Skip to main content
SpringerLink
Log in

Determination of the Turbulent Temperature–Humidity Correlation from Scintillometric Measurements

  • Published:
Boundary-Layer Meteorology Aims and scope Submit manuscript

Abstract

We report on the investigation and successful application of the bichromatic correlation of optical and microwave signals for determining the area-averaged correlation of temperature–humidity fluctuations. The additional technical effort is marginal compared to the common ‘two-wavelength method’, which has (in contrast) the restriction that only two of the three relevant meteorological structure parameters can be deduced. Therefore, in the past, it was often assumed that the turbulent humidity and temperature fluctuations are perfectly positively or negatively correlated. However, as shown in this study, over non-homogeneous terrain when the flow conditions are not ideal, this assumption is questionable. The measurements were analysed statistically, and were compared to in situ measurements of the Bowen ratio Bo and the correlation of temperature–humidity fluctuations using eddy-covariance techniques. The latter is in good agreement to that derived by scintillometry. We found that the correlation is not ±1 but as low as −0.6 for Bo smaller than −2, and up to 0.8 for Bo larger than 1.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • E. L. Andreas (1987) ArticleTitle‘On the Kolmogorov constants for the temperature–humidity Cospectrum and the Refractive Index Spectrum’ J. Atmos. Sci. 44 2399–2406 Occurrence Handle10.1175/1520-0469(1987)044<1912:SMIADB>2.0.CO;2

    Article  Google Scholar 

  • E. L. Andreas (1988) ArticleTitle‘Estimating C 2 n over Snow and Sea Ice from Meteorological Data’ J. Opt. Soc. Amer. A 5 481–495

    Google Scholar 

  • E. L. Andreas (1989) ArticleTitle‘Two-wavelength Method of Measuring Path-averaged Turbulent Surface Heat Fluxes’ J. Atmos. Ocean. Tech. 6 280–292

    Google Scholar 

  • E. L. Andreas (1990) ArticleTitle‘Three-wavelength Method of Measuring Path-averaged Turbulent Heat Fluxes’ J. Atmos. Ocean. Tech. 7 801–814

    Google Scholar 

  • E. L. Andreas R. J. Hill J. R. Gosz D. I. Moore D. W. Otto A. D. Sarma (1998) ArticleTitle‘Statistics of Surface-layer Turbulence over Terrain with Metre-scale Heterogeneity’ Boundary-Layer Meteorol. 86 379–408

    Google Scholar 

  • Beyrich, F., Bange, J., Bernhofer, C., Foken, T., Hennemuth, B., Huneke, S., Kohsiek, W., Leps, J.-P., Lohse, H., Lüdi, A., Mauder, M. and Meijninger, W. M. L.: 2004, ‘Energy and Water Vapour Fluxes over a Heterogeneous Land Surface: The LITFASS-2003 Experiment’, in Proceedings of the 16th Symposium on Boundary Layers and Turbulence, Portland, Maine U.S.A.

  • F. Beyrich H. A. R. Bruin ParticleDe W. M. L. Meijninger W. Schipper H. Lohse (2002) ArticleTitle‘Results from One-year Continuous Operation of a Large Aperture Scintillometer over a Heterogeneous Land Surface’ Boundary-Layer Meteorol. 105 85–97 Occurrence Handle10.1023/A:1019640014027

    Article  Google Scholar 

  • J. L. Caccia M. Azouit J. Vernin (1987) ArticleTitle‘Wind and C 2 n Profiling by Single-star Scintillation Analysis’ Apple Opt. 26 1288–1294

    Google Scholar 

  • H. A. R. Bruin ParticleDe W. Kohsiek B. J. J. M. Hurk ParticleDen (1993) ArticleTitle‘A Verification of Some Methods to Determine the Fluxes of Momentum, Sensible Heat and Water Vapour using Standard Deviation and Structure Parameter of Scalar Meteorological Quantities’ Boundary-Layer Meteorol. 63 231–257 Occurrence Handle10.1007/BF00710461

