SEARCH

SEARCH BY CITATION

References

  • Allison, C. E., R. J. Francey, B. A. J. Meijer, Recommendations for the reporting of stable isotope measurements of carbon and oxygen in CO2 gas, Report of International Atomic Energy Agency Consultants Meeting on Stable Isotope Standards and Intercalibration, 1–3 December 1993Int. At. Energy Agency, Vienna, 1994a.
  • Allison, C. E., R. J. Francey, R. L. Langenfelds, R. L. Welch, Comparison of high precision Cape Grim CO2 stable isotope measurements using two mass spectrometers, Baseline Atmospheric Program (Australia) 1991C. Dick, J. L. Gras, 1019, Bur. of Meteorol. and CSIRO Div. of Atmos. Res., Melbourne Austr., 1994b.
  • Baldocchi, D., C. Vogel, A comparative study of water vapour, energy and CO2 flux densities above and below a temperate broadleaf and boreal pine forest, Tree Physiol., 16, 516, 1996.
  • Betts, A. K., J. H. Ball, A. C. M. Beljaars, M. J. Miller, P. A. Viterbo, The land-surface atmosphere interaction: A review based on observational and global modelling perspectives, J. Geophys. Res., 101, 72097225, 1996.
  • Bonan, G. B., D. Pollard, S. L. Thompson, Effects of boreal vegetation on global climate, Nature, 359, 716718, 1992.
  • Cleugh, H. A., P. R. Briggs, M. R. Raupach, P. A. Coppin, Regional-scale heat and water vapour fluxes in an agricultural landscape: An evaluation of CBL methods at OASIS, Boundary Layer Meteorol, 2000.
  • Culf, A. D., G. Fisch, Y. Malhi, A. D. Nobre, A. de O. Marques, J. H. C. Gash, J. Grace, Carbon dioxide concentration measurements in the nocturnal boundary layer over Amazonian tropical forest, Hydrol. Earth Sys. Sci., 3, 3953, 1999.
  • Denmead, O. T., M. R. Raupach, F. X. Dunin, H. Cleugh, R. Leuning, Boundary layer budgets for regional estimates of scalar fluxes, Global Change Biol., 2, 255264, 1996.
  • Dixon, R. K., S. Brown, R. A. Houghton, A. M. Solomon, M. C. Trexler, J. Wisneliewski, Carbon pools of global forest ecosystems, Science, 263, 185190, 1994.
  • Efron, B., R. Tibshirani, Bootstrap methods for standard errors, confidence intervals, and other measures of statistical accuracy, Stat. Sci., 1, 5477, 1986.
  • , European Centre for Medium Range Weather Forecasts (ECMWF), The Description of the ECMWF/WCRP Level-III-A Global Atmospheric Data Archive, 23, ECMWF Data Services, Reading, U.K., 1995.
  • Farquhar, G. D., J. Lloyd, Carbon and oxygen isotope effects in the exchange of carbon dioxide between terrestrial plants and the atmosphere, Stable Isotopes in Plant Water RelationsJ. R. Ehleringer, A. E. Hall, G. D. Farquhar, 4770, Academic Press, San Diego, Calif., 1993.
  • Farquhar, G. D., J. Lloyd, J. A. Taylor, L. B. Flanagan, J. P. Syvertsen, K. T. Hubick, S. C. Wong, J. R. Ehleringer, Vegetation effects on the oxygen isotopic composition of atmospheric CO2, Nature, 363, 439443, 1993.
  • Francey, R. J., et al., Global Atmospheric Sampling Laboratory (GASLAB): Supporting and extending the Cape Grim trace gas programs, Baseline Atmospheric Program (Australia) 1993R. J. Francey, A. L. Dick and, N. Derek, Bur. of Meteorol. and CSIRO Div. of Atmos. Res., Melbourne, Victoria, 1996.
  • Garratt, J. R., The Atmospheric Boundary Layer, Cambridge Univ. Press, New York, 1992.
