1998. Crop evapotranspiration. Guidelines for computing water requirements. FAO Irrigation and Drainage Paper 56. Rome: UN Food and Agriculture Organization. et al.
1965. Thermal conductivity and diffusivity of soils as related to moisture tension and other physical properties. Agric. Met. 2, 271–9. and
1995. Intra-field variability of scalar flux densities across a transition between a desert and an irrigated potato field. Boundary-Layer Met. 76 ,109–356. and
2011. The global cryosphetre; Past, presentand future. Cambridge Cambridge University Press. and
1950 Determining consumptive use and irrigation water requirements. Tech. Bull.,1275. Washington, DC US Dept. of Agriculture., and .
1995. Modelling evaporation from a high subarctic willow-birch forest. Int. J. Climatl. 15(1), 97–106., and
1997. Energy balance and canopy conductance of a boreal aspen forest: Partitioning overstory and understory components. J. Geophys. Res. 102(D24), 28915–27. et al.
2004. Canopy conductance of a boreal aspen forest, Prince Albert National Park, Canada. Hydrol. Proces., 8, 1561–78., and
1926. The ratio of heat losses by conduction and by evaporation from any water surface. Phys. Rev. 27, 779–87.
1963. Investigation of energy and mass transfers near the ground including the influences of the soil-plant-atmosphere system. Davis, CA: Department of Agricultural Engineering and Department of Irrigation, University of California. Contract DA- 36-039-SC-80334 U.S. Army Electronic Proving Ground Fort Huachuca, AZ,, , and et al.
1982. Evaporation into the atmosphere. New York: Reidel.
1998. Hydrologic cycle explains the evaporation paradox. Nature 396(30). doi: 10.1038/23845., and
2014. Climate and vegetation: An ERA-Interim and GIMMS NDVI analysis. J. Climate 27, 5111–18. et al.
1963. Analysis of soil and air temperatures by Fourier technique.J. Geophys. Res. 68, 2217–32.
1991. Physiological and environmental regulation of stomatal conductance, photosynthesis and transpiration: a model that includes a laminar boundary layer. Agric. For. Met. 54, 107–36. et al.
1950. Methods in climatology, 2nd ed. Cambridge, MA: Harvard University Press., and
1984. A statistical exploration of the relationships of soil moisture characteristics to the physical properties of soils. Water Resour. Res. 20, 682–90.. et al.
2000: Estimating the roughness of cities and sheltered country. Preprints, 12th Conf. on Applied Climatology, Asheville, NC. Boston, MA: Amer. Meteor. Soc., pp. 96–9. et al.
1999. Surface conductance and energy exchange in an intensively managed peat pasture. Climate Res. 12, 29–37. doi:10.3354/cr012029., and
1977. Guidelines for predicting cropwater requirements. FAO Irrigation and Drainage Paper, no. 24. 2nd ed. Rome: UN Food and Agriculture Organization., and
1963. The adjustment of profiles and eddy fluxes. Quart. J. Roy. Met. Soc. 89, 276–80.
1981. Thermal properties of soils. CRREL Monograph 81-1. Hanover, NH: U.S. Army Corps of Engineers, Cold Regions Research and Engineering Laboratory.
2007. The periglacial environment. New York: Wiley.
1990. The internal boundary layer: A review. Boundary-Layer Met. 59L, 171–203..
1979. An analytical model of rainfall interception by forests. Quart. J. Roy. Met. Soc. 105, 45–53.
1995. Estimating sparse forest rainfall interception with an analytical model. J Hydrol. 170, 79–86., , and
1966. The energy environment of the alpine tundra. Oecol. Plant, 1, 39–62. and
1972. Thermal effects in permafrost. Proceedings, Canadian Northern Pipeline Research Conference. Tech. Mem. No.104. Ottawa: National Research Council, Canada. pp. 25–39. et al.
1982. The influence of snow cover on the ground thermal regime. Canad. Geotech. J. 19, 421–32.
1989. An examination of the concept of potential evaporation. J. Hydrol. 111, 9–19.
2013. CryoGRID 1.0: Permafrost distribution in Norway estimated by a spatial numerical model. Permafrost Periglac. Proc. 24, 2–19. et al.
2003. History and evaluation of Hargreaves evapotranspiration equation. J. Irrig. Drain. Eng. 129, 53–63., and
2015. Creating long term gridded fields of reference evapotranspiration in Alpine terrain based on a re-calibrated Hargreaves method. Hydrol. Earth System Sci., Disc. 12, 5055–82., and
1915; 1917. Über die Bewgung der Luft in den untersten Schichten der Atmosphäre. Met. Zeit. 32, 1–16. 34, 273–85.