    Article  Google Scholar 

  • A. E. Green M. S. Astill K. J. McAneney J. P. Nieveen (2001) ArticleTitle‘Path-averaged Surface Fluxes Determined from Infrared and Microwave Scintillometers’ Agric. For. Meteorol. 109 233–247 Occurrence Handle10.1016/S0168-1923(01)00262-3

    Article  Google Scholar 

  • A. E. Green S. R. Green M. S. Astill H. W. Caspari (2000) ArticleTitle‘Estimating Latent Heat Flux from a Vineyard Using Scintillometry’ J. Terr. Atmos. Ocean. Sci. 11 IssueID2 525–542

    Google Scholar 

  • R.J. Hill (1988) ArticleTitle‘Comparison of Scintillation Methods for Measuring the Inner Scale of Turbulence’ Appl. Opt. 27 2187–2193

    Google Scholar 

  • R. J. Hill (1989) ArticleTitle‘Implications of Monin-Obukhov Similarity Theory for Scalar Quantities’ J. Atmos. Sci. 46 2236–2244

    Google Scholar 

  • R. J. Hill (1997) ArticleTitle‘Algorithms for Obtaining Atmospheric Surface-layer Fluxes from Scintillation Measurements’ J. Atmos. Ocean. Tech. 14 456–467

    Google Scholar 

  • R. J. Hill R. A. Bohlander S. F. Clifford R. W. McMillan J. T. Priestley W. P. Schoenfeld (1988) ArticleTitle‘Turbulence-induced Millimeter-wave Scintillation Compared with Micrometeorological Measurements’ IEEE Trans. Geosci. Remote Sens. 26 330–342

    Google Scholar 

  • R. J. Hill S. F. Clifford R. S. Lawrence (1980) ArticleTitle‘Refractive-index and Absorption Fluctuations in the Infrared Caused by Temperature, Humidity, and Pressure Fluctuations’ J. Opt. Soc. Amer. 70 1192–1205

    Google Scholar 

  • R. J. Hill R. J. Lataitis (1989) ArticleTitle‘Effect of Refractive Dispersion on the Bichromatic Correlation of Irradiances for Atmospheric Scintillation’ Appl. Opt. 28 4121–4125

    Google Scholar 

  • A. Ishimaru (1978) Wave Propagation and Scattering in Random Media NumberInSeriesVol. 2 Academic Press New York, San Francisco 339

    Google Scholar 

  • W. Kohsiek A. J. Herben (1983) ArticleTitle‘Evaporation Derived from Optical and Radio-wave Scintillation’ Appl. Opt. 22 2566–2569

    Google Scholar 

  • Liebe, H. J., Hufford, G. A., and Cotton, M. G.: 1993,‘Propagation Modeling of Moist Air and Suspended Water/Ice Particles at Frequencies Below 1000 GHz’, in: AGARD 52nd Specialists’ Meeting of the Electromagnetic Wave Propagation Panel. Mallorca, Spain.

  • Lüdi, A.: 2002, ‘Determination of the Structure Constants of Temperature, Humidity and temperature–humidity by Scintillometry at two Wavelengths’, IAP Research Report 2002-13, Institute of Applied Physics, University of Bern, Bern, Switzerland. (in German), 8 pp.

  • A. Lüdi A. Magun (2005) ArticleTitle‘Refractivity Structure Constant and Length Scales from mm Wave Propagation in the Stably Stratified Troposphere’ J. Atmos. Sol. Terr. Phys. 67 435–447

    Google Scholar 

  • Martin, L., Mätzler, C., and Kämpfer, N.: 2000, ‘Transmission Measurements at 94 GHz to Validate the Liebe Model’, in AP 2000 Millennium Conference on Antennas and Propagation, SP-444, ESA Publication Division. Davos, Switzerland.

