Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/american-meteorological-society/parameterization-of-the-urban-water-budget-with-the-submesoscale-soil-n0gUSqEQz8
References (70)
-
V. Masson (2000)
A Physically-Based Scheme For The Urban Energy Budget In Atmospheric ModelsBoundary-Layer Meteorology, 94
-
C. Grimmond (1998)
Aerodynamic Roughness of Urban Areas Derived from Wind ObservationsBoundary-Layer Meteorology, 89
-
C. Grimmond, T. Oke (2002)
Turbulent Heat Fluxes in Urban Areas: Observations and a Local-Scale Urban Meteorological Parameterization Scheme (LUMPS)Journal of Applied Meteorology, 41
-
V. Masson, C. Grimmond, T. Oke (2002)
Evaluation of the Town Energy Balance (TEB) Scheme with Direct Measurements from Dry Districts in Two CitiesJournal of Applied Meteorology, 41
-
J. Barlow, S. Belcher (2002)
A Wind Tunnel Model for Quantifying Fluxes in the Urban Boundary LayerBoundary-Layer Meteorology, 104
-
Y. Shao, A. Henderson‐sellers (1996)
Validation of soil moisture simulation in landsurface parameterisation schemes with HAPEX dataGlobal and Planetary Change, 13
-
G. Hollis, J. Ovenden (1988)
One year irrigation experiment to assess losses and runoff volume relationships for a residential road in hertfordshire, EnglandHydrological Processes, 2
-
P. Mestayer (2004)
Evaluation of the urban soil model SM2-U on the city center of Marseille (France) -
S. Burian, Stephen Stetson, Woosuk Han, J. Ching, D. Byun (2004)
High-resolution dataset of urban canopy parameters for Houston, Texas -
C. Grimmond, T. Oke (1991)
An evapotranspiration‐interception model for urban areasWater Resources Research, 27
-
E. Guilloteau (1998)
Optimized Computation of Transfer Coefficients in Surface Layer with Different Momentum and Heat Roughness LengthsBoundary-Layer Meteorology, 87
-
M. Rotach (1995)
Profiles of turbulence statistics in and above an urban street canyonAtmospheric Environment, 29
-
H. Kusaka, H. Kondo, Y. Kikegawa, F. Kimura (2001)
A Simple Single-Layer Urban Canopy Model For Atmospheric Models: Comparison With Multi-Layer And Slab ModelsBoundary-Layer Meteorology, 101
-
Zhenglin Hu, S. Islam (1995)
Prediction of Ground Surface Temperature and Soil Moisture Content by the Force‐Restore MethodWater Resources Research, 31
-
E. Berthier, H. Andrieu, J. Creutin (2004)
The role of soil in the generation of urban runoff: development and evaluation of a 2D modelJournal of Hydrology, 299
-
I. Braud, J. Noilhan, P. Bessemoulin, P. Mascart, R. Haverkamp, M. Vauclin (1993)
Bare-ground surface heat and water exchanges under dry conditions: Observations and parameterizationBoundary-Layer Meteorology, 66
-
S. Dupont (2001)
Modélisation dynamique et thermodynamique de la canopée urbaine: réalisation du modèle de sols urbains pour SUBMESO -
J. Launiainen (1995)
Derivation of the relationship between the Obukhov stability parameter and the bulk Richardson number for flux-profile studiesBoundary-Layer Meteorology, 76
-
A. Lemonsu, V. Masson (2002)
Simulation of a Summer Urban Breeze Over ParisBoundary-Layer Meteorology, 104
-
T. Otte, A. Lacser, S. Dupont, J. Ching (2004)
Implementation of an Urban Canopy Parameterization in a Mesoscale Meteorological ModelJournal of Applied Meteorology, 43
-
A. Martilli, A. Clappier, M. Rotach (2002)
An Urban Surface Exchange Parameterisation for Mesoscale ModelsBoundary-Layer Meteorology, 104
-
D. Byun (1990)
On the Analytical Solutions of Flux-Profile Relationships for the Atmospheric Surface LayerJournal of Applied Meteorology, 29
-
A. Beljaars, A. Holtslag (1991)
Flux Parameterization over Land Surfaces for Atmospheric ModelsJournal of Applied Meteorology, 30
-
C. Grimmond, J. Salmond, T. Oke, B. Offerle, A. Lemonsu (2004)
Flux and turbulence measurements at a densely built‐up site in Marseille: Heat, mass (water and carbon dioxide), and momentumJournal of Geophysical Research, 109
-
H. Kusaka, F. Kimura (2004)
Thermal Effects of Urban Canyon Structure on the Nocturnal Heat Island: Numerical Experiment Using a Mesoscale Model Coupled with an Urban Canopy ModelJournal of Applied Meteorology, 43
-
K. Ridder, G. Schayes (1997)
The IAGL Land Surface ModelJournal of Applied Meteorology, 36
-
H. Schmid, T. Oke (1990)
A model to estimate the source area contributing to turbulent exchange in the surface layer over patchy terrainQuarterly Journal of the Royal Meteorological Society, 116
-
A. Hagishima, J. Tanimoto, K. Narita (2005)
