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References

  • Alcântara EH, Stech JL, Lorenzzetti JA, Bonnet MP, Casamitjana X, Assireu AT, Novo EMDM. 2010. Remote sensing of water surface temperature and heat flux over a tropical hydroelectric reservoir. Remote Sensing of Environment 114: 26512665.
  • Aniello C, Morgan K, Busbey A, Newland L. 1995. Mapping micro-urban heat islands using Landsat TM and a GIS. Computers and Geosciences 21: 965967.
  • Arnfield A. 2003. Two decades of urban climate research: a review of turbulence, exchanges of energy and water, and the urban heat island. International Journal of Climatology 23: 126.
  • Boudhar A, Duchemin B, Hanich L, Boulet G, Chehbouni A. 2011. Spatial distribution of the air temperature in mountainous areas using satellite thermal infra-red data. Comptes Rendus Geoscience 343: 3242.
  • Cao X, Onishi A, Chen J, Imura H. 2010. Quantifying the cool island intensity of urban parks using ASTER and IKONOS data. Landscape and Urban Planning 96: 224231.
  • Chapman L, Thornes JE. 2003. The use of geographical information systems in climatology and meteorology. Progress in Physical Geography 27: 313330.
  • Chen S-S, Chen X-Z, Chen W-Q, Su Y-X, Li D. 2011. A simple retrieval method of land surface temperature from AMSR-E passive microwave data—a case study over Southern China during the strong snow disaster of 2008. International Journal of Applied Earth Observations and Geoinformation 13: 140151.
  • Chen X, Zhao H, Li P, Yin Z. 2006. Remote sensing image-based analysis of the relationship between urban heat island and land use/cover changes. Remote Sensing of Environment 104: 133146.
  • Cheval S, Dumitrescu A. 2009. The July urban heat island of Bucharest as derived from modis images. Theoretical and Applied Climatology 96: 145153.
  • Cheval S, Dumitrescu A, Bell A. 2009. The urban heat island of Bucharest during the extreme high temperatures of July 2007. Theoretical and Applied Climatology 97: 391401.
  • Coll C, Caselles V, Galve J, Valor E, Niclos R, Sanchez J, Rivas R. 2005. Ground measurements for the validation of land surface temperatures derived from AATSR and MODIS data. Remote Sensing of Environment 97: 288300.
  • Coll C, Hook SJ, Galve JM. 2009. Land surface temperature from the advanced along-track scanning radiometer: validation over inland waters and vegetated surfaces. IEEE Transactions on Geoscience and Remote Sensing 47: 350360.
  • Dash P, Göttsche F, Olesen F, Fischer H. 2001. Retrieval of land surface temperature and emissivity from satellite data: physics, theoretical limitations and current methods. Journal of the Indian Society of Remote Sensing 29: 2330.
  • Dash P, Gottsche FM, Olesen FS, Fischer H. 2002. Land surface temperature and emissivity estimation from passive sensor data: theory and practice-current trends. International Journal of Remote Sensing 23: 25632594.
  • Djepa V. 2011. Drought prediction using the Along Track Scanning Radiometer (ATSR2) on board ERS2 satellite. Advances in Space Research 48: 5660.
  • Dominguez A, Kleissl J, Luvall JC, Rickman DL. 2011. High-resolution urban thermal sharpener (HUTS). Remote Sensing of Environment 115: 17721780.
  • Dousset B, Gourmelon F, Laaidi K, Zeghnoun A, Giraudet E, Bretin P, Mauri E, Vandentorren S. 2010. Satellite monitoring of summer heat waves in the Paris metropolitan area. International Journal of Climatology 31: 313323.
  • Dyras I, Dobesch H, Grueter E, Perdigao A, Tveito O, Thornes JE, van der Wel F, Bottai L. 2005. The use of geographic information systems in climatology and meteorology: COST 719. Meteorological Applications 12: 15.
  • Fily M. 2003. A simple retrieval method for land surface temperature and fraction of water surface determination from satellite microwave brightness temperatures in sub-arctic areas. Remote Sensing of Environment 85: 328338.
  • Gallo K, McNab A, Karl T, Brown J, Hood J, Tarpley J. 1993. The use of NOAA AVHRR data for assessment of the urban heat-island effect. Journal of Applied Meteorology 32: 899908.
  • Gallo K, Tarpley J, McNab A, Karl T. 1995. Assessment of urban heat islands: a satellite perspective. Atmospheric Research 37: 3743.
