Abstract
Thermal infrared (TIR) remote sensing data can provide important measurements of surface energy fluxes and temperatures, which are integral to understanding landscape processes and responses. One example of this is the successful application of TIR remote sensing data to estimate evapotranspiration and soil moisture, where results from a number of studies suggest that satellite-based measurements from TIR remote sensing data can lead to more accurate regional-scale estimates of daily evapotranspiration. With further refinement in analytical techniques and models, the use of TIR data from airborne and satellite sensors could be very useful for parameterizing surface moisture conditions and developing better simulations of landscape energy exchange over a variety of conditions and space and time scales. Thus, TIR remote sensing data can significantly contribute to the observation, measurement, and analysis of energy balance characteristics (i.e., the fluxes and redistribution of thermal energy within and across the land surface) as an implicit and important aspect of landscape dynamics and landscape functioning.
The application of TIR remote sensing data in landscape ecological studies has been limited, however, for several fundamental reasons that relate primarily to the perceived difficulty in use and availability of these data by the landscape ecology community, and from the fragmentation of references on TIR remote sensing throughout the scientific literature. It is our purpose here to provide evidence from work that has employed TIR remote sensing for analysis of landscape characteristics to illustrate how these data can provide important data for the improved measurement of landscape energy response and energy flux relationships. We examine the direct or indirect use of TIR remote sensing data to analyze landscape biophysical characteristics, thereby offering some insight on how these data can be used more robustly to further the understanding and modeling of landscape ecological processes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson, J. M. and Wilson, S. B. 1984. The physical basis of current infrared remote-sensing techniques and the interpretation of data from aerial surveys. Int. J. Remote Sensing 5(1): 1–18.
Anderson, J. E. 1992. Determination of water surface temperatures based on the use of thermal infrared multispectral scanner data. GeoCarto Int. 7(3): 3–8.
Artis, D. A. and Carnahan, W. H. 1982. Survey of emissivity variability in thermography of urban areas. Remote Sensing Env. 12: 313–329.
Asrar, G. 1989. Theory and applications of optical remote sensing. John Wiley & Sons, New York.
Astling, E. G. and Quattrochi, D. A. 1989. Thermal characteristics of mountain desert terrain derived from Thermal Infrared Multispectral Scanner data. In Technical Papers, ASPRS/ACSM Annual Convention. Vol. 3, Remote Sensing. American Society for Photogrammetry and Remote Sensing, Falls Church, VA, pp. 217–225.
Berk, A. L., Bernstein, L. S. and Robertson, D. C. 1989. MODTRAN: A Moderate Resolution Model for LOWTRAN 7. U.S. Air Force Geophysics Laboratory, Hanscom Air Force Base, Massachusetts.
Boyd, D. S., Foody, G. M., Curran, P. J., Lucas, R. M. and Honzak, M. 1996. An assessment of radiance in Landsat TM middle and thermal infrared wavebands for the detection of tropical forest regeneration. Int. J. Remote Sensing 17(2): 249–261.
Buettner, K. J. K. and Kern, C. D. 1965. The determination of infrared emissivities of terrestrial surfaces. J. Geophys. Res. 70(6): 1329–1337.
Carlson, T. N. 1986. Regional-scale estimates of surface moisture availability and thermal inertia using remote thermal measurements. Remote Sensing Rev. 1(2): 197–247.
Carlson, T. N. and Buffum, M. J. 1989. On estimating total daily evapotranspiration from remote surface temperature measurements. Remote Sensing Env. 29: 197–207.
Carlson, T. N., Dodd, J. K., Benjamin, J. F. and Cooper, J. N. 1981. Satellite estimation of the surface energy balance, moisture availability, and thermal inertia. J. Appl. Meteorol. 20: 67–87.
Carlson, T. N., Capehart, W. J. and Gillies, R. R. 1995. A new look at the Simplified Method for remote sensing of daily evapotranspiration. Remote Sensing Env. 54: 161–167.
Chen, E., Allen, L. H., Jr., Bartholic, J. F., Bill, R. G., Jr. and Sutherland, R. A. 1979. Satellite-sensed winter nocturnal temperature patterns of the Everglades agricultural area. J. Appl. Meteorol. 18: 992–1002.
