Spectra and Cospectra of Turbulence in an Internal Boundary Layer over a Heterogeneously Irrigated Cotton Field

JIANG Haimei; LIU Shuhua; LIU Heping

doi:10.1007/s13351-013-0208-6

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Journal of Meteorological Research > 2013 > 27(2): 233-248

Spectra and Cospectra of Turbulence in an Internal Boundary Layer over a Heterogeneously Irrigated Cotton Field

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Funds:
Supported by the National Natural Science Foundation of China (40905004), Natural Science Foundation for Higher Education Institutions of Jiangsu Province (11KJB170005), Scientific Research Starting Foundation of Nanjing University of Information Science & Technology (20100373), Research Plan for CSC Scholarship Program, and the City University of Hong Kong (Grant 8780046 and SRG 7001038).
doi: 10.1007/s13351-013-0208-6

Abstract

During the Energy Balance Experiment, patch-to-patch irrigation generated gradients in soil moisture in a north-south oriented cotton field. An internal boundary layer (IBL) developed as a result of strong horizontal advection from relatively dry upstream patches to relatively wet downstream patches associated with the prevailing northerly winds. This generated large eddies of multiple sizes, which had significant influences on the structure of turbulence in the IBL. The power spectra and cospectra of wind speed, temperature, humidity, and energy fluxes measured at two heights within the IBL are presented and used to investigate the influence of the IBL on surface layer turbulence. The spectra and cospectra were greatly enhanced by external disturbances at low frequencies. The peak frequencies of these disturbances did not change with height. The spectra and cospectra typically converged and were parallel to the Kansas spectrum at high frequencies (in the inertial subrange). A clear gap in the spectra of horizontal wind velocity existed at intermediate frequencies when the surface layer was stable. The results indicate that large eddies that originated in the upstream convective boundary layer had considerable impacts on the spectra and cospectra of surface layer turbulence. The influence of these large eddies was greater (1) when the IBL was well-developed in the near surface layer than when the IBL did not exist, (2) at higher levels than at lower levels, and (3) when the atmospheric surface layer (ASL) was unstable than when the ASL was stable. The length scales of these large eddies were consistent with the dominant scales of surface heterogeneity at the experiment site.
- internal boundary layer,
- spectra,
- cospectra,
- patch-to-patch irrigation
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JIANG Haimei, LIU Shuhua, LIU Heping. Spectra and Cospectra of Turbulence in an Internal Boundary Layer over a Heterogeneously Irrigated Cotton Field[J]. J. Meteor. Res., 2013, 27(2): 233-248. doi: 10.1007/s13351-013-0208-6

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Manuscript History

Received: 30 April 2012

Revised: 05 December 2012

Final form: 30 April 2013

Published online:

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Spectra and Cospectra of Turbulence in an Internal Boundary Layer over a Heterogeneously Irrigated Cotton Field

1. School of Atmospheric Physics,Nanjing University of Information Science & Technology,Nanjing 210044,China;
Department of Atmospheric and Oceanic Sciences,School of Physics,Peking University,Beijing 100871,China;
Department of Civil and Environmental Engineering,Washington State University,Pullman,WA 99164,USA

Received: 30 April 2012

Funds: Supported by the National Natural Science Foundation of China (40905004), Natural Science Foundation for Higher Education Institutions of Jiangsu Province (11KJB170005), Scientific Research Starting Foundation of Nanjing University of Information Science & Technology (20100373), Research Plan for CSC Scholarship Program, and the City University of Hong Kong (Grant 8780046 and SRG 7001038).

Abstract: During the Energy Balance Experiment, patch-to-patch irrigation generated gradients in soil moisture in a north-south oriented cotton field. An internal boundary layer (IBL) developed as a result of strong horizontal advection from relatively dry upstream patches to relatively wet downstream patches associated with the prevailing northerly winds. This generated large eddies of multiple sizes, which had significant influences on the structure of turbulence in the IBL. The power spectra and cospectra of wind speed, temperature, humidity, and energy fluxes measured at two heights within the IBL are presented and used to investigate the influence of the IBL on surface layer turbulence. The spectra and cospectra were greatly enhanced by external disturbances at low frequencies. The peak frequencies of these disturbances did not change with height. The spectra and cospectra typically converged and were parallel to the Kansas spectrum at high frequencies (in the inertial subrange). A clear gap in the spectra of horizontal wind velocity existed at intermediate frequencies when the surface layer was stable. The results indicate that large eddies that originated in the upstream convective boundary layer had considerable impacts on the spectra and cospectra of surface layer turbulence. The influence of these large eddies was greater (1) when the IBL was well-developed in the near surface layer than when the IBL did not exist, (2) at higher levels than at lower levels, and (3) when the atmospheric surface layer (ASL) was unstable than when the ASL was stable. The length scales of these large eddies were consistent with the dominant scales of surface heterogeneity at the experiment site.

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Spectra and Cospectra of Turbulence in an Internal Boundary Layer over a Heterogeneously Irrigated Cotton Field

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