  • Ge J. 2010. MODIS observed impacts of intensive agriculture on surface temperature in the southern Great Plains. International Journal of Climatology 30: 19942003.
  • Gillespie A, Rokugawa S. 1998. A temperature and emissivity separation algorithm for Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) images. IEEE Transactions on Geoscience and Remote Sensing 36: 11131126.
  • Gluch R, Quattrochi D, Luvall J. 2006. A multi-scale approach to urban thermal analysis. Remote Sensing of Environment 104: 123132.
  • Hartz D, Prashad L, Hedquist B, Golden J, Brazel A. 2006. Linking satellite images and hand-held infrared thermography to observed neighborhood climate conditions. Remote Sensing of Environment 104: 190200.
  • Herb W, Janke B, Mohseni O. 2008. Ground surface temperature simulation for different land covers. Journal of Hydrology 356: 327343.
  • Hung T, Uchihama D, Ochi S, Yasuoka Y. 2006. Assessment with satellite data of the urban heat island effects in Asian mega cities. International Journal of Applied Earth Observation and Geoinformation 8: 3448.
  • Imhoff M, Zhang P, Wolfe R, Bounoua L. 2010. Remote sensing of the urban heat island effect across biomes in the continental USA. Remote Sensing of Environment 114: 504513.
  • Inamdar AK, French A, Hook S, Vaughan G, Luckett W. 2008. Land surface temperature retrieval at high spatial and temporal resolutions over the southwestern United States. Journal of Geophysical Research 113: 118.
  • Istomina LG, von Hoyningen-Huene W, Kokhanovsky AA, Burrows JP. 2010. The detection of cloud-free snow-covered areas using AATSR measurements. Atmospheric Measurement Techniques 3: 10051017.
  • Jacob F, Petitcolin F, Schmugge T, Vermote É, French A, Ogawa K. 2004. Comparison of land surface emissivity and radiometric temperature derived from MODIS and ASTER sensors. Remote Sensing of Environment 90: 137152.
  • Jin M. 2004. Analysis of land skin temperature using AVHRR observations. Bulletin of the American Meteorological Society 85: 587600.
  • Jin M, Dickinson R. 2000. A generalized algorithm for retrieving cloudy sky skin temperature from satellite thermal infrared radiances. Journal of Geophysical Research 105(27): 2703727047.
  • Jin M, Dickinson R, Zhang D. 2005. The footprint of urban areas on global climate as characterized by MODIS. Journal of Climate 18: 15511565.
  • Jin M, Shepherd JM. 2005. Inclusion of urban landscape in a climate model: how can satellite data help? Bulletin of the American Meteorological Society 86: 681689.
  • Jin M, Shepherd JM, Peters-Lidard C. 2007. Development of a parameterization for simulating the urban temperature hazard using satellite observations in climate model. Natural Hazards 43: 257271.
  • Joan M, Cesar C. 2009. Monthly land surface temperature maps over European zone using advanced along track scanning radiometer data for 2007. Geoscience and Remote Sensing Symposium, 2009 IEEE International, IGARSS 2009, 4: 292295.
  • Kidd C, Levizzani V, Bauer P. 2009. A review of satellite meteorology and climatology at the start of the twenty-first century. Progress in Physical Geography 33: 474489.
  • Kim H-Y, Liang S. 2010. Development of a hybrid method for estimating land surface short wave net radiation from MODIS data. Remote Sensing of Environment 114: 23932402.
  • Langer M, Westermann S, Boike J. 2010. Spatial and temporal variations of summer surface temperatures of wet polygonal tundra in Siberia—implications for MODIS LST based permafrost monitoring. Remote Sensing of Environment 114: 20592069.
  • Lee H. 1993. An application of NOAA AVHRR thermal data to the study of urban heat islands. Atmospheric Environment. Part B: Urban Atmosphere 27: 113.
  • Li J-J, Wang X-R, Wang X-J, Ma W-C, Zhang H. 2009. Remote sensing evaluation of urban heat island and its spatial pattern of the Shanghai metropolitan area, China. Ecological Complexity 6: 413420.
  • Li K, Yu Z. 2008. Comparative and combinative study of urban heat island in Wuhan City with remote sensing and CFD simulation. Sensors 8: 66926703.
  • Liang S, Zhong B, Fang H. 2006. Improved estimation of aerosol optical depth from MODIS imagery over land surfaces. Remote Sensing of Environment 104: 416425.
