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International Journal of Remote Sensing Volume 13, 1992 - Issue 15
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Original Articles

The relationship between surface temperature and a spectral vegetation index of a tallgrass prairie: effects of burning and other landscape controls

A. S. HOPE Department of Geography, San Diego State Universit, San Diego, CA, 92182, U.S.A.
&
T. P. McDOWELL Department of Geography, San Diego State Universit, San Diego, CA, 92182, U.S.A.
Pages 2849-2863 | Received 03 Aug 1990, Accepted 10 Jun 1991, Published online: 28 Mar 2007

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Salahuddin M. Jaber. (2021) On the relationship between normalized difference vegetation index and land surface temperature: MODIS-based analysis in a semi-arid to arid environment. Geocarto International 36:10, pages 1117-1135.
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Subhanil Guha & Himanshu Govil. (2021) A long-term monthly analytical study on the relationship of LST with normalized difference spectral indices. European Journal of Remote Sensing 54:1, pages 487-512.
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Forough Marzban, Sahar Sodoudi & René Preusker. (2018) The influence of land-cover type on the relationship between NDVI–LST and LST-Tair. International Journal of Remote Sensing 39:5, pages 1377-1398.
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Yong Huh & JaeKang Lee. (2017) Enhanced contextual forest fire detection with prediction interval analysis of surface temperature using vegetation amount. International Journal of Remote Sensing 38:11, pages 3375-3393.
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Zhigang Sun, Qinxue Wang, Bunkei Matsushita, Takehiko Fukushima, Zhu Ouyang, Masataka Watanabe & Mekonnen Gebremichael. (2011) Evaluation of the VI–T s method for estimating the land surface moisture index and air temperature using ASTER and MODIS data in the North China Plain. International Journal of Remote Sensing 32:22, pages 7257-7278.
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N.R. Patel. (2006) Investigating Relations Between Satellite Derived Land Surface Parameters and Meteorological Variables. Geocarto International 21:3, pages 47-53.
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K.‐S. Han, A. A. Viau, Y.‐S. Kim & J.‐L. Roujean. (2005) Statistical estimate of the hourly near‐surface air humidity in eastern Canada in merging NOAA/AVHRR and GOES/IMAGER observations. International Journal of Remote Sensing 26:21, pages 4763-4784.
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Bengt Lundén, Kjell Wester & Sune Axelsson. (1997) Analysis of satellite–derived surface temperatures in relation to land cover and topography. Norsk Geografisk Tidsskrift - Norwegian Journal of Geography 51:1, pages 47-59.
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W.P. KUSTAS & J.M. NORMAN. (1996) Use of remote sensing for evapotranspiration monitoring over land surfaces. Hydrological Sciences Journal 41:4, pages 495-516.
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E. F. LAMBIN & D. EHRLICH. (1996) The surface temperature-vegetation index space for land cover and land-cover change analysis. International Journal of Remote Sensing 17:3, pages 463-487.
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Nagwan M. Afify, Mohammed A. El-Shirbeny, Amany F. El-Wesemy & Mohsen Nabil. (2023) Analyzing satellite data time-series for agricultural expansion and its water consumption in arid region: a case study of the Farafra oasis in Egypt’s Western Desert. Euro-Mediterranean Journal for Environmental Integration 8:1, pages 129-142.
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S. Mohanasundaram, Triambak Baghel, Vishal Thakur, Parmeshwar Udmale & Sangam Shrestha. (2022) Reconstructing NDVI and land surface temperature for cloud cover pixels of Landsat-8 images for assessing vegetation health index in the Northeast region of Thailand. Environmental Monitoring and Assessment 195:1.
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Bishal Roy & Ehsanul Bari. (2022) Examining the relationship between land surface temperature and landscape features using spectral indices with Google Earth Engine. Heliyon 8:9, pages e10668.
