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Tellus A: Dynamic Meteorology and Oceanography Volume 50, 1998 - Issue 3
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Original Articles

Comparison of three land-surface schemes with the Fourier amplitude sensitivity test (FAST)

Ernesto Rodrìguez-CaminoInstituto Nacional de Meteorologìa, Madrid, Spain;
&
Roni AvissarDepartment of Environmental Sciences, Rutgers University, New Brunswick, New Jersey, USA
Pages 313-332 | Received 20 May 1997, Accepted 08 Dec 1997, Published online: 15 Dec 2016

References

  • Avissar, R., Avissar, P., Mahrer, Y. and Bravdo, B. A. 1985. A model to simulate response of plant stomata to environmental conditions. Agric. For. Meteor. 34, 21–29.
  • Avissar, R. and Mahrer, Y. 1988. Mapping frost-sensitive areas with a three dimensional local scale numerical model. Part I: Physical and numerical aspects. J. Appl. Meteorol. 27, 400–413.
  • Avissar, R. and Pielke, R. A. 1989. A parameterization of heterogeneous land surfaces for atmospheric numerical models and its impact on regional meteorology. Mon. Wea. Re v. 117, 2113–2136.
  • Avissar, R. 1991. A statistical-dynamical approach to parameterize subgrid-scale land-surface heterogeneity in climate models.In: Land surface-atmosphere interactions for climate models: observations, models, and analyses. E. F. Wood, Ed. Kluwer, 155-178.
  • Avissar, R. 1992. Conceptual aspects of a statistical-dynamical approach to represent landscape subgridscale heterogeneities in atmospheric models. J. Geophys. Res. 97, 2729–2742.
  • Bougeault, P., Bret. B., Lacarrére, P. and Noilhan, J. 1991. An experiment with an advanced surface para-meterization in a meso-beta-scale. Part II: The 16 June 1986 simulation. Mon. Wea. Re v. 119, 2374–2392.
  • Braud, I., Noilhan, J., Bessemoulin, P., Mascart, P., Haverkamp, R. and Vauclin, M. 1993. Bare-ground surface heat and water exchanges under dry conditions: observations and parameterization. Boundary-Layer Meteorol. 66, 173–200.
  • Bringfelt, B. 1996. Test of a new land-surface treatment in HIRLAM. HIRLAM technical report no. 23, Norrk-oping, Sweden (available from B. Bringfeldt, SMHI, S-60119 Norrköping, Sweden).
  • Carson, D. J. and Sangster, A. B. 1981. The influence of land-surface albedo and soil moisture on general circulation model simulations. GARPIWCRP: research activities in atmospheric and oceanic modeling, I. D. Rutherford, Eds. Numerical Experimentation Programme, Report no. 2,5.14–521.
  • Charney, J. G., Quirk, W. J., Chow, S. H. and Korn-field, J. 1977. A comparative study of the effects of albedo on drought in semi-arid regions. J. Atmos. Sci. 34, 1366–1385.
  • Chervin, R. M. 1978. Response of the NCAR general circulation model to change land-surface albedo. Report of the JOG Study Conference on Climate models: petformance, intercomparison and sensitivity studies, Washington, DC, GARP Publ. Series, no. 22, Vol. 1, 563-581.
  • Clapp, R. B. and Hornberger, G. M. 1978. Empirical equations for some soil hydraulic properties. Water Resour. Res. 14, 601–604.
  • Collins, D. and Avissar, R. 1994. An evaluation with the Fourier amplitude sensitivity test (FAST) of which land-surface parameters are of greatest importance for atmospheric modeling. J. Climate 7, 681–703.
  • Cukier, R. I., Fortuin, C. M., Shuler, K. E., Petschek, A. G. and Schaibly, J. H. 1973. Study of the sensitivity of coupled reaction systems to uncertainties in rate coefficients. I. Theory. J. Chem. Phys. 59, 3873–3878.
  • Cukier, R. I., Schaibly, J. H. and Shuler, K. E. 1975. Study of the sensitivity of coupled reaction systems to uncertainties in rate coefficients. I. Theory. J. Chem. Phys. 59, 873–3878.
  • Cukier R. I., Levine, H. B. and Shuler, K. E. 1978. Nonlinear sensitivity analysis of multiparameter model systems. J. Comp. Phys. 26, 1–42.
