Physical connection of sensible and ground heat flux

Seyyed Morteza Sadeghi; A. Ebtehaj; M. Guala; J. Wang

doi:10.1016/j.jhydrol.2021.126687

Physical connection of sensible and ground heat flux

Seyyed Morteza Sadeghi, A. Ebtehaj, M. Guala, J. Wang

Civil, Environmental, and Geo- Engineering

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Characterizing physical relationships between the sensible, latent and ground heat flux at the Earth surface is of crucial importance in studying the global energy, water, and carbon cycles. Here we demonstrate an analogy between the daily mean turbulent heat transfer in the atmospheric surface layer and conductive-advective heat transfer in soil. This finding, in conjunction with temperature continuity at the land–atmosphere interface, uncovers a physical linkage between sensible and ground heat flux. The proposed relationship and its ramification for estimation of latent heat flux are validated based on daily averaged data from six AmeriFlux eddy covariance stations in North America over a wide range of land covers and climate regimes.

Original language	English (US)
Article number	126687
Journal	Journal of Hydrology
Volume	602
DOIs	https://doi.org/10.1016/j.jhydrol.2021.126687
State	Published - Nov 2021

Bibliographical note

Publisher Copyright:
© 2021 Elsevier B.V.

Keywords

Bulk heat transfer
Surface energy balance
Turbulent eddy diffusion

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title = "Physical connection of sensible and ground heat flux",

abstract = "Characterizing physical relationships between the sensible, latent and ground heat flux at the Earth surface is of crucial importance in studying the global energy, water, and carbon cycles. Here we demonstrate an analogy between the daily mean turbulent heat transfer in the atmospheric surface layer and conductive-advective heat transfer in soil. This finding, in conjunction with temperature continuity at the land–atmosphere interface, uncovers a physical linkage between sensible and ground heat flux. The proposed relationship and its ramification for estimation of latent heat flux are validated based on daily averaged data from six AmeriFlux eddy covariance stations in North America over a wide range of land covers and climate regimes.",

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AU - Sadeghi, Seyyed Morteza

AU - Ebtehaj, A.

AU - Guala, M.

AU - Wang, J.

PY - 2021/11

Y1 - 2021/11

N2 - Characterizing physical relationships between the sensible, latent and ground heat flux at the Earth surface is of crucial importance in studying the global energy, water, and carbon cycles. Here we demonstrate an analogy between the daily mean turbulent heat transfer in the atmospheric surface layer and conductive-advective heat transfer in soil. This finding, in conjunction with temperature continuity at the land–atmosphere interface, uncovers a physical linkage between sensible and ground heat flux. The proposed relationship and its ramification for estimation of latent heat flux are validated based on daily averaged data from six AmeriFlux eddy covariance stations in North America over a wide range of land covers and climate regimes.

AB - Characterizing physical relationships between the sensible, latent and ground heat flux at the Earth surface is of crucial importance in studying the global energy, water, and carbon cycles. Here we demonstrate an analogy between the daily mean turbulent heat transfer in the atmospheric surface layer and conductive-advective heat transfer in soil. This finding, in conjunction with temperature continuity at the land–atmosphere interface, uncovers a physical linkage between sensible and ground heat flux. The proposed relationship and its ramification for estimation of latent heat flux are validated based on daily averaged data from six AmeriFlux eddy covariance stations in North America over a wide range of land covers and climate regimes.

KW - Bulk heat transfer

KW - Surface energy balance

KW - Turbulent eddy diffusion

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Physical connection of sensible and ground heat flux

Abstract

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Keywords

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