Chen, E., Allen, L. H., Jr., Bartholic, J. F. and Gerber, J. F. 1982. Delineation of cold-prone areas using nighttime SMS/GOES thermal data: Effects of soils and water. J. Appl. Meteorol. 21: 1528–1537.
Choudury, B. J. 1991. Multispectral satellite data in the context of land surface heat balance. Rev. Geophys. 29(2): 217–236.
Cracknell, A. P. and Xue, Y. 1996. Thermal inertia determination from space - a tutorial review. Int. J. Remote Sensing 17(3): 431–461.
Davis, A. P. and Lettington, A. H. 1988. Principles of thermal imaging. In Applications of Thermal Imaging. pp. 1–34. Edited by S. G. Burnay, T. L. Williams and C. H. Jones. Adam Hilger, Philadelphia.
Donner, B. L. and Running, S. W. 1986. Water stress response after thinning Pinus contorta stands in Montana. Forest Sci. 32: 614–625.
EOS, 1995. 1995 MTPE EOS Reference Handbook. NASA EOS Project Office. Goddard Space Flight Center. Greenbelt, MD.
EOS, 1997. 1997 MTPE EOS Data Products Handbook. Volume 1, TRMM & AM-1. NASA EOS Project Office. Goddard Space Flight Center. Greenbelt, MD.
Estes, J. E., Hajic, E. J. and Tinney, L. R. 1983. Fundamentals of image analysis: Analysis of visible and thermal infrared data. In Manual of Remote Sensing, 2nd ed. pp. 987–1124. Edited by R. N. Colwell. American Society for Photogrammetry and Remote Sensing, Falls Church, VA.
FIFE. 1992. FIFE special issue. J. Geophys. Res. 97(D17): 18,343–19,109.
Friedl, M. A. and Davis, F. W. 1994. Sources of variation in radiometric surface temperature over a tallgrass prarie. Remote Sensing Env. 48: 1–17.
Gauthier, F. and Tabbagh, A. 1994. The use of airborne thermal remote sensing for soil mapping: A case study in the Limousin Region (France). Int. J. Remote Sensing 15(10): 1981–1989.
Gillespie, A. R., Kahle, A. B. and Palluconi, F. D. 1984. Mapping alluvial fans in Death Valley, California, using mutichannel TIMS infrared images. Geophys. Res. Letters 11(11): 1153–1156.
Gillies, R. R. and Carlson, T. N. 1995. Thermal remote sensing of surface soil water content with partial vegetation cover for incorporation into climate models. J. Appl. Meteorol. 34: 745–756.
Gillies, R. R., Carlson, T. N., Cui, J., Kustas, W. P., and Humes, K. S. 1997. A verification of the ‘triangle’ method for obtaining surface soil water content and energy fluxes from remote measurements of the Normalized Difference Vegetation Index (NDVI) and surface radiant temperature. Int. J. Remote Sensing 18(15): 3145–3166.
Goossens, R., D'Haluin, E. and Larnoe, G. 1991. Satellite Image Interpretation (SPOT) for the Survey of the Ecological Infrastructure in a Small Scaled Landscape (Kempenland, Belgium). Landscape Ecol. 5(3): 175–182.
Goodin, D. G. 1995. Mapping the surface radiation budget and net radiation in a Sand Hills wetland using a combined modeling/remote sensing method and Landsat thematic mapper imagery. Geocarto Int. 10(2): 19–29.
Goward, S. N., Cruickshanks, G. D. and Hope, A. S. 1985. Observed relation between thermal emission and reflected spectral radiance of a complex vegetated surface. Remote Sensing Env. 18: 137–146.
Graetz, R. D. 1990. Remote sensing of terrestrial ecosystem structure: An ecologist's pragmatic view. In Remote Sensing of Biosphere Functioning. pp. 5–30. Edited by R. J. Hobbs and H. A. Mooney. Springer-Verlag, New York.
Greegor, D. H., Jr. 1986. Ecology from space. Bioscience 36(7): 429–432.
Griggs, M. 1968. Emissivities of natural surfaces in the 8–to 14–micron spectral region. J. Geophys. Res. 73: 7545–7551.
Haines-Young, R. H. 1992. The Use of Remotely-Sensed Satellite Imagery for Landscape Classification in Wales (U.K.). Landscape Ecol. 7(4): 253–274.
Haines-Young, R. H., Green, D. R. and Cousins, S. H. (Eds.) 1994. Landscape Ecology and GIS. Taylor and Francis, London.