Intercomparisons of Experimental Convective Heat Transfer Coefficients and Mass Transfer Coefficients of Urban SurfacesBoundary-Layer Meteorology, 117
-
N. Belhadj, C. Joannis, G. Raimbault (1995)
Modelling of rainfall induced infiltration into separate sewerageWater Science and Technology, 32
-
J. Voogt, C. Grimmond (2000)
Modeling Surface Sensible Heat Flux Using Surface Radiative Temperatures in a Simple Urban AreaJournal of Applied Meteorology, 39
-
J. Deardorff (1978)
Efficient prediction of ground surface temperature and moisture, with inclusion of a layer of vegetationJournal of Geophysical Research, 83
-
J. Noilhan, J. Mahfouf (1996)
The ISBA land surface parameterisation scheme, 13
-
H. Bolle, H. Debruin, H. Stricker (1993)
EFEDA - European field experiment in a desertification-threatened areaAnnales Geophysicae, 11
-
Emmanuel Guilloteau (1999)
Modelisation des sols urbains pour les simulations de l'atmosphere aux echelles sub-meso -
Fei Chen, Z. Janjic, K. Mitchell (1997)
Impact of Atmospheric Surface-layer Parameterizations in the new Land-surface Scheme of the NCEP Mesoscale Eta ModelBoundary-Layer Meteorology, 85
-
Belhadj (1995)
Modelling of rainfall induced infiltration into separate sewerage.Water Sci. Technol, 32
-
D. Ramier, E. Berthier, H. Andrieu (2004)
An urban lysimeter to assess runoff losses on asphalt concrete platesPhysics and Chemistry of The Earth, 29
-
C. Grimmond, T. Oke (1999)
Heat Storage in Urban Areas: Local-Scale Observations and Evaluation of a Simple ModelJournal of Applied Meteorology, 38
-
J. Goutorbe (1991)
A Critical Assessment of the Samer Network Accuracy -
T. Oke, R. Spronken-Smith, E. Jáuregui, C. Grimmond (1999)
The energy balance of central Mexico City during the dry seasonAtmospheric Environment, 33
-
M. Best (2005)
Representing urban areas within operational numerical weather prediction modelsBoundary-Layer Meteorology, 114
-
A. Boone, J. Calvet, J. Noilhan (1999)
Inclusion of a Third Soil Layer in a Land Surface Scheme Using the Force–Restore MethodJournal of Applied Meteorology, 38
-
M. Bottema (1997)
Urban roughness modelling in relation to pollutant dispersionAtmospheric Environment, 31
-
B. Cros, P. Durand, H. Cachier, P. Drobinski, E. Fréjafon, C. Kottmeier, P. Perros, V. Peuch, J. Ponche, D. Robin, F. Saïd, G. Toupance, H. Wortham (2004)
The ESCOMPTE program: an overviewAtmospheric Research, 69
-
H. Giordani, J. Noilhan, P. Lacarrére, P. Bessemoulin, P. Mascart (1996)
Modelling the surface processes and the atmospheric boundary layer for semi-arid conditionsAgricultural and Forest Meteorology, 80
-
J. Noilhan, S. Planton (1989)
A Simple Parameterization of Land Surface Processes for Meteorological ModelsMonthly Weather Review, 117
-
E. Berthier, H. Andrieu, F. Rodríguez (1999)
The Rezé Urban Catchments DatabaseWater Resources Research, 35
-
J. Andre, J. Goutorbe, A. Perrier (1986)
HAPEX—MOBLIHY: A Hydrologic Atmospheric Experiment for the Study of Water Budget and Evaporation Flux at the Climatic ScaleBulletin of the American Meteorological Society, 67
-
M. Raupach (1992)
Drag and drag partition on rough surfacesBoundary-Layer Meteorology, 60
-
A. Lemonsu, C. Grimmond, V. Masson (2004)
Modeling the Surface Energy Balance of the Core of an Old Mediterranean City: MarseilleJournal of Applied Meteorology, 43
-
P. Louka, G. Vachon, J. Sini, P. Mestayer, J. Rosant (2002)
Thermal Effects on the Airflow in a Street Canyon – Nantes'99 Experimental Results and Model SimulationsWater, Air and Soil Pollution: Focus, 2
-
J. Pleim, A. Xiu (1995)
Development and Testing of a Surface Flux and Planetary Boundary Layer Model for Application in Mesoscale ModelsJournal of Applied Meteorology, 34
-
I. Harman, J. Barlow, S. Belcher (2004)
Scalar Fluxes from Urban Street Canyons Part II: ModelBoundary-Layer Meteorology, 113
-
M. Boyd, M. Bufill, R. Knee (1994)
Predicting pervious and impervious storm runoff from urban drainage basinsHydrological Sciences Journal-journal Des Sciences Hydrologiques, 39
-
C. Willmott (1982)
Some Comments on the Evaluation of Model PerformanceBulletin of the American Meteorological Society, 63
-
E. Berthier, S. Dupont, P. Mestayer, H. Andrieu (2006)
Comparison of two evapotranspiration schemes on a sub-urban siteJournal of Hydrology, 328
-
Yangwen Jia, G. Ni, Y. Kawahara, T. Suetsugi (2001)
Development of WEP model and its application to an urban watershedHydrological Processes, 15
-
G. Hollis, J. Ovenden (1988)
The quantity of stormwater runoff from ten stretches of road, a car park and eight roofs in Hertfordshire, England during 1983Hydrological Processes, 2