  • Lillesand T, Kiefer R, Chipman J. 2004. Remote Sensing and Image Interpretation. John Wiley: Chichester.
  • Liu Y, Key J. 2003. Detection and analysis of clear-sky, low-level atmospheric temperature inversions with MODIS. Journal of Atmospheric and Oceanic Technology 20: 17271737.
  • Liu R, Wen J, Wang X, Wang L, Tian H, Zhang T, Shi X, Zhang J, LV S. 2010. Actual daily evapotranspiration estimated from MERIS and AATSR data over the Chinese Loess Plateau. Hydrology and Earth System Sciences 14: 4758.
  • Liu Y, Yamaguchi Y, Ke C. 2007. Reducing the discrepancy between ASTER and MODIS land surface temperature products. Sensors 7: 30433057.
  • Lu L, Venus V, Skidmore A, Wang T, Luo G. 2011. Estimating land-surface temperature under clouds using MSG/SEVIRI observations. International Journal of Applied Earth Observations and Geoinformation 13: 265276.
  • Lu D, Weng Q. 2006. Spectral mixture analysis of ASTER images for examining the relationship between urban thermal features and biophysical descriptors in Indianapolis, Indiana, USA. Remote Sensing of Environment 104: 157167.
  • McFarland MJ, Miller RL, Neale CMU. 1990. Land surface temperature derived from the SSM/I passive microwave brightness temperatures. IEEE Transactions on Geoscience and Remote Sensing 28: 839845.
  • Matson M, Mcclain E, McGinnis D Jr, Pritchard J. 1978. Satellite detection of urban heat islands. Monthly Weather Review 106: 17251734.
  • Mendelsohn R, Kurukulasuriya P, Basist A, Kogan F, Williams C. 2007. Climate analysis with satellite versus weather station data. Climatic Change 81: 7183.
  • Neteler M. 2005. Time series processing of MODIS satellite data for landscape epidemiological applications. International Journal of Geoinformatics 1: 133138.
  • Neteler M. 2010. Estimating daily land surface temperatures in mountainous environments by reconstructed MODIS LST data. Remote Sensing 2: 333351.
  • Nichol JE. 1994. A GIS-based approach to microclimate monitoring in Singapore's high-rise housing estates. Photogrammetric Engineering and Remote Sensing 60: 12251232.
  • Nichol JE, Fung WY, Lam K-S, Wong MS. 2009. Urban heat island diagnosis using ASTER satellite images and ‘in situ’ air temperature. Atmospheric Research 94: 276284.
  • Nieto H, Sandholt I, Aguado I, Chuvieco E, Stisen S. 2011. Air temperature estimation with MSG-SEVIRI data: calibration and validation of the TVX algorithm for the Iberian Peninsula. Remote Sensing of Environment 115: 107116.
  • Noyes E, Sòria G, Sobrino J, Remedios J. 2007. AATSR land surface temperature product algorithm verification over a WATERMED site. Advances in Space Research 39: 171178.
  • Ottle C, Vidal-Madjar D. 1992. Estimation of land surface temperature with NOAA9 data. Remote Sensing of Environment 40: 2741.
  • Peterson T, Basist A, Williams C. 2000. A blended satellite–in situ near–global surface temperature dataset. Bulletin of the American Meteorological Society 81: 21572164.
  • Petropoulos G, Carlson T, Wooster M, Islam S. 2009. A review of Ts/VI remote sensing based methods for the retrieval of land surface energy fluxes and soil surface moisture. Progress in Physical Geography 33: 224250.
  • Pinker RT, Sun D, Hung M-P, Li C, Basara JB. 2009. Evaluation of satellite estimates of land surface temperature from GOES over the United States. Journal of Applied Meteorology and Climatology 48: 167180.
  • Platt CMR, Prata AJ. 1993. Nocturnal effects in the retrieval of land surface temperatures from satellite measurements. Remote Sensing of Environment 45: 127136.
  • Pongrácz R, Bartholy J, Dezso Z. 2006. Remotely sensed thermal information applied to urban climate analysis. Advances in Space Research 37: 21912196.
  • Pongrácz R, Bartholy J, Dezsö Z. 2010. Application of remotely sensed thermal information to urban climatology of Central European cities. Physics and Chemistry of the Earth 35: 9599.