Hall, F. G., Strebel, D. E. and Sellers, P. J. 1988. Linking Knowledge Among Spatial and Temporal Scales: Vegetation, Atmosphere, Climate and Remote Sensing. Landscape Ecol. 2(1): 3–22.
Hall, F. G., Hummerich, K. F., Goetz, S. J., Sellers, P. J. and Nickeson, J. E. 1992. Satellite remote sensing of surface energy balance: Success, failures, and unresolved issues in FIFE. J. Geophys. Res. 97(D17): 19,061–19,089.
Heilman, J. L., Kanemasu, E. T., Rosenberg, N. J. and Blad, B. L. 1976. Thermal scanner measurement of canopy temperatures to estimate evapotranspiration. Remote Sensing Env. 5: 137–145.
Hobbs, R. J. 1990. Remote Sensing of Spatial and Temporal Dynamics of Vegetation. In Remote Sensing of Biosphere Functioning. pp. 203–219. Edited by R. J. Hobbs and H. A. Mooney. Springer-Verlag, New York.
Holbo, H. R. and Luvall, J. C. 1989. Modeling surface temperature distributions in forest landscapes. Remote Sensing Env. 27: 11–24.
Idso, S. B., Jackson, R. D. and Reginato, R. J. 1975. Estimating Evaporation: A Technique Adaptable to Remote Sensing. Science 189: 991–992.
Idso, S. B., Jackson, R. D. and Reginato, R. J. 1976. Compensating for environmental variability in the thermal inertia approach to remote sensing of soil moisture. J Appl. Meteorol. 15: 811–817.
Iverson, L. R., Cook, E. A. and Graham, R. L. 1994. Regional forest cover estimation via remote sensing: The calibration center concept. Landscape Ecol. 9(3): 159–174.
Jackson, T. J. 1986. Soil water modeling and remote sensing. Transactions Geosci. Remote Sensing GE-24(1): 37–46.
Kahle, A. B., Schieldge, J. P. and Alley, R. E. 1984. Sensitivity of thermal inertia calculations to variations in environmental factors. Remote Sensing Env. 16: 211–232.
Kahle, A. B. 1987. Surface emittance, temperature and thermal inertia derived from Thermal Infrared Multispectral Scanner (TIMS) data for Death Valley, California. Geophysics 52(7): 858–874.
Kalma, J. D., Laughlin, G. P., Green, A. A. and O'Brien, M. T. 1986. Minimum temperature surveys based on near-surface air temperature measurements and airborne thermal scanner data. J. Climatology 6: 413–430.
Kidder, S. Q. and Vonder Haar, T. H. 1995. Satellite Meteorology: An Introduction. Academic Press, New York.
Kneizys, F. X., Shettle, E. P., Gallery, W. O., Chetwynd, J. J., Jr., Abreu, L. W., Selby, J. E. A., Clough, S. A. and Fenn, R. W. 1983. Atmospheric Transmittance/Radiance: Computer Code LOWTRAN 6. U.S. Air Force Geophysics Laboratory, Environmental Research Papers No. 846 (AFGL-TR-83–0187), Hanscom Air Force Base, Massachusetts.
Kustas, W. P., Pinker, R. T., Schmugge, T. J. and Humes, K. S. 1994. Daytime net radiation estimated for a semiarid rangeland basin from remotely sensed data. Agric. Forest Meteorol. 71: 337–357.
Lagouarde, J. P. and McAneney, K. J. 1992. Daily sensible heat flux estimation from a single measurement of surface temperature and maximum air temperature. Boundary Layer Meteorol. 44: 245–260.
Landsberg, H. E. 1981. The Urban Climate. Academic Press, New York.
Lambin, E. F. and Ehrlich, D. 1996. The surface temperature-vegetation index space for land cover and land-cover change analysis. Int. J. Remote Sensing 17(3): 463–487.
Laymon, C., Quattrochi, D., Malek, E., Hipps, L., Boettinger, J. and McCurdy, G. 1998. Remotely-sensed regional-scale evapotranspiration of a semi-arid Great Basin desert and its relationship to geomorphology, soils, and vegetation. Geomorphology 21(3–4): 329–349.
Lillesand, T. M. and Kiefer, R.W. 1987. Remote Sensing and Image Interpretation. John Wiley and Sons, New York.
