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Enlarged Nonclosure of Surface Energy Balance With Increasing Atmospheric Instabilities Linked to Changes in Coherent Structures

Zhongming Gao, Heping Liu, Xingyuan Chen, Maoyi Huang, Justine Missik, Jingyu Yao, Evan Arntzen, D. Mcfarland

2020Journal of Geophysical Research Atmospheres18 citationsDOIOpen Access PDF

Abstract

Abstract The nonclosure of surface energy balance remains an outstanding problem in eddy covariance (EC) measurements of land‐surface fluxes of heat, water vapor, and CO 2 . Here data collected from an EC tower over a semiarid sagebrush ecosystem indicate that under unstable atmospheric conditions, the nonclosure becomes increased with increasing instability, consistent with many other studies. It is demonstrated that the increased nonclosure is not caused by the inadequate sampling of large‐scale turbulent motions using a 30‐min averaging interval, though the scales of turbulent motions dominating sensible and latent heat fluxes become enlarged with increasing instability. Quadrant analysis is then used to reveal that the flux contributions from ejections remain nearly constant with increasing instability, whereas the flux contributions from sweeps are reduced and their time fractions increase. Our results imply that the increased nonclosure of surface energy balance is associated with changes in turbulent structures including their dominant time scales and flux contributions of ejections and sweeps as the atmospheric instability increases, which require further studies using vertically distributed observations and/or large eddy simulations.

Topics & Concepts

InstabilityAtmospheric instabilityEddy covarianceAtmospheric sciencesTurbulenceLatent heatEnvironmental scienceEnergy balanceFlux (metallurgy)PhysicsSensible heatEcosystemMeteorologyMechanicsWind speedMaterials scienceThermodynamicsBiologyEcologyMetallurgyPlant Water Relations and Carbon DynamicsClimate variability and modelsMeteorological Phenomena and Simulations
Enlarged Nonclosure of Surface Energy Balance With Increasing Atmospheric Instabilities Linked to Changes in Coherent Structures | Litcius