1919. Rainfall interception. MWR 47, 603–23.
2001. Non-conductive heat transfer associated with frozen soils. Global Planet. Change 29, 275–92 et al.
2012. Permafrost, heat flow, and the geothermal regime at Prudhoe Bay, Alaska. J. Geophys. Res., Solid Earth. B11(87), 9301–16. et al.
1977. A simple formula for estimating evapotranspiration rates in various climates, using temperature data alone. Agric Met. 18, 409–24.
2004. The dynamics of rainfall interception by a seasonal temperate rainforest. Agric. Forest Met. 124, 171–91., , and
1988. A generalized combination equation derived from a multi-layer micro-meteorological model. Boundary-Layer Met. 45, 103–15..
1991. The concept of canopy resistance: Historical survey and comparison of different approaches. Agric. Forest Met. 54, 227–40.
1988. The measurement and modelling of rainfall interception by Amazonian rain forest.Agric. Forest Met. 43, 277–94., , and
1972. The world of underground ice. Ann. Assoc. Amer. Geog. 62, 1–22.
2013. Estimating actual, potential, reference crop and pan evaporation using standard meteorological data: A pragmatic synthesis. Hydrol. Earth System Sci. 17, 1331–63. et al.
1960. Water relations and forest distribution in the Douglas-fir region of Vancouver Island. Publ. 1091, Div. For. Biol., Dept. Agric. Ottawa, Canada.,
1976A. Evaporation and advection. I. Evaporation from extensive homogeneous surfaces. Quart. J. Roy. Met. Soc. 102, 181–91.
1976B. Evaporation and advection. II: Evaporation downwind of a boundary separating regions having different surface resistances and available energies. Quart. J. Roy.Met Soc. 102, 193–202.
2010. Global canopy interception from satellite observations. J. Geophys. Res., Atmos. 115 (D16122). doi:10.1029/2009JD013530 et al.
1965. Evaporation and environment. Symposia of the Society for Experimental Biology 19: 205–24.
1990. Principles of environmental physics, 2nd edn. London . Arnold. and
2014. Principles of environmental physics. Plants, animals and the atmosphere, 4th ed. Amsterdam: Elsevier., and
1958. A graphical technique for determining evapotranspirayion by the Thornthwaite method. MWR 86, 123–8., and
1948: Natural evaporation from open water, bare soil and grass. Proc. Roy. Soc. London A 193, 120–45.
1957. Evaporation and moisture and heat fields in the soils. J. Met. 14, 354–66.
1955. Free and forced convection in the atmosphere near the ground. Quart. J. Roy. Met. Soc. 81, 139–43.
1972. On the assessment of surface heat flux and evaporation using large-scale parameters. MWR 100, 81–92.
1957. A note on the physics of air temperature. Weather 12(8), 236–66.
1975. The hydrological cycle in vegetation. In (ed.) Vegetation and atmosphere. Vol. 1. Principles.London: Academic Press. pp. 111–54.
1989. Micrometeorology of tropical and temperate forest. Phil. Trans. Roy. Soc., London B233, 321–46.
2007. Putting the vap into evaporation. Hydrol. Earth System Sci. 11 ,210–44.
1961. Practical microclimatology. Melbourne, Australia: CSIRO., and
2008. 13 years of observations at Alaskan CALM sites: Long-term active layer and ground surface temperature trends. In and (eds.), Ninth International Conference on Permafrost. Fairbanks: Institute of Northern Engineering, University of Alaska Fairbanks, pp. 1727–32. et al.
1975. Momentum, mass and heat exchange of plant communities. In (ed.), Vegetation and atmosphere. Vol. 1. Principles. London: Academic Press, pp. 57–109.
1977. On Penman's equation for estimating regional evaporation. Quart. J. Roy. Met. Soc. 103, 345–57., and
1948. An approach toward a rational classification of climate. Geog. Rev. 38, L 55–94.
1955. The water balance. Publ. Climatology Centerton, NJ: Laboratory of Climatology, 8: pp. 1–104., and
1954. Le bilan d'eau des sols: relation entre les précipitations, l’évaporation et l’écoulement. Annal. Agronom. Série A(5), 491–595.,
2015. A ground temperature map of the North Atlantic permafrost region based on remote sensing and reanalysis data. Cryosphere Discuss. 8, 753–90. et al.
1976. Canadian Building Digest, 1976. Ottawa: National Research Council of Canada, Institute for Research in Construction No. 180. http://irc.nrc-cnrc.gc.ca/cbd/cbd180e.html, N. 180., and
1975. Climate in a small area: An introduction to local meteorology.Tokyo: Tokyo University Press.
2005. Spatial and temporal variability in active layer thickness over the Russian Arctic drainage basin. J. Geophys. Res., Atmos. 110(D16). doi: 10.1029/2004JD005642 et al.
1967. Forest interception studies in the United States. In and (eds.), Forest hydrology. Oxford: Pergamon Press.