Pingliang Land Surface Process & Severe Weather Research Station

Your Location: Home Page> Scientific research> Results> Publications>

Quantifying the parameters that control turbulent land–atmosphere energy exchange over the Dunhuang Gobi land surface, northwest China

Journal

Environal Earth Sciences

Authors

Chao Wang,Zhigang Wei,Zhenchao Li,Tiangui Xiao

Year

2015

Volume

Issue

Pages

4745-4750

Corresponding Author

Wei, ZG

Request Full Text

wzg@bnu.edu.cn

Keywords

Albedo; Roughness; Similarity functions; Gobi

Abstract

Land-atmosphere interactions in the northwest arid and semi-arid areas of China are important because of their influence on energy exchange at both regional and global scales. In this paper, regular meteorological observations, as well as flux eddy covariance methods, are used to measure land-atmosphere energy exchange. Experiments were conducted over the Dunhuang Gobi, a typical arid region of northwest China, during the summer of 2008. Surface fluxes were measured directly using an eddy-correlation system, while the vertical gradients of wind and temperature were also observed at four levels using a meteorological tower. Based on the observation data, the integral mean of surface albedo over the Gobi was found to be 0.238. In addition, the mean values of momentum, heat roughness lengths, and soil thermal conductivity were, 0.045, 0.005 cm, 0.199 and 0.201 W (m K)(-1), respectively. The Monin-Obukhov similarity functions for momentum and heat were analyzed and new empirical formulae were developed.

上一条： Observational study of surface spectral radiation and corresponding albedo over Gobi, desert, and bareloess surfaces in northwestern China 2018-10-11
下一条： Experimental study on location accuracy of a 3D VHF lightning-radiation-source locating network 2018-10-11