-
M. Rotach (1999)
On the influence of the urban roughness sublayer on turbulence and dispersionAtmospheric Environment, 33
-
S. Dupont, T. Otte, J. Ching (2004)
Simulation of Meteorological Fields Within and Above Urban and Rural Canopies with a Mesoscale ModelBoundary-Layer Meteorology, 113
-
S. Dupont, I. Calmet, P. Mestayer (2002)
Urban canopy modeling influence on urban boundary layer simulation -
Claude Guilbaud (1996)
Étude des inversions thermiques : application aux écoulements atmospghériques dans des vallées encaissées -
V. Ca, Y. Ashie, T. Asaeda (2002)
A k-*epsiv Turbulence Closure Model For The Atmospheric Boundary Layer Including Urban CanopyBoundary-Layer Meteorology, 102
-
B. Jacquemin, J. Noilhan (1990)
Sensitivity study and validation of a land surface parameterization using the HAPEX-MOBILHY data setBoundary-Layer Meteorology, 52
-
J. Nash, J. Sutcliffe (1970)
River flow forecasting through conceptual models part I — A discussion of principles☆Journal of Hydrology, 10
-
S. Zilitinkevich (1995)
Non-local turbulent transport pollution dispersion aspects of coherent structure of convective flows -
N. Long, G. Pigeon, P. Mestayer, P. Durand, C. Kergomard (2003)
Correlation between temperature and classification of urban fabric on Marseille during ESCOMPTE -
U. Högström (1996)
Review of some basic characteristics of the atmospheric surface layerBoundary-Layer Meteorology, 78
-
P. Mestayer, Pierre Durand, P. Augustin, Sophie Bastin, J. Bonnefond, B. Bénech, B. Campistron, Alexis Coppalle, H. Delbarre, Bénédicte Dousset, P. Drobinski, A. Druilhet, E. Fréjafon, C. Grimmond, D. Groleau, M. Irvine, C. Kergomard, S. Kermadi, J. Lagouarde, A. Lemonsu, F. Lohou, Nathalie Long, V. Masson, C. Moppert, J. Noilhan, B. Offerle, Tim Oke, G. Pigeon, V. Puygrenier, Sarah Roberts, J. Rosant, F. Sanïd, Jennifer Salmond, M. Talbaut, J. Voogt (2005)
The urban boundary-layer field campaign in marseille (ubl/clu-escompte): set-up and first resultsBoundary-Layer Meteorology, 114
-
R. Clapp, G. Hornberger (1978)
Empirical equations for some soil hydraulic propertiesWater Resources Research, 14
- Publisher
- American Meteorological Society
- Copyright
- Copyright © 2005 American Meteorological Society
- ISSN
- 1558-8432
- DOI
- 10.1175/JAM2363.1
- Publisher site
- See Article on Publisher Site
Abstract
This paper presents the hydrological component of the Submesoscale Soil Model, urbanized version (SM2-U). This model is an extension of the rural Interactions between Soil, Biosphere, and Atmosphere (ISBA) soil model to urban surfaces. It considers in detail both rural and urban surfaces. Its purpose is to compute the sensible heat and humidity fluxes at the canopy–atmosphere interface for the computational domain lower boundary condition of atmospheric mesoscale models in order to simulate the urban boundary layer in any weather conditions. Because it computes separately the surface temperature of each land use cover mode while the original model computes a unique temperature for the soil and vegetation system, the new version is first validated for rural grounds by comparison with experimental data from the Hydrological Atmospheric Pilot Experiment-Modélisation du Bilan Hydrique (HAPEX-MOBILHY) and the European Field Experiment in a Desertification Threatened Area (EFEDA). The SM2-U water budget is then evaluated on the experimental data obtained at a suburban site in the Nantes urban area (Rezé, France), both on an annual scale and for two stormy events. SM2-U evaluates correctly the water flow measured in the drainage network (DN) at the annual scale and for the summer storm. As for the winter storm, when the soil is saturated, the simulation shows that water infiltration from the soil to the DN must be taken care of to evaluate correctly the DN flow. Yet, the addition of this soil water infiltration to the DN does not make any difference in the simulated surface fluxes that are the model outputs for simulating the urban boundary layer. Urban hydrological parameters are shown to largely influence the available water on artificial surfaces for evaporation and to influence less the evapotranspiration from natural surfaces. The influence of the water budget and surface structure on the suburban site local climatology is demonstrated.
Journal
Journal of Applied Meteorology and Climatology – American Meteorological Society
Published: Feb 23, 2005