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Eduardo Andre Kaiser, Silvia Beatriz Alves Rolim, Atilio Efrain Bica Grondona, Cristiano Lima Hackmann, Rodrigo de Marsillac Linn, Pâmela Suélen Käfer, Nájila Souza da Rocha & Lucas Ribeiro Diaz. (2022) Spatiotemporal Influences of LULC Changes on Land Surface Temperature in Rapid Urbanization Area by Using Landsat-TM and TIRS Images. Atmosphere 13:3, pages 460.
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Ehsanul Bari, Nusrat Jahan Nipa & Bishal Roy. (2021) Association of vegetation indices with atmospheric & biological factors using MODIS time series products. Environmental Challenges 5, pages 100376.
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Subhanil Guha & Himanshu Govil. (2020) An assessment on the relationship between land surface temperature and normalized difference vegetation index. Environment, Development and Sustainability 23:2, pages 1944-1963.
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Laura Crocetti, Matthias Forkel, Milan Fischer, František Jurečka, Aleš Grlj, Andreas Salentinig, Miroslav Trnka, Martha Anderson, Wai-Tim Ng, Žiga Kokalj, Andreea Bucur & Wouter Dorigo. (2020) Earth Observation for agricultural drought monitoring in the Pannonian Basin (southeastern Europe): current state and future directions. Regional Environmental Change 20:4.
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Subhanil Guha & Himanshu Govil. (2020) Land surface temperature and normalized difference vegetation index relationship: a seasonal study on a tropical city. SN Applied Sciences 2:10.
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Faisal Mumtaz, Yu Tao, Gerrit de Leeuw, Limin Zhao, Cheng Fan, Abdelrazek Elnashar, Barjeece Bashir, Gengke Wang, LingLing Li, Shahid Naeem, Arfan Arshad & Dakang Wang. (2020) Modeling Spatio-Temporal Land Transformation and Its Associated Impacts on land Surface Temperature (LST). Remote Sensing 12:18, pages 2987.
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R. M. Yuvaraj. (2020) Extents of Predictors for Land Surface Temperature Using Multiple Regression Model. The Scientific World Journal 2020, pages 1-10.
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Subhanil Guha, Himanshu Govil & Prabhat Diwan. (2020) Monitoring LST-NDVI Relationship Using Premonsoon Landsat Datasets. Advances in Meteorology 2020, pages 1-15.
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Emilio Chuvieco, Florent Mouillot, Guido R. van der Werf, Jesús San Miguel, Mihai Tanase, Nikos Koutsias, Mariano García, Marta Yebra, Marc Padilla, Ioannis Gitas, Angelika Heil, Todd J. Hawbaker & Louis Giglio. (2019) Historical background and current developments for mapping burned area from satellite Earth observation. Remote Sensing of Environment 225, pages 45-64.
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Yuanhong Deng, Shijie Wang, Xiaoyong Bai, Yichao Tian, Luhua Wu, Jianyong Xiao, Fei Chen & Qinghuan Qian. (2018) Relationship among land surface temperature and LUCC, NDVI in typical karst area. Scientific Reports 8:1.
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Xiya Zhang & Peijun Li. (2018) A temperature and vegetation adjusted NTL urban index for urban area mapping and analysis. ISPRS Journal of Photogrammetry and Remote Sensing 135, pages 93-111.
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Wenbin Zhu, Aifeng Lv, Shaofeng Jia & Liang Sun. (2017) Development and evaluation of the MTVDI for soil moisture monitoring. Journal of Geophysical Research: Atmospheres 122:11, pages 5533-5555.
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B. Viner, M. Parker, G. Maze, P. Varnedoe, M. Leclerc, G. Starr, D. Aubrey, G. Zhang & H. Duarte. (2016) Intermediate time scale response of atmospheric CO 2 following prescribed fire in a longleaf pine forest . Journal of Geophysical Research: Biogeosciences 121:10, pages 2745-2760.
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Carmelo Cammalleri & Jürgen Vogt. (2015) On the Role of Land Surface Temperature as Proxy of Soil Moisture Status for Drought Monitoring in Europe. Remote Sensing 7:12, pages 16849-16864.
