Eddy-covariance CO2 flux measurements using open- and closed-path CO2 analysers: Corrections for analyser water vapour sensitivity and damping of fluctuations in air sampling tubes (original) (raw)
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References
- Anderson, D. E. and Verma, S. B.: 1985, ‘Turbulence Spectra of CO2, Water Vapor, Temperature and Wind Velocity Fluctuations over a Crop Surface’, Boundary-Layer Meteorol. 33, 1–14.
Google Scholar - Brach, E. J., Desjardins, R. L., and StAmour, G. T.: 1981, ‘Open Path CO2 Analyser’, J. Phys. E. (Sci. Instrum.) 14, 1415–1419.
Google Scholar - Denmead, O. T.: 1969, ‘Comparative Micrometeorology of a Wheat Field and a Forest of _Pinus radiata_’, Agric. Meteorol. 6, 357–371.
Google Scholar - Denmead, O. T. and Bradley, E. F.: 1985, ‘Flux-Gradient Relationships in a Forest’, in B. A. Hutchison and B. B. Hicks (eds.), The Forest Atmosphere Interaction, pp. 421–442, D. Reidel Publishing Co., Dordrecht, The Netherlands.
Google Scholar - Jones, E. P., Ward, T. V., and Zwick, H. H.: 1978, ‘A Fast Response Atmospheric CO2 Sensor for Eddy Correlation Flux Measurements’, Atmos. Environ, 12, 845–851.
Google Scholar - Kaimal, J. C., Wyngaard, J. C., Izumi, Y., and Coté, O. R.: 1972, ‘Spectral Characteristics of Surface-Layer Turbulence’, Quart. J. Roy. Meteorol. Soc. 98, 563–589.
Google Scholar - Kays, W. M. and Crawford, M. E.: 1980, Convective Heat and Mass Transfer, McGraw-Hill Book Co., New York.
Google Scholar - Leuning, R., Denmead, O. T., Lang, A. R. G., and Ohtaki, E.: 1982, ‘Effects of Heat and Water Vapor Transport on Eddy Covariance Measurement of CO2 Fluxes’, Boundary-Layer Meteorol. 23, 209–222.
Google Scholar - Moore, C. J.: 1986, ‘Frequency Response Corrections for Eddy Correlation Systems’, Boundary-Layer Meteorol. 37, 17–35.
Google Scholar - Ohtaki, E.: 1985, ‘On the Similarity in Atmospheric Fluctuations of Carbon Dioxide, Water Vapour and Temperature over Vegetated Fields’, Boundary-Layer Meteorol. 32, 25–37.
Google Scholar - Ohtaki, E. and Matsui, M.: 1982, ‘Infra-Red Device for Simultaneous Measurement of Atmospheric Carbon Dioxide and Water Vapour’, Boundary-Layer Meteorol. 24, 109–119.
Google Scholar - Parkinson, K. J.: 1971, ‘Carbon Dioxide Infra-Red Gas Analysis’, J. Exp. Bot. 22, 169–176.
Google Scholar - Philip, J. R.: 1963a, ‘The Theory of Dispersal during Laminar Flow in Tubes. II’, Aust. J. Phys. 16, 300–310.
Google Scholar - Philip, J. R.: 1963b, ‘The Damping of a Fluctuating Concentration by Continuous Sampling through a Tube’, Aust. J. Phys. 16, 454–463.
Google Scholar - Raupach, M. R.: 1979, ‘Anomalies in Flux-Gradient Relationships over Forest’, Boundary-Layer Meteorol. 16, 467–486.
Google Scholar - Thom, A. S., Stewart, J. B. Oliver, H. R., and Gash, J. H. C.: 1975, ‘Comparison of Aerodynamic and Energy Budget Estimates of Fluxes over a Pine Forest’, Quart. J. Roy. Meteorol. Soc. 101, 93–105.
Google Scholar - Webb, E. K., Pearman, G. I., and Leuning, R.: 1980, ‘Correction of Flux Measurements for Density Effects due to Heat and Water Vapour Transfer’, Quart. J. Roy. Meteorol. Soc. 106, 85–100.
Google Scholar