albedo = 0.2; evaporative resistance = 200 s/m; vegetation height = 0.1 m)
global_a2_cv2_hc0.1_rs30 (albedo = 0.2; evaporative resistance = 30 s/m; vegetation height = 0.1 m)
global_a2_cv2_hc0.5_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 0.5 m)
global_a2_cv2_hc1.0_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 1.0 m)
global_a2_cv2_hc2.0_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 2.0 m)
global_a2_cv2_hc5.0_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 5.0 m)
global_a2_cv2_hc10.0_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 10.0 m)
global_a2_cv2_hc20.0_rs100 (albedo = 0.2; evaporative resistance = 100 s/m; vegetation height = 20.0 m)
The mean values for the presented fields over the years 20-50 of the simulations are presented in the files ending in:
<casename>.clm2.h0.20-50.time_mean.lnd_vars.nc (for land model variables)
<casename>.cam.h0.20-50.time_mean.atm_vars.nc (for atmospheric model variables)
The temporal standard deviation of those fields are files ending in:
<casename>.clm2.h0.20-50.mean_std.lnd_vars.nc (for land model variables)
<casename>.cam.h0.20-50.mean_std.atm_vars.nc (for atmospheric model variables)
(please note that this is the standard deviation of each monthly timestep, not of the annual mean).
Full time series are available upon request from the author.