  • Dickinson, R. E. 1984. Modelling evapotranspiration for three-dimensional global climate models. Climate process and climate sensitivity. Geophysical Monograph 29, Maurice Ewing Volume 5, J. E. Hansen and T. Takahashi, Eds. American Geophysical Union, Washington, DE., 58-72.
  • Dickinson, R. E. and Henderson-Sellers, A. 1988. Model-ling tropical deforestation, a study of GCM land-surface parameterizations. Quart. J. R. Met. Soc. 114, 439–462.
  • Dickinson, R. E. 1993. Biosphere-atmosphere transfer scheme (BATS) version le as coupled to the NCAR community climate model, NCAR Technical Note/ NCAR TN-387 +STR. National Center for Atmospheric Research, Boulder, Colorado (available from R. E. Dickinson, Department of Atmospheric Physics, University of Arizona, Tucson, AZ).
  • Famiglietti, J. S. and Wood, E. F. 1991. Evapotranspir-ation and runoff from large land areas: land surface hydrology for atmospheric general circulation models. Surv. Geophys. 12, 179–204.
  • FAO/UNESCO. 1974. Soil map of the world. Food and Agriculture Organization (FAO), Paris, France.
  • Garratt, J. R. 1992. The atmospheric boundary layer. Cambridge Atmospheric and Space Science Series. Cambridge University Press, Cambridge, U.K., 316 pp.
  • Giard, D. and Bazile, E. 1997. Soil moisture assimilation in a global variable resolution NWP model. Proc. 13th Conference on Hydrology, 2-7 February 1997, Long-Beach, California, AMS.
  • Giordani, H. 1993. Experiences de validation unidimensionelles du schema de surface N P89 aux normes ARPEGE sur 3 sites de la campagne EFEDA 91. Centre National de Recherche Meteorologique, Note de Centre no. 24, 20 pp. + Figures (avaialable from Meteo-France, Toulouse, France).
  • Henderson-Sellers, A. 1993. A factorial assessment of the sensitivity of the BATS land-surface parameterization scheme. J. Climate 6, 227–247.
  • Henderson-Sellers, A., Yang, Z. L. and Dickinson, R. E. 1993. The project for intercomparison of land-surface parameterization schemes. Bull. Amer. Met. Soc. 74, 1335–1349.
  • Henderson-Sellers, A., Pitman, A. J., Love, P. K., Iranne-jad, P. and Chen, T. H. 1995. The project for inter-comparison of land-surface parameterization schemes (PILPS): Phases 2 and 3. Bull. Amer. Met. Soc. 76, 489–503.
  • Henderson-Sellers, A. 1996a. Soil moisture: a critical focus for global change studies. Global and Planetary Change 13, 3–9.
  • Henderson-Sellers, A. 1996b. Soil moisture simulation: achievements of the RICE and PILPS intercomparison workshop and future directions. Global and Planetary Change 13, 99–115.
  • Henderson-Sellers, A. 1996c. Soil moisture: the land-surface “connexion”. In GOALS, in GOALSymposium, pp. 107–110, American Meteorological Society.
  • Koster, R. D. and Suarez, M. J. 1992. A comparative analysis of two land surface heterogeneity representations. J. Climate 5, 1379–1390.
  • Jacquemin, B. and Noilhan, J. 1989. A study of rainfall interception using a land surface parameterization for mesoscale meteorological models. J. Appl. Meteor. 28, 1282–1302.
  • Jarvis, P. G. 1976. The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philos. Trans. Roy. Soc. London, Ser. B 273, 593–610.
  • Li, B. and Avissar, R. 1994. The impact of spatial variability of land-surface characteristics on land-surface heat fluxes. J. Climate 7, 527–537.
  • Liu, Y. and Avissar, R. 1996. Sensitivity of shallow convective precipitation induced by land-surface heteorogeneities to dynamical and cloud microphysical parameters. J. Geophys. Res. 101, 7477–7497.
  • Mahfouf, J. F. and Jacquemin, B. 1989. A study of rainfall interception using a land surface parameterization for mesoscale meteorological models. J. of Appl. Meteor. 28, 1282–1302.
  • Mahfouf, J. F., Manzi, A. O., Noilhan, J., Giordani, H., Deque, M. 1995. The land surface squeme ISBA within the Meteo-France climate model ARPEGE. Part I: Implementation and preliminary results. J. Climate 8, 2039–2057.