Lo, C. P., Quattrochi, D. A. and Luvall, J. C. 1997. Application of high-resolution thermal infrared remote sensing and GIS to assess the urban heat island effect. Int. J. Remote Sensing 18(2): 287–304.
Luvall, J. C. and Holbo, H. R. 1989. Measurements of Short-Term Thermal Responses of Coniferous Forest Canopies Using Thermal Scanner Data. Remote Sensing Env. 27: 1–10.
Luvall, J. C., Lieberman, D., Lieberman, M., Hartshorn, G. S. and Peralta, R. 1990. Estimation of tropical forest canopy temperatures, thermal response numbers, and evapotranspiration using an aircraft-based thermal sensor. Photogrammetric Eng. Remote Sensing 56(10): 1393–1401.
Luvall, J. C. and Holbo, H. R. 1991. Thermal Remote Sensing Methods in Landscape Ecology. In Quantitative Methods in Landscape Ecology. pp. 127–152. Edited by M. G. Turner and R. H. Gardner. Springer-Verlag, New York.
Luvall, J. C., Schneider, E. D. and Kay, J. J. 1997. Thermal remote sensing and its use for studying the thermodynamics of ecosystem development. Landscape Ecol. (accepted for publication).
Luvall, J. C. 1997. The use of remotely sensed surface temperatures from an aircraft-based Thermal Infrared Multispectral Scanner (TIMS) to estimate the spatial and temporal variability of latent heat fluxes and thermal response numbers from a white pine (Pinus strobus L.) plantation. In Scale in Remote Sensing and GIS. pp. 169–185. Edited by D. A. Quattrochi and M. F. Goodchild. CRC/Lewis Publishers, Boca Raton, Florida.
Metzger, J. P. and Muller, E. 1996. Characterizing the complexity of landscape boundaries by remote sensing. Landscape Ecol. 11(2): 65–77.
Miller, D. H. 1981. Energy at the Surface of the Earth. Academic Press, New York.
MTPE EOS Reference Handbook 1995. NASA, Goddard Space Flight Center.
Moody, A. and Woodcock, C. E. 1995. The influence of scale and the spatial characteristics of landscapes on land-cover mapping using remote sensing. Landscape Ecol. 10(6): 363–379.
Moran, M. S. and Jackson, R. D. 1991. Assessing the spatial distribution of evapotranspiration using remotely sensed inputs. J. Env. Quality 20: 725–737.
Nellis, M. D. 1982. Application of thermal infrared imagery to canal leakage detection. Remote Sensing Env. 12: 229–234.
Nellis, M. D. and Briggs, J. M. 1989. The Effect of Spatial Scale on Konza Landscape Classification Using Textural Analysis. Landscape Ecol. 2(2): 93–100.
Nemani, R. R. and Running, S. W. 1989a. Estimation of regional surface resistance to evapotranspiration from NDVI and thermal-IR AVHRR data. J. Appl. Meteorol. 28: 276–284.
Nemani, R. R. and Running, S. W. 1989b. Testing a theoretical climate-soil-leaf area hydrologic equilibrium of forests using satellite data and ecosystem simulation. Agric. Forest Meteorol. 44: 245–260.
Nemani, R., Pierce, L. and Running, S. 1993. Developing satellite-derived estimates of surface moisture status. J. Appl. Meteorol. 32: 548–557.
Nichol, J. E. 1995. Monitoring tropical rain forest microclimate. Photogrammetric Engin. Remote Sensing 61(9): 1159–1165.
Nieuenhuis, G. J. A., Schmidt, E. A. and Tunnissen, H. A. M. 1985. Estimation of regional evapotranspiration or arable crops from thermal infrared images. Int. J. Remote Sensing 6: 1319–1334.
Norman, J. M., Divakarla, M. and Goel, N. S. 1995. Algorithms for extracting information from remote thermal-IR observations of the Earth's surface. Remote Sensing Env. 51: 157–168.
Oke, T. R. 1987. Boundary Layer Climates. 2nd ed. Methuen, New York.
Ottlé, C. and Vidal-Madjar, D. 1994. Assimilation of soil moisture inferred from infrared remote sensing in a hydrological model over the HAPEX-MOBILHY region. J. Hydrol. 158: 241–264.