  • Grace, J., J. Lloyd, J. McIntyre, A. C. Miranda, P. Meir, H. S. Miranda, C. R. Nobre, J. Moncrieff, I. R. Wright, J. H. C. Gash, Fluxes of carbon dioxide and water vapour over an undisturbed tropical forest in south-west Amazonia, Global Change Biol., 1, 112, 1995.
  • Grace, J., J. Lloyd, A. C. Miranda, H. S. Miranda, J. H. C. Gash, Fluxes of carbon dioxide and water vapour over a C4 pasture in south western Amazonia, Aust. J. Plant Physiol., 25, 519530, 1998.
  • Hollinger, D. Y., et al., Initial assessment of multi-scale measurements of CO2 and H2O flux in the Siberian taiga, J. Biogeogr., 22, 425431, 1995.
  • Kalnay, E., et al., The NCEP/NCAR 40-year re-analysis project, Bull. Am. Meteorol. Soc., 77, 437471, 1986.
  • Keeling, C. D., The concentrations and isotopic abundances of atmospheric carbon dioxide in rural and marine air, Geochem. Cosmochim. Acta, 24, 277298, 1961.
  • Kelliher, F. M., et al., Evaporation from a central Siberian pine forest, J. Hydrol., 205, 279296, 1998.
  • Kelliher, F. M., et al., Carbon dioxide efflux from the floor of a central Siberian pine forest, Agric. For. Meteorol., 94, 217232, 1999.
  • Kinderman, A. J., J. G. Ramege, Computer generation of normal random variables, J. Amer. Stat. Assoc., 71, 893896, 1976.
  • Langenfelds, R. L., R. J. Francey, L. P. Steele, P. J. Fraser, S. A. Coram, M. Hayes, D. J. Beardsmore, M. P. Lucarelli, F. deSilva, Improved vertical sampling of the trace gas composition of the troposphere above Cape Grim since 1991, Baseline Atmospheric Program (Australia) 1993R. J. Francey, A. L. Dick, N. Derek, 4657, Bur. of Meteorol. and CSIRO Div. of Atmos. Res., Melbourne, Victoria, 1996a.
  • Langenfelds, R. L., R. J. Francey, L. P. Steele, M. P. Lucarelli, D. A. Spencer, S. A. Coram, K. Broadhurst, Flask sampling from Cape Grim overflights, in: Baseline Atmospheric Program (Australia) 1994–95R. J. Francey, A. L. Dick, N. Derek, 112117, Bur. of Meteorol. and CSIRO Div. of Atmos. Res., Melbourne, Victoria, 1996b.
  • Levy, P. E., A. Grelle, A. Lindroth, M. Mölder, P. G. Jarvis, B. Kruijt, J. B. Moncrieff, Regional-scale CO2 fluxes over central Sweden by a boundary layer budget method, Agric. Forest Meteorol., 98-9, 169180, 1999.
  • Lloyd, J., G. D. Farquhar, 13C discrimination by the terrestrial biosphere, Oecologia, 99, 201215, 1994.
  • Lloyd, J., J. Grace, A. C. Miranda, P. Mier, S.-C. Wong, H. Miranda, I. Wright, J. H. C. Gash, J. McIntyre, A simple calibrated model of Amazon rain forest productivity based on leaf biochemical properties, Plant Cell Environ., 18, 11291145, 1995.
  • Lloyd, J., et al., Vegetation effects on the isotopic composition of atmospheric CO2 at local and regional scales: Theoretical aspects and a comparison between rain forest in Amazonia and a boreal forest in Siberia, Aust. J. Plant Physiol., 23, 371399, 1996.
  • Margolis, H. A., M. G. Ryan, A physiological basis for biosphere-atmosphere interactions in the boreal forest: An overview, Tree Physiol., 17, 491499, 1997.
  • McDonald, R. A., CORONA- a success for space reconnaissance, a look into the Cold War, and a revolution for intelligence, Photogramm. Eng. Remote Sens., 61, 689720, 1995.