  • Manzi, A. O. and Planton, S. 1994. Implementation of the ISBA parameterization scheme for land surface in a GCM — an annual cycle experiment. J. Hydrol. 155, 353–387.
  • McCumber, M. C. and Pielke, R. A. 1981. Simulation of the effects of surface fluxes of heat and moisture in a mesoscale numerical model: I Soil layer. J. Geophys. Res. 86, 9929–9938.
  • McKay, M. D., Beckman, R. J. and Conover, W. J. 1979. A comparison of three methods for selecting values of input variables in the analysis of output from a computer code. Technometrics 21, 239–245.
  • McRae, G. J., Tilden, J. W. and Seinfeld, J. H. 1982. Global sensitivity analysis — a computational implementation of the Fourier amplitude sensitivity test (FAST), Computer Chem. Eng. 6, 15–25.
  • Mintz, Y. 1984. The sensitivity of numerically simulated climates to land-surfaces conditions.In: The global climate, J. Houghton, Ed. Cambridge University Press, 79-105.
  • Miyakoda, K. and Strikler, R. F. 1981: Cumulative results of extended forecast experiments. Part III: Precipitation. Mon. Wea. Rev. 109, 830–842.
  • Noilhan, J. and Planton, S. 1989. A simple parameterization of land surface processes for meteorological models. Mon. Wea. Rev. 117, 536–549.
  • Noilhan, J. and Lacarrere, P. 1995. GCM gridscale evap-oration from mesoscale modelling. J. Climate 8, 206–223.
  • Noilhan, J., Mahfouf, J. F., Manzi, A. and Planton, S. 1993. Validations of land-surface parameterizations: Developments and experience and the French weather service. Proc. Seminar EC MWF, 7-11 September 1992, ECMWF Reading, UK, 125-158.
  • Pielke, R. A. 1984. Mesoscale meteorological modeling. Academic Press, New York, 612 pp.
  • Rowntree, P. R. and Bolton, J. A. 1978. Experiments with soil moisture anomalies over Europe. The GARP programme on numerical experimentation: research activities in atmospheric and oceanic modeling. R. Asselin, Ed. Report no. 18, WMO/ICSU, 63 pp.
  • Shukla, J. and Mintz, Y. 1982. Influence of land-surface evapotranspiration on the earth’s climate. Science 215, 1498–1501.
  • Sud, Y. C., Shukla, J. and Mintz, Y. 1988. Influence of land-surface roughness on atmospheric circulation and precipitation: A sensitivity study with a general circulation model. J. Appl. Meteor. 27, 1036–1054.
  • Sud, Y. C., Sellers, P. J., Mintz, Y., Chou, M. D., Walker, G. K. and Smith, W. E. 1990. Influence of the biosphere on the global circulation and hydrological cycle — A GCM simulation experiment. Agric. For. Meteor. 52, 1036–1054.
  • Thompson, N., Barrie and Ayles, M. 1981. The Meteorological Office rainfall and evaporation calculation system: MORECS. Hydrological Memorandum 45, 69 pp.
  • Uliasz, M. 1988. Application of the FAST method to analyze the sensitivity — uncertainty of a Lagrangian model of sulphur transport in Europe. Water, Air and Soil Pollution 40,33–49.
  • U.S. Department of Agriculture. 1951. Soil survey manual. US Dep. Agr. Handbook 18, 1–503.
  • Walter, J. and Rowntree, P. R. 1977. The effect of soil moisture on circulation and rainfall in a tropical model. Quart. J. Roy. Meteor. Soc. 103, 29–46.
  • Wilson, M. F. 1984. The construction and use of land surface information in a general circulation climate model. Unpublished PhD thesis, University of Liverpool, United Kigdom, 346 pp.
  • Wilson, M. F. and Henderson-Sellers, A. 1985. A global archive of land cover and soils data sets use in general circulation models. J. Climate 5, 119–143.
  • Wilson, M. F., Henderson-Sellers, A., Dickinson, R. E. and Kennedy, P. J. 1987. Investigation of the sensitivity of the land-surface parameterization of the NCAR community climate model in regions of tundra vegetation. J. Climate 7, 319–343.

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