Palluconi, F. D. and Meeks, G. R. 1985. Thermal Infrared Multispectral Scanner TIMS: An Investigator's Guide to TIMS Data. JPL Publication 85–32. NASA, Jet Propulsion Laboratory, Pasadena, California.
Petersen, G.W., Connors, K. F., Miller, D. A., Day, R. L. and Gardner, T. W. 1987. Aircraft and satellite remote sensing of desert soils and landscapes. Remote Sensing Env. 23: 253–271.
Peterson, D. L. and Running, S. W. 1989. Applications in forest science management. In Theory and Applications of Optical Remote Sensing. pp. 429–473. Edited by G. Asrar. John Wiley and Sons, New York.
Pierce, L. L and Congalton, R. G. 1988. A methodology for mapping forest latent heat flux densities using remote sensing. Remote Sensing Env. 24: 405–418.
Pierce, L. L., Running, S.W. and Riggs, G. A. 1990. Remote detection of canopy water stress in coniferous forests using the NS001 thematic mapper simulator and the thermal infrared multispectral scanner. Photogrammetric Eng. Remote Sensing 56(5): 579–586.
Price, J. C. 1977. Thermal inertia mapping: A new view of the earth. J. Geophys. Res. 82(18): 2582–2590.
Price, J. C. 1980. The potential of remotely sensed thermal infrared data to infer surface soil moisture and evaporation. Water Res. Res. 16(4): 787–795.
Price, J. C. 1982. Estimation of regional scale evapotranspiration through analysis of satellite thermal-infrared data. IEEE Trans Geosci. Remote Sensing GE-20(3): 286–292.
Price, J. C. 1989. Quantitative aspects of remote sensing in the thermal infrared. In Theory and Applications of Optical Remote Sensing. pp. 578–603. Edited by G. Asrar. John Wiley and Sons, New York.
Quattrochi, D. A. and Pelletier, R. E. 1991. Remote Sensing for Analysis of Landscapes: An Introduction. In Quantitative Methods in Landscape Ecology. pp. 51–76. Edited by M. G. Turner and R. H. Gardner. Springer-Verlag, New York.
Quattrochi, D. A. and Ridd, M. K. 1994. Measurement and analysis of thermal energy responses from discrete urban surfaces using remote sensing data. Int. J. Remote Sensing 15(10): 1991–2022.
Quattrochi, D. A. and Goel, N. S. 1995. Spatial and temporal scaling of thermal infrared remote sensing data. Remote Sensing Rev. 12: 255–286.
Quattrochi, D. A. and Ridd, M. K. 1998. Analysis of Vegetation within a semi-arid urban environment using high spatial resolution airborne thermal infrared remote sensing data. Atmos. Env. 32(1): 19–33.
Reginato, R. J., Idso, S. B., Vedder, J. F., Jackson, R. D., Blanchard, M. B. and Goettelman, R. 1976. Soil water content and evaporation determined by thermal parameters obtained from ground-based and remote measurements. J. Geophys. Res. 81(9): 1617–1620.
Reginato, R. J., Jackson, R. D. and Pinter, P. J., Jr. 1985. Evapotranspiration calculated from remote multispectral and ground station meteorological data. Remote Sensing Env. 18: 75–89.
Reutter, H., Olesen, F.-S. and Fischer, H. 1994. Distribution of the brightness temperature of land surfaces determined from AVHRR data. Int. J. Remote Sensing 15(1): 95–104.
Risser, P. G., Karr, J. R. and Forman, R. T. T. 1984. Landscape Ecology: Directions and Approaches. Illinois Natural History Survey Special Publication Number 2. Report on a workshop held at Allerton Park, Piatt County, Illinois, April 1983. Illinois Natural History Survey, Champaign, Illinois.
Risser, P. G. 1987. Landscape ecology: State of the art. In Landscape Heterogeneity and Disturbance. pp. 3–14. Edited by M. G. Turner. Springer-Verlag, New York.
Sader, S. A. 1986. Analysis of effective radiant temperatures in a Pacific Northwest forest using Thermal Infrared Multispectral Scanner data. Remote Sensing Env. 19: 105–115.
Sandholt, I. and Anderson, H. S. 1993. Derivation of actual evapotranspiration in the Senegalese Sahel, using NOAA-AVHRR data during the 1987 growing season. Remote Sensing Env. 46: 164–172.
