Landscape configuration and urban heat island effects: assessing the relationship between landscape characteristics and land surface temperature in Phoenix, Arizona
Tóm tắt
Từ khóa
Tài liệu tham khảo
Anselin L (2003) Geoda 0.9 User’s Handbook
Baker LA, Brazel AJ, Westerhoff P (2004) Environmental consequences of rapid urbanization in warm, arid lands: case study of Phoenix, Arizona (USA). In: Marchettini N, Brebbia C, Tiezzi E, Wadhwa LC (eds) The sustainable city III, (Proceedings of the Sienna Conference, held June 2004), Advances in Architecture Series, WIT Press, Boston
Becker F (1987) The impact of spectral emissivity on the measurement of land surface temperature from a satellite. Int J Remote Sens 8:1509–1522
Brazel A, Selover N, Vose R, Heisler G (2000) The tale of two climates—Baltimore and Phoenix urban LTER sites. Climate Res 15:123–135
Brazel A, Gober P, Lee S-J, Grossman-Clarke S, Zehnder J, Hedquist B, Comparri E (2007) Determinants of changes in the regional urban heat island in metropolitan Phoenix (Arizona, USA) between 1990 and 2004. Climate Res 33:171–182
Buyantuyev A, Wu J (2010) Urban heat islands and landscape heterogeneity: linking spatiotemporal variations in surface temperatures to land-cover and socioeconomic patterns. Landscape Ecol 25(1):17–33
Cao X, Onishi A, Chen J, Imura H (2010) Quantifying the cool island intensity of urban parks using ASTER and IKONOS data. Landsc Urban Plan 96:224–231
Chow WTL, Chuang WC, Gober P (2012) Vulnerability to extreme heat in metropolitan Phoenix: spatial, temporal, and demographic dimensions. Prof Geogr 64:286–302
Georgescu M, Miguez-Macho G, Steyaert LT, Weaver CP (2009) Climatic effects of 30 years of landscape change over the greater Phoenix, Arizona, region: 1. Surface energy budget changes. J Geophys Res 114:D05110
Gillespie A, Rokugawa S, Matsunaga T, Cothern JS, Hook S, Kahle AB (1998) A temperature and emissivity separation algorithm for advanced spaceborne thermal emission and reflection radiometer (ASTER) images. IEEE T Geosci Remote 36:1113–1126
Gober P (2006) Metropolitan Phoenix: place making and community building in the desert. University of Pennsylvania, Philadelphia
Gober P, Wentz EA, Lant T, Tschudi MK, Kirkwood CW (2011) WaterSim: a simulation model for urban water planning in Phoenix, Arizona, USA. Environ Plann B 38:197–215
Goward SN, Cruickshanks GD, Hope AS (1985) Observed relation between thermal emission and reflected spectral radiance of a complex vegetated landscape. Remote Sens Environ 18:137–146
Grimm NB, Redman CL (2004) Approaches to the study of urban ecosystems: the case of central Arizona–Phoenix. Urb Ecosyst 7:199–213
Gustafson EJ (1998) Quantifying landscape spatial pattern: what is the state of the art? Ecosystems 1:143–156
Harlan SL, Brazel A, Prashad L, Stefanov W, Larsen L (2006) Neighborhood microclimates and vulnerability to heat stress. Soc Sci Med 63:2847–2863
Jenerette GD, Harlan SL, Brazel A, Jones N, Larsen L, Stefanov WL (2007) Regional relationships between surface temperature, vegetation, and human settlement in a rapidly urbanizing ecosystem. Landscape Ecol 22:353–365
Jin MS (2012) Developing an index to measure urban heat island effect using satellite land skin temperature and land cover observation. J Clim 25:6193–6201
Kalkstein LS, Smoyer KE (1993) Human biometeorology—the impact of climate-change on human health—some international implications. Experientia 49:969–979
Kinney P, Shindell D, Chae E (2001) Climate change and public health: impact assessment for the NYC metropolitan region. In: Rosenzweig C, Solecki WD (eds) Climate change and a global city: an assessment of the metropolitan east coast region. Columbia Earth Institute, New York
Klinenberg E (2002) Heat wave: a social autopsy of disaster in Chicago. University of Chicago Press, Chicago
Knowles-Yanez K, Moritz C, Fry J, Redman CL, Bucchin M, McCartney PH (1999) Historic land use: phase I report on generalized land use. Central Arizona-Phoenix Long-Term Ecological Research. Arizona State University, Tempe