  • Pouteau R, Rambal S, Ratte J, Gogé F, Joffre R, Winkel T. 2010. Downscaling MODIS-derived maps using GIS and boosted regression trees: the case of frost occurrence over the arid Andean highlands of Bolivia. Remote Sensing of Environment 115: 117129.
  • Prata A. 1994. Land surface temperature determination from satellites. Advances in Space Research 14: 1526.
  • Prata A. 2002. Land Surface Temperature Measurement from Space: AATSR Algorithm Theoretical Basis Document. Contract Report to ESA. CSIRO Atmospheric Research: Aspendale; 134.
  • Price J. 1979. Assessment of the urban heat island effect through the use of satellite data. Monthly Weather Review 107: 15541557.
  • Pu R, Gong P, Michishita R, Sasagawa T. 2006. Assessment of multi-resolution and multi-sensor data for urban surface temperature retrieval. Remote Sensing of Environment 104: 211225.
  • Rajasekar U, Weng Q. 2008. Urban heat island monitoring and analysis using a non-parametric model: a case study of Indianapolis. ISPRS Journal of Photogrammetry and Remote Sensing 64: 8696.
  • Retalis A, Paronis D, Lagouvardos K, Kotroni V. 2010. The heat wave of June 2007 in Athens, Greece—part 1: study of satellite derived land surface temperature. Atmospheric Research 98: 458467.
  • Rigo G, Parlow E, Oesch D. 2006. Validation of satellite observed thermal emission with in-situ measurements over an urban surface. Remote Sensing of Environment 104: 201210.
  • Rizwan A, Dennis L, Liu C. 2008. A review on the generation, determination and mitigation of urban heat island. Journal of Environmental Sciences 20: 120128.
  • Roberts JJ, Best BD, Dunn DC, Treml EA, Halpin PN. 2010. Marine geospatial ecology tools: an integrated framework for ecological geoprocessing with ArcGIS, Python, R, MATLAB, and C+ +. Environmental Modelling and Software 25: 11971207.
  • Sandau R, Brieß K, Derrico M. 2010. Small satellites for global coverage: potential and limits. ISPRS Journal of Photogrammetry and Remote Sensing 65: 492504.
  • Schmetz J, Pili P, Tjemkes S, Just D, Kerkmann J, Rota S, Ratier A. 2002. Supplement to an introduction to meteosat second generation (MSG). Bulletin of the American Meteorological Society 83: 992992.
  • Senay GB, Budde M, Verdin JP, Melesse AM. 2007. A coupled remote sensing and simplified surface energy balance approach to estimate actual evapotranspiration from irrigated fields. Sensors 7: 9791000.
  • Sobrino J. 2004. Land surface temperature retrieval from MSG1-SEVIRI data. Remote Sensing of Environment 92: 247254.
  • Sobrino J, Jimenez-Munoz J, Zarco-Tejada P, Sepulcre-Canto G, Miguel E. 2006. Land surface temperature derived from airborne hyperspectral scanner thermal infrared data. Remote Sensing of Environment 102: 99115.
  • Sòria G, Sobrino J. 2007. ENVISAT/AATSR derived land surface temperature over a heterogeneous region. Remote Sensing of Environment 111: 409422.
  • Stathopoulou M, Cartalis C. 2007. Daytime urban heat islands from Landsat ETM+ and Corine land cover data: an application to major cities in Greece. Solar Energy 81: 358368.
  • Stathopoulou M, Cartalis C. 2009. Downscaling AVHRR land surface temperatures for improved surface urban heat island intensity estimation. Remote Sensing of Environment 113: 25922605.
  • Stathopoulou M, Cartalis C, Chrysoulakis N. 2006. Using midday surface temperature to estimate cooling degree-days from NOAA-AVHRR thermal infrared data: an application for Athens, Greece. Solar Energy 80: 414422.
  • Stewart I. 2010. A systematic review and scientific critique of methodology in modern urban heat island literature. International Journal of Climatology 31: 200217.
  • Streutker D. 2003. Satellite-measured growth of the urban heat island of Houston, Texas. Remote Sensing of Environment 85: 282289.
  • Sun D. 2003. Estimation of land surface temperature from a Geostationary Operational Environmental Satellite (GOES-8). Journal of Geophysical Research 108: 115.
  • Sun D, Pinker R, Basara J. 2004. Land surface temperature estimation from the next generation of geostationary operational environmental satellites: GOES M–Q. Journal of Applied Meteorology 43: 363372.