Schneider, E. D and Kay, J. J. 1998. Life as a Manifestation of the Second Law of Thermodynamics. Math Comp. Modelling 19(68): 25–48.
Seguin, B. and Itier, B. 1983. Using midday surface temperature to estimate daily evaporation from satellite thermal IR data. Int. J. Remote Sensing 4(2): 371–383.
Sellers, P. J., Hall, F. G., Asrar, G., Strebel, D. E., and Murphy, R. E. 1992. An overview of the First International Satellite Land Surface Climatology Project (ISLSCP) Field Experiment (FIFE). J. Geophys. Res. 97(D17): 18,345–18,371.
Sellers, P. J., Meeson, B. W., Hall, F. G., Asrar, G., Murphy, R. E., Schiffer, R. A., Bretherton, F. P, Dickinson, R. E., Ellingson, R. G., Field, C. B., Huemmrich, K. F., Justice, C. O., Melack, J. M., Roulet, N. T., Schimel, D. S. and Try, P. D. 1995a. Remote sensing of the land surface for studies of global change: Models - algorithms - experiments. Remote Sensing Env. 51: 3–26.
Sellers, P. J., Hall, F., Margolis, H., Kelly, B., Baldocchi, D., den Hartog, G., Cihlar, J., Ryan, M., Goodison, B., Crill, P., Ranson, K. J., Lettenmaier, D. and Wickland, D. E. 1995b. The Boreal Ecosystem-Atmosphere study (BOREAS): An overview and early results from the 1994 field year. Bull. Am. Meteorol. Soc. 76(9): 1549–1577.
Sellers, P. J., Hall, F. G., Kelly, R. D., Black, A, Baldocchi, D., Berry, J., Ryan, m, Ranson, K. J., Crill, P. M., Lettenmaier, D. P., Margolis, H, Cihlar, J., Newcomer, J., Fitzjarrald, D., Jarvis, P. G., Gower, S. T., Halliwell, D., Williams, D., Goodison, B., Wickland, D. and Guertin, F. E. 1997. BOREAS in 1997: Experiment overview, scientific results, and future directions. J. Geophys. Res. 102(D24): 28,731–28,769.
Short, N. M. and Stuart, L. M., Jr. 1982. The Heat Capacity Mapping Mission (HCMM) Anthology. NASA SP-465. NASA Scientific and Technical Information Branch, Washington, DC.
Soer, G. J. R. 1980. Estimation of regional evapotranspiration and soil moisture conditions using remotely sensed crop surface temperatures. Remote Sensing Env. 9: 27–45.
Sugita, M. and Brutsaert, W. 1993. Comparison of land surface temperatures derived from satellite observations with ground truth during FIFE. Int. J. Remote Sensing 14(9): 1659–1676.
Sun, J. and Mahrt, L. 1994. Spatial distribution of surface fluxes estimated from remotely sensed variables. J. Appl. Meteorol. 33: 1341–1353.
Taconet, O., Bernard, R. and Vidal-Madjar, D. 1986a. Evapotranspiration over an agricultural region using a surface flux/temperature model based on NOAA-AVHRR data. J. Climate Appl. Meteorol. 25: 284–307.
Taconet, O., Carlson, T., Bernard, R. and Vidal-Madjar, D. 1986b. Evaluation of a surface/vegetation parameterization using satellite measurements of surface temperature. J. Climate Appl. Meteorol. 25: 1752–1767.
Tucker, C. J., Townshend, J. R. G. and Goff, T. E. 1985. African landcover classification using satellite remote sensing. Science 277: 369–375.
Turner, M. G. and Gardner, R. H. 1991. Quantitative Methods in Landscape Ecology. Springer-Verlag, New York.
Vidal, A. and Perrier, A. 1989. Analysis of a simplified relation for estimating daily evapotranspiration from satellite thermal IR data. Int. J. Remote Sensing 10(8): 1327–1337.
Wilson, S. B. and Anderson, J. M. 1986. The applicability of LOWTRAN 5 computer code to aerial thermographic data collection. Int. J. Remote Sensing 7(3): 379–388.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Quattrochi, D.A., Luvall, J.C. Thermal infrared remote sensing for analysis of landscape ecological processes: methods and applications. Landscape Ecology 14, 577–598 (1999). https://doi.org/10.1023/A:1008168910634
Issue Date:
DOI: https://doi.org/10.1023/A:1008168910634