Landsberg HE (1981) The urban climate. National Academy Press, New York
Lee S-M, Fernando HJS, Princevac M, Zajic D, Sinesi M, McCulley JL, Anderson J (2003) Transport and diffusion of ozone in the nocturnal and morning planetary boundary layer of the Phoenix valley. Environ Fluid Mech 3:331–362
Li X, Zhou W, Ouyang Z, Xu W, Zheng H (2012) Spatial pattern of greenspace affects land surface temperature: evidence from the heavily urbanized Beijing metropolitan area, China. Landscape Ecol 27:887–898
Liu H, Weng Q (2009) Scaling effect on the relationship between landscape pattern and land surface temperature: a case study of Indianapolis, United States. Photogramm Eng Remote Sens 75(3):291–304
McGarigal K, Marks BJ (1995) FRAGSTATS: spatial pattern analysis program for quantifying landscape structure. General Technical Report PNW-GTR-351. Pacific North- west Research Station, USDA-Forest Service, Portland
Nichol JE (1996) Fine resolution surface temperature patterns related to urban morphology in a tropical city: a satellite-based study. J Appl Meteorol 35:135–152
Oke TR (1987) Boundary layer climates, 2nd edn. Routledge, London
Oke TR (1995) The heat island of the urban boundary layer: characteristics, causes and effects. In: Cermak JE (ed) Wind climate in cities. Kluwer Academic Publishers, Netherlands
Oke TR (2004) Initial guidance to obtain representative meteorological observations at urban sites. IOM Report 81.TD, World Meteorological Organization, Geneva
Quattrochi DA, Ridd MK (1994) Measurements and analysis of thermal energy responses from discrete urban surfaces using remote sensing data. Int J Remote Sens 15:1991–2002
Quattrochi D, Luvall J, Rickman D, Estes M, Laymon C, Howell B (2000) A decision support information system for urban landscape management using thermal infrared data. Photogramm Eng Rem S 66:1195–1207
Redman CL, Kinzig AP (2008) Water can flow uphill: a narrative of central Arizona. In: Redman CL, Foster D (eds) Agrarian landscapes in transition. Oxford University Press, New York, pp 238–271
Redman CL, Hutchins J, Kunda R (2005) Land use classification 2000. http://caplter.asu.edu/data/ . Accessed online August 2011
Rosenzweig C, Solecki W, Parshall L, Chopping M, Pope G, Goldberg R (2005) Characterizing the urban heat island in current and future climates in New Jersey. Global Environ Change B 6:51–62
Stefanov WL, Ramsey MS, Christensen PR (2001) Monitoring urban land cover change: an expert system approach to land cover classification of semiarid to arid urban centers. Remote Sens Environ 77:173–185
Turner BL (2010) Sustainability and forest transitions in the Southern Yucatan: the land architecture approach. Land Use Policy 27:170–179
Turner MG, Gardner RH, O’Neill RV (2001) Landscape ecology in theory and practice. Springer, New York
U.S. Census Bureau (2010) United States Census: 2010. http://2010.census.gov/2010census/ . Accessed online 1 July 2011
Weng Q (2003) Fractal analysis of satellite-detected urban heat island effect. Photogramm Eng Remote Sens 69(5):555–566
Weng Q, Liu H, Liang B, Lu D (2008) The spatial variations of urban land surface temperatures: pertinent factors, zoning effect, and seasonal variability. IEEE J Sel Top Appl Earth Obs Remote Sens 1(2):154–166
Wu J, Jenerette GD, Buyantuyev A, Redman CL (2011) Quantifying spatiotemporal patterns of urbanization: the case of the two fastest growing metropolitan regions in the United States. Ecol Complex 8:1–8
York AM, Shrestha M, Boone CG, Zhang S, Harrington JA, Prebyl TJ, Swann A, Agar M, Antolin MF, Nolen B, Wright JB, Skaggs R (2011) Land fragmentation under rapid urbanization: a cross-site analysis of Southwestern cities. Urban Ecosyst 14:429–455
Zhang X, Zhong T, Feng X, Wang K (2009) Estimation of the relationship between vegetation patches and urban land surface temperature with remote sensing. Int J Remote Sens 30:2105–2118