  • W. M. L. Meijninger A. E. Green O. K. Hartogensis W. Kohsiek J. C. B. Hoedjes R. M. Zuurbier H. A. R. Bruin ParticleDe (2002a) ArticleTitle‘Determination of Area-averaged Water Vapour Fluxes with Large Aperture and Radio Wave Scintillometers over a Heterogeneous Surface Flevoland Field Experiment’ Boundary-Layer Meteorol. 105 63–83

    Google Scholar 

  • W. M. L. Meijninger O. K. Hartogensis W. Kohsiek J. C. B. Hoedjes R. M. Zuurbier H. A. R. Bruin ParticleDe (2002b) ArticleTitle‘Determination of Area-averaged Sensible Heat Fluxes with a Large Aperture Scintillometer over a Heterogeneous Surface – Flevoland Field Experiment’ Boundary-Layer Meteorol. 105 37–62

    Google Scholar 

  • A. F. Moene W. M. L. Meijninger O. K. Hartogensis B. G. Heusinkveld H. A. R. Bruin Particlede (2005) ‘The Effects of Finite Accuracy in the Manufacturing of large Aperture Scintillometers’ Wageningen University, Meteorology and Air Quality Group Wageningen, The Netherlands 19

    Google Scholar 

  • J. P. Nieveen A. E. Green W. Kohsiek (1998) ArticleTitle‘Using a Large-aperture Scintillometer to Measure Absorption and Refractive Index Fluctuations’ Boundary-Layer Meteorol. 87 101–116 Occurrence Handle10.1023/A:1000808422023

    Article  Google Scholar 

  • Ochs, G. R. and Hill, R. J.: 1982, ‘A Study of Factors Influencing the Calibration of Optical C 2 n Meters’, NOAA Tech. Memo. ERL WPL-106, NOAA, 24 pp.

  • G. R. Ochs T. I. Wang (1978) ArticleTitle‘Finite Aperture Optical Scintillometer for Profiling Wind and C 2 n Appl. Opt. 17 3774–3778

    Google Scholar 

  • G. T. Phelps S. Pond (1971) ArticleTitle‘Spectra of the Temperature and Humidity Fluctuations and the Turbulent Fluxes of Momentum, Moisture and Sensible Heat over the Ocean’ J. Atmos. Sci. 28 918–928 Occurrence Handle10.1175/1520-0469(1971)028<0918:SOTTAH>2.0.CO;2

    Article  Google Scholar 

  • J. T. Priestley R. J. Hill (1985) ArticleTitle‘Measuring High-frequency Humidity, Temperature and Radio Refractive Index in the Surface Layer’ J. Atmos. Ocean. Tech. 60 233–251

    Google Scholar 

  • V. I. Tatarskii (1971) The Effects of the Turbulent Atmosphere on Wave Propagation Isreal Program for Scientific Translation Ltd. Jerusalem 472

    Google Scholar 

  • T. I. Wang G. R. Ochs S. F. Clifford (1978) ArticleTitle‘A Saturation-resistant Optical Scintillometer to Measure C 2 n J. Opt. Soc. Amer. 68 334–338

    Google Scholar 

  • M. L. Wesely E. C. Alcaraz (1973) ArticleTitle‘Diurnal Cycles of the Refractive Index Structure Function Coefficient’ J. Geophys. Res. 78 6224–6232

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Institute of Applied Physics, University of Bern, 3012, Bern, Switzerland

    Andreas Lüdi & Christian Mätzler

  2. Meteorological Observatory Lindenberg, German Meteorological Service (DWD), 15864, Lindenberg, Germany

    Frank Beyrich

Authors
  1. Andreas Lüdi
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. Frank Beyrich
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. Christian Mätzler
    View author publications

    You can also search for this author in PubMed Google Scholar

Corresponding author

Correspondence to Andreas Lüdi.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Lüdi, A., Beyrich, F. & Mätzler, C. Determination of the Turbulent Temperature–Humidity Correlation from Scintillometric Measurements. Boundary-Layer Meteorol 117, 525–550 (2005). https://doi.org/10.1007/s10546-005-1751-1

Download citation

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/s10546-005-1751-1

Keywords

Search

Navigation