The impact of distinct anthropogenic and vegetation features on urban warming

Anderson J, Hardy EE, Roach JT, Witmer RE (1976) A land use and land cover classification system for use with remote sensor data USGS Professional Paper 964. Sioux Falls, SD

Arnfield AJ (2003) Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the Urban Heat Island. Int J Climatol 23:1–26

Benz UC, Hofmann P, Willhauck G, Lingenfelder I, Heynen M (2004) Multi-resolution, object-oriented fuzzy analysis of remote sensing data for GIS-ready information. ISPRS J Photogramm Remote Sens 58:239–258

Bonan GB (2002) Ecological climatology: concepts and applications. Cambridge University Press, Cambridge

Brabec E, Schulte S, Richards PL (2002) Impervious surfaces and water quality: a review of current literature and its implications for watershed planning. J Plan Lit 16(4):499–514

Brazel AJ, Selover N, Vose R, Heisler G (2000) The tale of two climates: Baltimore and Phoenix LTER sites. Clim Res 15:123–135

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 25:17–33

Buyantuyev A, Wu J (2012) Urbanization diversifies land surface phenology in arid environments: interactions among vegetation, climatic variation, and land use pattern in the Phoenix metropolitan region, US. Landsc Urban Plan 105(2012):149–159

Carlson TN, Arthur ST (2000) The impact of land use—land cover changes due to urbanization on surface microclimate and hydrology: a satellite perspective. Global Planet Change 25:49–65

Carlson TN, Augustine JA, Boland FE (1977) Potential application of satellite temperature measurements in the analysis of land use over urban areas. Bull Am Meteorol Soc 58:1301–1303

Dousset B (1989) AVHRR-derived cloudiness and surface temperature patterns over the Los Angeles area and their relationship to land use. Proceedings of IGARSS-89. IEEE, New York, pp 2132–2137

Dousset B, Gourmelon F (2003) Satellite multi-sensor data analysis of urban surface temperatures and land cover. ISPRS J Photogramm Remote Sens 58:43–54

EPA (2003) Beating the heat: mitigating thermal impacts. Nonpoint Source News Notes 72:23–26

EPA (2010) Title of page. http://www.epa.gov/heatisld/resources/glossary.htm . Last Accessed 27 May 2010

Georgescu M, Mahalov A, Moustaoui M (2012) Seasonal hydroclimatic impacts of Sun Corridor expansion. Environ Res Lett. doi: 10.1088/1748-9326/7/3/034026

Gober P, Brazel A, Quay R, Myint SW, Grossman-Clarke S, Miller A, Rossi S (2010) Using watered landscapes to manipulate urban heat island effects: how much water will it take to cool Phoenix? J Am Plan Assoc 76:109–121

Grimmond CSB, Oke TR (2002) Turbulent heat fluxes in urban areas: observations and a local-scale urban meteorological parameterization scheme (LUMPS). J Appl Meteorol 41:792–810

Grossman-Clarke S, Zehnder JA, Stefanov WL, Liu YB, Zoldak MA (2005) Urban modifications in a mesoscale meteorological model and the effects on near-surface variables in an arid metropolitan region. J Appl Meteorol 44(9):1281–1297

Guhathakurta S, Gober P (2010) Residential land use, the urban heat island, and water use in phoenix: a path analysis. J Plan Educ Res 30:40–51

Heisler GM, Grant RH, Grimmond S, Souch C (1995) Urban forests—cooling our communities? In: Kollin C, Barretts M (eds) Proceedings of the seventh national urban forest conference. American Forests, Washington, pp 31–34

Huang YJ, Akbari H, Taha H (1987) The potential of vegetation in reducing summer cooling loads in residential buildings. J Clim Appl Meteorol 26:1103–1116

Hucheon RJ, Johnson RH, Lowry WP, Black CH, Hadley D (1967) Observations of urban heat island in a small city. Bull Am Meteorol Soc 48(1):7–8

Hung T, Uchihama D, Ochi S, Yasuoka Y (2006) Assessment with satellite data of the urban heat island effects in Asian mega cities. Int J Appl Earth Obs Geoinf 8:34–48

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

Jenerette GD, Harlan SL, Stefanov WL, Martin CA (2011) Ecosystem services and urban heat risks cape moderation: water, green spaces, and social inequality in Phoenix, USA. Ecol Appl 21:2637–2651

Jensen JR (2004) Introductory digital image processing, a remote sensing perspectives. Prentice Hall, Upper Saddle River

Jensen JR, Cowen DC (1999) Remote sensing of urban/suburban infrastructure and socio-economic attributes. Photogramm Eng Remote Sens 65:611–622

