B. P. Weidema, “Physical Impacts of Land Use in Product Life Cycle Assessment,” 2001. http://www.lca-net. com/publications/older/
S. E. Jorgensen, R. Costanza, F. L. Xu, (Eds.) “Handbook of Ecological Indicators for Assesment of Ecosystem Health,” Taylor & Frances, 2005.
W. M. J. Achten, E. Mathijs and B. Muys, “Proposing a Life Cycle Land Use Impact Calculation Methodology,” Proceedings of 6th International Conference on LCA in the Agri-Food Sector, Zurich, 12-14 November 2008.
J. S. Jorgensen and Yu. M. Svirezhev, “Towards a Thermodynamic Theory for Ecological Systems,” Elsever, Oxford, 2004.
E. D. Schnider and J. J. Kay, “Life as a Manifestation of the Second Law of Thermodynamics,” Mathematical and Computer Modelling, Vol. 19, No. 6-8, 1994, pp. 25-48.
S. М. Moran, “Chapter 8. Thermal Infrared Measurements as Indicator of Plant Ecosystem Health,” In: D. A. Quatochi and J. C. Luvall, Eds., Thermal Remote Sensing in Land Surface Processes, Tailor and Frances, London, 2004, pp. 257-282.
J. C. Luvall and H. R.Holbo, “Measurements of Short Term Thermal Response of Coniferous Forest Canopies Using Thermal Scanner Data,” Remote Sensing of Environment, Vol. 27, No. 1, 1989, pp. 1-10.
R. D. Jackson, “The Crop Water Stress Index: A Second Look,” Proceedings of International Conference on Measur- ment of Soil and Plant Water Stress, Utah State University, July 1987, pp. 87-92.
T. Wagendorp, H. Gulinck, P. Coppin and B. Muys, “Land Use Impact Evaluation in Life Cycle Assessment Based on Ecosystem Thermodynamics,” Energy, Vol. 31, No. 1, 2006, pp. 112-125.
K. Watson, L. C. Rowan and T. V. Offield, “Application of Thermal Modelling in Geologic Interpretation of IR Images,” Proceedings of 7th International Symposium on Remote Sensing of Environment, Ann Arbor, Michigan, 1971, pp. 2017-2041.
V. I. Gornyy, B. V. Shilin and G. I. Yasinskii, “Teplo- vaya aerokosmocheskaya s’emka (Thermal Airborne and Satellite Flown Survey),” in Russian, Nedra, Moscow, 1993.
Y. Xue and A. P. Cracknell, “Advanced Thermal Inertia Modeling,” International Journal of Remote Sensing, Vol. 16, No. 3, 1995, pp. 431-446.
A. P. Cracknell and Y. Xue, “Thermal Inertia Determination from Space—A Tutorial Review,” International Journal of Remote Sensing, Vol. 17, No. 3, 1996, pp. 431-461.
V. I. Gornyy and S. G. Kritsuk, “Possibility of Mapping Physiographic Zones by Thermal Survey from Space,” Doklady Earth Sciences, Vol. 411A, No. 9, 2006, pp. 1473-1475.
A. I. Levit, “Yuzhnyi Ural: geografiya, ecologiya, prirodopol’zovanie (South Ural: Geography, Environment, Landuse),” in Russian, Yuzhno-Ural’skoe, izdatel’stvo, 2005.
J. Xiong, G. Toller, V. Chiang, J. Sun, J. Esposito and W. Barnes, “MODIS Level 1B Algorithm Theoretical Basis Document. Version 3, Prepared for: National Aeronautics and Space Administration,” 2005. http://mcst.gsfc.nasa. gov/uploads/files/documents/M1058.pdf
G. Boulet, A. Chehbouni, I. Braud, M. Vauclin, R. Haverkamp and C. Zammit, “A Simple Water and Energy Balance Model Designed for Regionalization and Remote Sensing Data Utilization,” Agricultural and Forest Meteorology, Vol. 105, No. 1-3, 2000, pp. 117-132.
J. C. Price, “On the Use of Satellite Data to Infer Surface Fluxes at Meterological Scales,” Journal of Applied Meteorology, Vol. 21, No. 8, 1982, pp. 1111-1122.
H. A. M. Thunnissen and G. J. A. Nieuwenhuis, “A Simplified Method to Estimate Regional 24-h Evapotranspiration from Thermal Infrared Data,” Remote Sensing of Environment, Vol. 31, No. 3, 1990, pp. 211-225.
A. Vidal and A. Perrier, “Analysis of a Simplified Relation for Estimating Daily Evapotranspiration from Satellite Termal IR Data,” International Journal of Remote Sensing, Vol. 10, No. 8, 1989, pp. 1327-1337.