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Transport in the Atmosphere-Vegetation-Soil Continuum

Book description

Traditionally, soil science, atmospheric science, hydrology, plant science and agriculture have been studied largely as separate subjects. These systems are clearly interlinked, however, and in recent years a great deal of interdisciplinary research has been undertaken to better understand the interactions. This textbook was developed from a course that the authors have been teaching for many years on atmosphere-vegetation-soil interactions at one of the leading international research institutes in environmental science and agriculture. The book describes the atmosphere-vegetation-soil continuum from the perspective of several interrelated disciplines, integrated into one textbook. The text is interspersed with many student exercises and problems, with solutions included. It will be ideal for intermediate to advanced students in meteorology, hydrology, soil science, environmental sciences and biology who are studying the atmosphere-vegetation-soil continuum, as well as researchers and professionals interested in the observation and modelling of atmosphere-vegetation-soil interactions.


'… lend[s] itself as a main text for teaching the fundamentals of land-surface fluxes to students with a broad range of backgrounds and interests.'

David A. Stonestrom Source: Groundwater

'The very descriptive text makes the book very accessible to non-specialists and works well in supporting undergraduate students. [The book] also goes into sufficient detail and provides a thorough treatment of the equations and theoretical background to be a great help to research students and the wider research community working in environmental physics or its applications … [It] is very well written, thoughtfully presented, and is easy to use and read.'

