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J Hydrometeorol. 2018 Feb;19(No 2):375-392. doi: 10.1175/JHM-D-17-0152.1. Epub 2018 Feb 12.

Verification of land-atmosphere coupling in forecast models, reanalyses and land surface models using flux site observations.

Author information

1
Center for Ocean-Land-Atmosphere Studies, George Mason University.
2
NASA / Goddard Space Flight Center.
3
NOAA / National Centers for Environmental Prediction / Environmental Modeling Center.
4
European Centre for Medium-range Weather Forecasts.
5
Instituto Dom Luiz, Faculdade de Ciências, Universidade de Lisboa.
6
National Center for Atmospheric Research.

Abstract

We confront four model systems in three configurations (LSM, LSM+GCM, and reanalysis) with global flux tower observations to validate states, surface fluxes, and coupling indices between land and atmosphere. Models clearly under-represent the feedback of surface fluxes on boundary layer properties (the atmospheric leg of land-atmosphere coupling), and may over-represent the connection between soil moisture and surface fluxes (the terrestrial leg). Models generally under-represent spatial and temporal variability relative to observations, which is at least partially an artifact of the differences in spatial scale between model grid boxes and flux tower footprints. All models bias high in near-surface humidity and downward shortwave radiation, struggle to represent precipitation accurately, and show serious problems in reproducing surface albedos. These errors create challenges for models to partition surface energy properly and errors are traceable through the surface energy and water cycles. The spatial distribution of the amplitude and phase of annual cycles (first harmonic) are generally well reproduced, but the biases in means tend to reflect in these amplitudes. Interannual variability is also a challenge for models to reproduce. Our analysis illuminates targets for coupled land-atmosphere model development, as well as the value of long-term globally-distributed observational monitoring.

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