JPL (2001) ASTER Higher-Level Product User Guide, Advanced Spaceborne Thermal Emission and Reflection Radiometer, Jet Propulsion Laboratory, California Institute of Technology, http://asterweb.jpl.nasa.gov/content/03_data/04_Documents/ASTERHigherLevelUserGuideVer2May01.pdf

Lee HY (1993) An application of NOAA-AVHRR thermal data to the study of urban heat islands. Atmos Environ 27B:1–13

Li JX, Song CH, Cao L, Zhu F, Meng X, Wu J (2011) Impacts of landscape structure on surface urban heat islands: a case study of Shanghai, China. Remote Sens Environ 115:3249–3263

Lillesand TM, Kiefer RW, Chipman JW (2008) Remote sensing and image interpretation. Wiley, New York

Myint SW (2006) Urban vegetation mapping using sub-pixel analysis and expert system rules: a critical approach. Int J Remote Sens 27:2645–2665

Myint SW, Brazel A, Okin G, Buyantuyev A (2010) An interactive function of impervious and vegetation covers in relation to the urban heat island effect in a rapidly urbanizing desert city. GISci Remote Sens 47(3):301–320

Myint SW, Gober P, Brazel A, Grossman-Clarke S, Weng Q (2011) Per-pixel versus object-based classification of urban land cover extraction using high spatial resolution imagery. Remote Sens Environ 115(2011):1145–1161

Oke TR (1973) City size and urban heat island. Atmos Environ 7:769–779

Oke TR (1981) Canyon geometry and the nocturnal urban heat-island—comparison of scale model and field observations. J Climatol 1:237–254

Oke TR (1982) The energetic basis of the urban heat island. Q J R Meteorol Soc 108:1–24

Olfe DB, Lee RL (1971) Linearized calculations of urban heat island convection effects. J Atmos Sci 28(8):1374–1388

Owen TW, Carlson TN, Gillies RR (1998) An assessment of satellite remotely-sensed land cover parameters in quantitatively describing the climatic effect of urbanization. Int J Remote Sens 19:1663–1681

Quattrochi DA, Ridd MK (1994) Measurement and analysis of thermal energy responses from discrete urban surfaces using remote sensing data. Int J Remote Sens 15:1991–2022

Sailor DJ (1995) Simulated urban climate response to modifications in surface albedo and vegetative cover. J Appl Meteorol 34:1694–1704

Spronken-Smith RA, Oke TR (1998) The thermal regime of urban parks in two cities with different summer climates. Int J Remote Sens 19:2085–2104

Stoll MJ, Brazel AJ (1992) Surface-air temperature relationships in the urban environment of Phoenix. Ariz Phys Geogr 13:160–179

Townshend JRG (1981) Terrain analysis and remote sensing. George Allen and Unwin, London 272 p

U.S. Department of Commerce (2010) http://www.wrh.noaa.gov/psr/general/safety/heat/ , NOAA National Weather Forecast Service Office, Phoenix Weather Forecast Office. Accessed 9 Feb 2010

Voogt JA (2000) Image representations of urban surface temperatures. Geocarto Int 15:19–29

Voogt JA, Oke TR (1997) Complete urban surface temperatures. J Appl Meteorol 36:1117–1132

Voogt JA, Oke TR (2003) Thermal remote sensing of urban climates. Remote Sens Environ 86:370–384

Walter V (2004) Object-based classification of remote sensing data for change detection. ISPRS J Photogramm Remote Sens 58:225–238

Weng Q, Lu D, Schubring J (2004) Estimation of land surface temperature–vegetation abundance relationship for urban heat island studies. Remote Sens Environ 89:467–483

Wilson JS, Clay M, Martin E, Stuckey D, Vedder-Risch K (2003) Evaluating environmental influences of zoning in urban ecosystems with remote sensing. Remote Sens Environ 86:303–321

Xian G (2006) Assessing urban growth with subpixel impervious surface coverage. In: Weng Q, Quattrochi DA (eds) Urban remote sensing. Taylor and Francis Group, Boca Raton, pp 179–199

Zhang X, Aono Y, Monji N (1998) Spatial variability of urban surface heat fluxes estimated from Landsat TM data under summer and winter conditions. J Agric Meteorol 54:1–11

Zhang Y, Odeh IOA, Han C (2009) Bi-temporal characterization of land surface temperature in relation to impervious surface area, NDVI and NDBI, using a sub-pixel image analysis. Int J Appl Earth Obs Geoinf 11:256–264

Zhou W, Huang G, Cadenaso ML (2011) Does the spatial configuration matter? Does spatial configuration matter? Understanding the effects of land cover pattern on land surface temperature in urban landscapes. Landsc Urban Plan 102(1):54–63