Detecting Near-Surface Coherent Structure Characteristics Using Wavelet Transform with Different Meteorological Elements |
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Authors: | FANG Ren-zhi WANG Ye LAN Chang-xing ZHANG Zhi-jie ZHENG Dan LAN Guang-dong WANG Bao-min |
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Affiliation: | 1. School of Atmospheric Sciences, Sun Yat-sen University, Guangzhou 510275 China; 2. Guangdong Province Key Laboratory for Climate Change and Natural Disaster Studies, Guangzhou 510275 China; 3. Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai), Zhuhai, Guangdong 51900 China; 4. Laboratory for Atmospheric Research, Department of Civil and Environmental Engineering, Washington State University, Pullman, WA, USA; 5. Guangdong Provincial Field Observation and Research Station for Climate Environment and Air Quality Change in the Pearl River Estuary, Guangzhou 510275 China |
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Abstract: | In the present study, three wavelet basis functions, i.e., Mexican-hat, Morlet, and Wave, were used to analyze the atmospheric turbulence data obtained from an eddy covariance system in order to determine the effect of six meteorological elements including three-dimensional wind speed, temperature, and CO2 and H2O concentrations on the time scale of coherent structures. First, we used the degree of correlation between original and reconstructed waveforms to test the three wavelets'performance when determining the time scale of coherent structures. The Wave wavelet's reconstructed coherent structure signal best matched the original signal; thus, it was used to further analyze the time scale, number, and time cover of the meteorological elements. We found similar results for all elements, though there was some internal variation, suggesting that coherent structures are not inherently dependent on these elements. Our results provide a basis for proper coherent structure detection in atmospheric turbulence and improve the understanding of similarities and differences between coherent structure characteristics of different meteorological elements, which is helpful for further research into atmospheric turbulence and boundary layers. |
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Keywords: | coherent structure atmospheric turbulence atmospheric boundary layer wavelet transform |
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