  • McNaughton, K. G., T. W. Spriggs, A mixed-layer model for regional evaporation, Boundary Layer Meteorol., 34, 243262, 1986.
  • Miranda, A. C., H. S. Miranda, J. Lloyd, J. Grace, R. J. Francey, P. Riggan, J. Brass, Fluxes of carbon dioxide and water vapour over cerrado vegetation in Central Brazil: An analysis using eddy correlation and stable isotope techniques, Plant Cell Environ., 20, 315328, 1997.
  • Munley, W. G., L. E Lipps, Estimation of regional evaporation for a tallgrass prairie from measurements of the properties of the atmospheric boundary layer, Water Resour. Res., 27, 225230, 1991.
  • Osmond, C. B., K. Winter, H. Ziegler, Functional significance of different pathways of CO2 fixation in photosynthesis, Encyclopedia of Plant Physiology Volume 12BA. Pearson, H. Zimmerman, 479547, Springer-Verlag, New York, 1982.
  • Randall, D. A., et al., A revised surface parameterisation (SiB2) for GCMs, Part III, The greening of the Colorado State University general circulation model, J. Clim., 9, 738763, 1996.
  • Raupach, M. R., Equilibrium evaporation and the convective boundary layer, Boundary Layer Meteorol., 96, 107141, 2000.
  • Raupach, M. R., J. J. Finnigan, Scale issues in boundary-layer meteorology: Surface energy balances in heterogeneous terrain, Hydrol. Proc., 9, 589612, 1995.
  • Raupach, M. R., O. T. Denmead, F. X. Dunin, Challenges in linking atmospheric CO2 concentrations to fluxes at local and regional scales, Aust. J. Bot., 40, 697716, 1992.
  • Rayner, K. D., I. D. Watson, Operational prediction of daytime mixed-layer heights for dispersion modelling, Atmos. Environ., 25A, 14271436, 1991.
  • Rosenfield, G. H., K. Fitzpatrick-Lins, A coefficient of agreement as a measure of thematic classification accuracy, Photogramm. Eng. Remote Sens., 52, 223227, 1986.
  • Schulze, E.-D., et al., Productivity of forests in the Eurosiberian boreal region and their potential to act as a carbon sink — a synthesis, Global Change Biol., 6, 703722, 1999.
  • Shvidenko, A., S. Nilsson, What do we know about the Siberian forests ?, Ambio, 23, 396404, 1994.
  • Snyder, J. P., Map Projections: A Working Manual U.S. Geol. Surv. Prof. Pap., 1395, 383, 1987.
  • Stewart, J. B., S. B. Verma, Comparison of surface fluxes and conductances and two contrasting sites within the FIFE area, J. Geophys. Res., 92, 86238628, 1992.
  • Stull, R. B., A fair weather cumulus cloud classification scheme for mixed-layer studies, J. Clim. Appl. Meteorol., 24, 4956, 1985.
  • Stull, R. B., An Introduction to Boundary Layer Meteorology, 666, Kluwer Acad., Norwell, Mass., 1988.
  • Tans, P. P., I. Y. Fung, T. Takahashi, Observational constraints on the global atmospheric CO2 budget, Science, 247, 14311438, 1990.
  • Valentini, R., P. De Angelis, G. Matteucci, R. Monaco, S. Dore, G. E. Scarascia Mugnozza, Seasonal net carbon dioxide exchange of a beech forest with the atmosphere, Global Change Biol., 2, 199208, 1996.
  • Valentini, R., S. Dore, G. Marchi, D. Mollicone, M. Panfyorov, C. Rebmann, O. Kolle, E.-D. Schulze, Carbon and water exchanges of two contrasting Central Siberia landscape types: regenerating forest and bog, Funct. Ecol., 14, 8796, 2000.
  • Wirth, C., et al., Above-ground biomass and structure of pristine Siberian Scots pine forests as controlled by competition and fire, Oecologia, 121, 6680, 1999.