___

• Agam, N., Berliner, P.R., 2004. Diurnal water content changes in the bare soil of a coastal desert. Journal of Hydrometeorology 5: 922–933.
• Amer, A.M., 1982. Effect of the overburden pressure on the capillary sorption potential of water in swelling soils. PhD Thesis, Faculty of Soil Science, Lomosonov Moscow State University, Moscow, Russia. [in Russian].
• Amer, A.M., 1993. Surface area measurements as related to water vapour adsorption in arid soils of Egypt. Proceedings of the IV International Conference on Desert Development. 25-30 July, Mexico City, Mexico. pp. 619–627.
• Amer, A.M., 2003. Soil hydro-physics. First Part, Al-Dar Al-Arabia for Publishing Cairo, Egypt. 452p. [in Arabic].
• Amer, A.M., 2009. Moisture adsorption capacity and surface area as deduced from vapour pressure isotherms in relation to hygroscopic water of soils. Biologia 64(3): 516-521.
• Amer, A.M., 2014. Moisture dynamics and available water capacity in root zone as influenced by swelling pressure and water table in tropical soils. Final Report, submitted to SENESCYT, Prometeo Project, Ecuador.
• Amer, A.M., 2015. Vapor adsorption capacity and soil wetting. In: Wetting and wettability. Aliofkhazraei, M. (Ed.). IntechOpen, pp.1-14. Black, G.A., Evans, D.D., White, J.L., Ensminger, L.E., Clerk, F.E., 1965. Methods of soil analysis. Part 1&2. American Society of Agronomy - Soil Science Society of America, Madison, Wisconsin, USA.
• Brunauer, S., Emmett, P.H., Teller, E., 1938. Adsorption of gases in multi-molecular layers. Journal of the American Chemical Society 60(2): 309-319.
• El-Fiky, Y.S., 2002. Studies on hydro-physical and physicochemical properties of new reclaimed soils in Egypt. PhD Thesis, Soil Science Department, Faculty of Agriculture, Menoufia University, Egypt.
• El-Gabaly, M.M., Khadr, M., 1962. Clay mineral studies of some Egyptian Desert and Nile alluvial soils. European Journal of Soil Science 13(2): 333–342.
• El-Sharkawy, A.F., 1994. Study of water imbibition in some agricultural soils. MSc Thesis, Agricultural Engineering Department, Faculty of Agriculture, Menoufia University, Egypt.
• Farrar, D.M. 1963. The use of vapour‐pressure and moisture content measurements to deduce the internal and external surface area of soil particles. Europen Journal Soil Science 14(2): 303–321.
• Globus, A.M., 1996. On specific soil surface area computing by one point on the water vapor sorption isotherm. Eurasian Soil Science 28(10): 154–155.
• Han, E., 2011. Soil moisture data assimilation at multiple scales and estimation of representative field scale soil moisture characteristics. PhD. Thesis, Purdue University, West Lafayette, USA.
• Jacobs, A.F.G., Heusinkveld, B.G., Berkowicz, S.M., 1999. Dew deposition and drying in a desert system: a simple simulation model. Journal of Arid Environments 42(3): 211–222.
• Klute, A. 1986. Methods of soil analysis. Part I Physical and Mineralogical Methods. American Society of Agronomy - Soil Science Society of America, Madison, Wisconsin, USA.
• Kosmas, C., Danalatos, N.G., Poesen, J., van Wesemael, B., 1998. The effect of water vapour adsorption on soil moisture content under Mediterranean climatic conditions. Agricultural Water Management 36(2): 157–168.
• Kosmas, C., Marathianou, M., Gerontidis, St., Detsis, V., Tsara, M., Poesen, J., 2001. Parameters affecting water vapor adsorption by the soil under semi-arid climatic conditions. Agricultural Water Management 48(1): 61–78.
• Levy, G.J., Mamedov, A.I., 2002. High-energy-moisture-characteristic aggregate stability as a predictor for seal formation. Science Society of America Journal 66(5): 1603-1609.
• Nerpin, V., Chudnovski, A.F., 1975. Energy and mass-transfer in plant-soil-air system. Hydro-Meteo Izdat., Leningrad, Russia. [in Russian]. Orchiston, H., 1954. Adsorption of water vapour: II. Clays at 250C. Soil Science 78(6): 463–479.
• Quirk, J.P., 1955. Significance of surface areas calculated from water vapour sorption isotherms by use of the BET equation. Soil Science 80(6): 423–430.