ZHU X X, ZHAO G X. Local influence of underlying surface on meteorological elements and associated climatic effect [J]. Chinese Journal of Eco-Agriculture, 2009, 17(4): 760-764.
CHEN S H, WEI X, WANG X X, et al. The relationship between land surface temperatures of various plots and underlying ground structures [J]. Remote Sensing for Land & Resources, 2009(3):49-53.
WANG J S. The relationship between spatial characteristics of land surface temperature and property of land surface in Beijing area [J]. Journal of Xuzhou Normal University: Natural Science, 2009, 27(4): 66-70.
YAN M H, ZHANG W, CHEN P Q. Sensitivity test of RegCM3 to underlying surface change in the Sanjiang Plain [J]. Journal of Northeast Normal University: Natural Science, 2010, 42(1): 141-145.
DAI L H, HONG J S, ZHUANG B J, et al. Case study and landuse situation updating in Taiwan area with WRF model [C]// Volume of articles of climate analysis and forecast discussion of year 1995. Beijing: Central Meteorological Bureau, 2006: 2-43.
KOU Z, OUYANG Z J. The numeric experiment of baroclinic forcing and latent heat in the development of explosive cyclone[J].Scientia Meteorologica Sinica, 1999, 19(3): 259-269.
[12]
KUSAKA H, KIMURA F. Coupling a single-layer urban canopy model with a simple atmospheric model: Impact on urban heat island simulation for an idealized case [J]. Journal of the Meteorological Society of Japan, 2004, 82(1): 67-80.
JIA L, WANG J M. Estimation of area roughness length for momentum using remote sensing data and measurements in field [J]. Chinese Journal of Atmospheric Sciences, 1999, 23(5): 632-640.
[19]
张强,吕世华.城市地表粗糙度长度的确定[J].高原气象,2003,22(1): 24-32.
[20]
ZHANG Q, L S H. The determination of roughness length over city surface [J]. Plateau Meteorology, 2003, 22(1): 24-32.
GAO Z Q, BIAN L G, LU C G, et al. Estimation of aerodynamic parameters in urban areas[J]. Journal of Applied Meteorological Science, 2002, 13(Zl): 26-33.
HAN S Q, LIU B X, XIE Y Y, et al. Research of urbanization on surface roughness with 255 m meteorological tower [J]. Meteorological Monthly, 2008, 34(1): 54-58.
CAO J H. Effects on local circulation simulated with MM5 by landuse categories in Taiwan [D]. Taibei:Institute of atmosphere and physics, National Research Council, 2007: 18.
[29]
CHENG F Y, KIM S T, BYUN D. A numerical study to understand impact of meteorological fields on Houston’s high O3 problem using CMAQ/MM5[R]. San Antonio: AMS Conf, 2007.
[30]
CHEN F, DUDHIA J. Coupling an advanced land surface-hydrology model with the Penn Rev State-NCAR MM5 modeling system[J]. Monthly Weather Review, 2001, 129: 569-585. 2.0.CO;2 target="_blank">
[31]
NIELSEN G, JOHN W. Meteorological modeling for the August 2000 Houston-Galveston ozone episode: PBL Characteristics, nudging procedure and performance evaluation[R]∥ Texas Natural Resource Conservation Commission, Report to the Technical Analysis Division. Taxas: [S. A.], 2002: 109.
[32]
LAM J S L, LAU A K H, FUNG J C H. Application of refined land-use categories for high resolution mesoscale atmospheric modeling[J]. Boundary-Layer Meteorology, 2006, 119: 263-288.
[33]
ZHAO M, ZENG X M. A theoretical analysis on the local climate change induced by the change of landuse[J]. Advances in Atmospheric Science, 2002, 19(1): 1075-1082.
DONG P, WANG F J, WEI M. The change law and influence factors of the extreme high temperature of different landuse surfaces in summer [J]. Anhui Agricultural Science Bulletin, 2009, 15(13): 160-161.
CHEN Y, JIANG W M, WU J, et al. A numeric simulation on Hangzhou city heat island using regional boundary model [J]. Plateau Meteorology, 2004, 23(4): 519-528.