  • Sun D, Pinker RT, Kaf1tos M. 2006. Diurnal temperature range over the United States: a satellite view. Geophysical Research Letters 33: 14.
  • Tomlinson C, Chapman L, Thornes J, Baker C. Derivation of Birmingham's summer surface urban heat island from MODIS satellite images. International Journal of Climatology (in press).
  • Trigo IF, Monteiro IT, Olesen F, Kabsch E. 2008. An assessment of remotely sensed land surface temperature. Journal of Geophysical Research 113: 112.
  • Ulivieri C, Cannizzaro G. 1985. Land surface temperature retrievals from satellite measurements. Acta Astronautica 12: 977985.
  • Umamaheshwaran R, Bijker W, Stein A. 2007. Image mining for modeling of forest fires from meteosat images. IEEE Transactions on Geoscience and Remote Sensing 45: 246253.
  • Vancutsem C, Ceccato P, Dinku T. 2010. Evaluation of MODIS land surface temperature data to estimate air temperature in different ecosystems over Africa. Remote Sensing of Environment 114: 449465.
  • Vázquez DP, Reyes FJO, Arboledas LA. 1997. A comparative study of algorithms for estimating land surface temperature from AVHRR data. Remote Sensing of Environment 62: 215222.
  • Voogt J, Oke T. 2003. Thermal remote sensing of urban climates. Remote Sensing of Environment 86: 370384.
  • Wan Z. 2002. Validation of the land-surface temperature products retrieved from terra moderate resolution imaging Spectroradiometer data. Remote Sensing of Environment 83: 163180.
  • Wan Z. 2008. New refinements and validation of the MODIS land-surface temperature/emissivity products. Remote Sensing of Environment 112: 5974.
  • Wan Z, Dozier J. 1996. A generalized split-window algorithm for retrieving land-surface temperature from space. IEEE Transactions on Geoscience and Remote Sensing 34: 892905.
  • Wan Z, Zhang Y, Zhang Q, Li Z. 2004. Quality assessment and validation of the MODIS global land surface temperature. International Journal of Remote Sensing 25: 261274.
  • Wang K, Liang S. 2009. Evaluation of ASTER and MODIS land surface temperature and emissivity products using long-term surface long wave radiation observations at SURFRAD sites. Remote Sensing of Environment 113: 15561565.
  • Weller J, Thornes JE. 2001. An investigation of winter nocturnal air and road surface temperature variation in the West Midlands, UK under different synoptic conditions. Meteorological Applications 8: 461474.
  • Weng Q. 2003. Fractal analysis of satellite-detected urban heat island effect. Photogrammetric Engineering and Remote Sensing 69: 555566.
  • Weng Q. 2009. Thermal infrared remote sensing for urban climate and environmental studies: methods, applications, and trends. ISPRS Journal of Photogrammetry and Remote Sensing 64: 335344.
  • Weng Q, Lu D, Schubring J. 2004. Estimation of land surface temperature-vegetation abundance relationship for urban heat island studies. Remote Sensing of Environment 89: 467483.
  • Williams CN, Basist A, Peterson TC, Grody N. 2000. Calibration and verification of land surface temperature anomalies derived from the SSM/I. Bulletin of the American Meteorological Society 81: 21412156.
  • Xian G, Crane M. 2006. An analysis of urban thermal characteristics and associated land cover in Tampa Bay and Las Vegas using Landsat satellite data. Remote Sensing of Environment 104: 147156.
  • Yamaguchi Y, Kahle AB, Tsu H, Kawakami T, Pniel M. 1998. Overview of advanced spaceborne thermal emission and reflection radiometer (ASTER). IEEE Transactions on Geoscience and Remote Sensing 36: 10621071.
  • Yan H, Zhang J, Hou Y, He Y. 2009. Estimation of air temperature from MODIS data in east China. International Journal of Remote Sensing 30: 62616275.
  • Yu Y, Privette JL, Pinheiro AC. 2008. Evaluation of split-window land surface temperature algorithms for generating climate data records. IEEE Transactions on Geoscience and Remote Sensing 46: 179192.
  • Yunyue Y, Tarpley D, Privette JL, Goldberg MD, Rama Varma Raja MK, Vinnikov KY, Hui X. 2009. Developing algorithm for operational GOES-R land surface temperature product. IEEE Transactions on Geoscience and Remote Sensing 47: 936951.