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George PetropoulosWilliam Kustas & Christopher Hain. 2013. Remote Sensing of Energy Fluxes and Soil Moisture Content. Remote Sensing of Energy Fluxes and Soil Moisture Content 207 232 .
Kyotaek Hwang & Minha Choi. (2013) Seasonal trends of satellite-based evapotranspiration algorithms over a complex ecosystem in East Asia. Remote Sensing of Environment 137, pages 244-263.
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Chengbin Deng & Changshan Wu. (2013) Examining the impacts of urban biophysical compositions on surface urban heat island: A spectral unmixing and thermal mixing approach. Remote Sensing of Environment 131, pages 262-274.
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M. C. Anderson, W. P. Kustas, J. M. Norman, C. R. Hain, J. R. Mecikalski, L. Schultz, M. P. González-Dugo, C. Cammalleri, G. d'Urso, A. Pimstein & F. Gao. (2011) Mapping daily evapotranspiration at field to continental scales using geostationary and polar orbiting satellite imagery. Hydrology and Earth System Sciences 15:1, pages 223-239.
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Arnon Karnieli, Nurit Agam, Rachel T. Pinker, Martha Anderson, Marc L. Imhoff, Garik G. Gutman, Natalya Panov & Alexander Goldberg. (2010) Use of NDVI and Land Surface Temperature for Drought Assessment: Merits and Limitations. Journal of Climate 23:3, pages 618-633.
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JongGeol PARK, Ryutaro TATEISHI & Eiji NUNOHIRO. (2010) Analysis of global tendencies in land cover change using time series NOAA/AVHRR. Journal of the Japan society of photogrammetry and remote sensing 49:6, pages 387-399.
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Samuel N Goward, Yongkang Xue & Kevin P Czajkowski. (2002) Evaluating land surface moisture conditions from the remotely sensed temperature/vegetation index measurements. Remote Sensing of Environment 79:2-3, pages 225-242.
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Jiang Dong, Wang Jianhua, Wang Naibin & Yang Xiaohuan. (2001) Vegetation index-surface temperature feature space and its application. Vegetation index-surface temperature feature space and its application.
Eric Lambin. 2007. Encyclopedia of Analytical Chemistry. Encyclopedia of Analytical Chemistry.
Greg M. O'Donnell, Kevin P. Czajkowski, Ralph O. Dubayah & Dennis P. Lettenmaier. (2000) Macroscale hydrological modeling using remotely sensed inputs: Application to the Ohio River basin. Journal of Geophysical Research: Atmospheres 105:D10, pages 12499-12516.
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Kevin P. Czajkowski, Theresa Mulhern, Samuel N. Goward, Josef Cihlar, Ralph O. Dubayah & Stephen D. Prince. (1997) Biospheric environmental monitoring at BOREAS with AVHRR observations. Journal of Geophysical Research: Atmospheres 102:D24, pages 29651-29662.
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Samuel N. Goward & Dennis G. Dye. 1997. The Use of Remote Sensing in the Modeling of Forest Productivity. The Use of Remote Sensing in the Modeling of Forest Productivity 241 272 .
M.S. Moran, A.F. Rahman, J.C. Washburne, D.C. Goodrich, M.A. Weltz & W.P. Kustas. (1996) Combining the Penman-Monteith equation with measurements of surface temperature and reflectance to estimate evaporation rates of semiarid grassland. Agricultural and Forest Meteorology 80:2-4, pages 87-109.
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Eugene L. Peck & Allen S. Hope. (2012) Spatial patterns of soil moisture for the FIFE study area derived from remotely sensed and ground data. Journal of Geophysical Research: Atmospheres 100:D12, pages 25463-25468.
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M.A. Friedl & F.W. Davis. (1994) Sources of variation in radiometric surface temperature over a tallgrass prairie. Remote Sensing of Environment 48:1, pages 1-17.
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