On the surface fluxes characteristics and roughness lengths at Zhongshan station, Antarctica

Over Antarctica, surface fluxes play an important role in the local atmospheric dynamical processes. To reveal the surface fluxes characteristics and aerodynamic and thermal roughness lengths over Zhongshan station, Antarctica, this paper analyzes the data observed at the station during 3 March 2008...

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Bibliographic Details
Published in:International Journal of Digital Earth
Main Authors: Changwei Liu, Yubin Li, Qinghua Yang, Linlin Wang, Xianqiao Wang, Shimin Li, Zhiqiu Gao
Format: Article in Journal/Newspaper
Language:English
Published: Taylor & Francis Group 2019
Subjects:
antarctica
zhongshan station
turbulent momentum flux
sensible heat flux
aerodynamic roughness length
thermal roughness length
Mathematical geography. Cartography
GA1-1776
Zhongshan
Zhongshan Station
Antarc*
Antarctica
Online Access:https://doi.org/10.1080/17538947.2017.1335804
https://doaj.org/article/91cd08284c1c4ff296cd2380f07a7387
Description
Summary:Over Antarctica, surface fluxes play an important role in the local atmospheric dynamical processes. To reveal the surface fluxes characteristics and aerodynamic and thermal roughness lengths over Zhongshan station, Antarctica, this paper analyzes the data observed at the station during 3 March 2008 through 15 February 2009. It is found that easterlies dominated this site throughout the whole year, with a maximum (average) speed of 25 (5.6) m s−1 at 3.9 m height, and the annual maximum (minimum) surface temperature reached 291.05 (230.05) K, while the annual maximum (minimum) air-specific humidity was 4.1 (0.05) g/kg at 3.9 m height. The maximum (minimum) values of seasonal mean temperature, humidity, each radiation components, sensible and latent heat flux occurred in summer (winter), while for the seasonal averaged wind speed and τ the minimums (maximums) appeared in summer (autumn). After comparing with a partially linear regression method for aerodynamic roughness length and four previous equations that derive thermal roughness length from surface Reynolds number, constant values of aerodynamic roughness length as 3.6 × 10−3 m and thermal roughness length as 1.2 × 10−4 m at this site were validated by using the other three level observations and suggested for future studies.

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