Source: European Journal of Soil Science

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Aboukhaled, A., Alfaro, A. A., and Smith, M. (1982). Lysimeters. Irrigation and Drainage Paper 39, FAO, Rome.
Allen, R.G., Pereira, L.S., Raes, D., and Smith, M. (1998). Crop evapotranspiration. Guidelines for computing crop water requirements. Irrigation and Drainage Paper 56, FAO, Rome.
Ament, F., and Simmer, C. (2008). Improved representation of land-surface heterogeneity in a non-hydrostatic numerical weather prediction model. Boundary-Layer Meteorology, 121, 153–174.
Andreas, E.L., and Hicks, B.B. (2002). Comments on ‘Critical test of the validity of Monin–Obukhov similarity during convective conditions’. Journal of Atmospheric Sciences, 59, 2605–2607.
Andreas, E.L, Claffey, K.J., Jordan, R.E., Fairall, C.W., Guest, P.S., Persson, P.O.G., and Grachev, A.A. (2006). Evaluations of the von Kármán constant in the atmospheric surface layer. Journal of Fluid Mechanics, 559, 117–149.
Arain, M.A., Michaud, J., Shuttleworth, W.J., and Dolman, A.J. (1996). Testing of vegetation parameter aggregation rules applicable to the biosphere-atmosphere transfer scheme (BATS) and the FIFE site. Journal of Hydrology, 177, 1–22.
Arnfield, A.J. (2003). Two decades of urban climate research: A review of turbulence, exchanges of energy and water, and the urban heat island. International Journal of Climatology, 23, 1–26.
Araújo, A.C. de, Kruijt, B., Nobre, A.D., Dolman, A.J., Waterloo, M.J., Moors, E.J., and de Souza, J.S. (2008). Nocturnal accumulation of CO2 underneath a tropical forest canopy along a topographical gradient. Ecological Applications, 18, 1406–1419.
Ashton, G.D. (2011). River and lake ice thickening, thinning, and snow ice formation. Cold Regions Science and Technology, 68, 3–19.
Avissar, R. (1992). Conceptual aspects of a statistical-dynamical approach to represent landscape subgrid-scale heterogeneities in atmospheric models. Journal of Geophysical Research, 97D, 2729–2742.
Avissar, R., and Pielke, R.A. (1989). A parameterization of heterogeneous land surfaces for atmospheric models and its impact on regional meteorology. Monthly Weather Review, 117, 2113–2134.
Baas, P., Steeneveld, G.J., van de Wiel, B.J.H., and Holtslag, A.A.M. (2006). Exploring self-correlation in flux–gradient relationships for stably stratified conditions. Journal of the Atmospheric Sciences, 63, 3045–3054.
Baker, C.J. (2010). Discussion of ‘The macro-meteorological spectrum – A preliminary study’ by Harris, R.I.. Journal of Wind Engineering and Industrial Aerodynamics, 98, 945–947.
Baldocchi, D. (2008). ‘Breathing’ of the terrestrial biosphere: lessons learned from a global network of carbon dioxide flux measurement systems. Australian Journal of Botany, 56, 1–26.
Baldocchi, D.D., Luxmoore, R.J., and Hatfield, J.L. (1991). Discerning the forest from the trees: An essay on scaling canopy stomatal conductance. Agricultural and Forest Meteorology, 54, 197–226.
Baldocchi, D., Falge, E., Gu, L., Olson, R., Hollinger, D., Running, S., Anthoni, P., Bernhofer, Ch., Davis, K., Evans, R., Fuentes, J., Goldstein, A., Katul, G., Law, B., Lee, X., Malhi, Y., Meyers, T., Munger, W., Oechel, W., Paw U, K. T., Pilegaard, K., Schmid, H. P., Valentini, R., Verma, S., Vesala, T., Wilson, K., and Wofsy, S. (2001). FLUXNET: A new tool to study the temporal and spatial variability of ecosystem-scale carbon dioxide, water vapor, and energy flux densities. Bulletin of the American Meteorological Society, 82, 2415–2434.
Ball, J.T. (1987). Calculations related to gas exchange. In: Zeiger, E., Farquhar, G.D., and Cowan, I.R. (eds.), Stomatal function (pp. 445–476). Stanford: Stanford University Press.
Balsamo, G., Viterbo, P., Beljaars, A., van den Hurk, B., Hirschi, M., Betts, A.K., and Scipal, K. (2009). A revised Hydrology for the ECMWF model: Verification from field site to terrestrial water storage and impact in the integrated forecast system. Journal of Hydrometeorology, 10, 623–643.
Balsamo, G., Pappenberger, F., Dutra, E., Viterbo, P., and van den Hurk, B. (2011). A revised land hydrology in the ECMWF model: A step towards daily water flux prediction in a fully-closed water cycle. Hydrological Processes, 25, 1046–1054.
Bartholomeus, R.P., Witte, J.P.M., van Bodegom, P.M., van Dam, J.C., and Aerts, R. (2008). Critical soil conditions for oxygen stress to plant roots: Substituting the Feddes-function by a process-based model. Journal of Hydrology, 360, 147–165.
Bastiaanssen, W.G.M., Noordman, E.J.M., Pelgrum, H., Davids, G., Thoreson, B.P., and Allen, R.G. (2005). SEBAL model with remotely sensed data to improve water resources management under actual field conditions. Journal of Irrigation and Drainage Engineering, 131, 85–93.
Basu, S., Holtslag, A.A.M., van de Wiel, B.J.H., Moene, A.F., and Steeneveld, G.J. (2008). An inconvenient ‘truth’ about using sensible heat flux as a surface boundary condition in models under stably stratified regimes. Acta Geophysica, 56, 88–99.
Bear, J. (1972). Dynamics of fluids in porous media. New York: Elsevier.
Beljaars, A. C. M., and Holtslag, A.A.M. (1991). Flux parameterization over land surfaces for atmospheric models. Journal of Applied Meteorology, 30, 327–341.
Belmans, C., Wesseling, J.G., and Feddes, R.A. (1983). Simulation model of the water balance of a cropped soil. Journal of Hydrology, 63, 271–286.
Beltman, W.H.J., Boesten, J.J.T.I., and van der Zee, S.E.A.T.M. (1995). Analytical modelling of pesticide transport from the soil surface to a drinking water well. Journal of Hydrology, 169, 209–228.
Bessembinder, J.J.E., Dhindwal, A.S., Leffelaar, P.A., Ponsioen, T., and Singh, Sher (2003). Analysis of crop growth. In van Dam, J.C. and Malik, R.S. (eds.), Water productivity of irrigated crops in Sirsa district, India. Integration of remote sensing, crop and soil models and geographical information systems (pp. 59–83). Wageningen: WATPRO Final Report.
Best, M., Beljaars, A., Polcher, J., and Viterbo, P. (2004). A proposed structure for coupling tiled surfaces with the planetary boundary layer. Journal of Hydrometeorology, 5, 1271–1278.
Bethune, M.G., and Wang, Q.J. (2004). Simulating the water balance of border-check irrigated pasture on a cracking soil. Australian Journal of Experimental Agriculture, 44, 163–171.
Bhumralkar, C.M. (1975). Numerical experiments on the computation of ground surface temperature in an atmospheric general circulation model. Journal of Applied Meteorology, 14, 1246–1258.
Bierhuizen, J.F., and Slayter, R.O. (1965). Effect of atmospheric concentration of water vapor and CO2 in determining transpiration – photosynthesis relationships of cotton leaves. Agricultural Meteorology, 2, 259–270.
Biggar, J.W., and Nielsen, D.R. (1967). Miscible displacement and leaching phenomena. Agronomy, 11, 254–274.
Bird, R.E., and Riordan, C. (1986). Simple solar spectral model for direct and diffuse irradiance on horizontal and tilted planes at the earth’s surface for cloudless atmospheres. Journal of Applied Meteorology, 25, 87–97.
Black, T.A., Gardner, W.R., and Thurtell, G.W. (1969). The prediction of evaporation, drainage, and soil water storage for a bare soil. Soil Science Society of America Journal, 33, 655–660.
Boast, C.W., and Robertson, T.M. (1982). A micro-lysimeter method for determining evaporation from bare soil: Description and laboratory evaluation. Soil Science Society of America Journal, 46, 689–696.
Boesten, J.J.T.I., and Stroosnijder, L. (1986). Simple model for daily evaporation from fallow tilled soil under spring conditions in a temperate climate. Netherlands Journal of Agricultural Science, 34, 75–90.
Boesten, J.J.T.I., and van der Linden, A.M.A. (1991). Modeling the influence of sorption and transformation on pesticide leaching and persistence. Journal of Environmental Quality, 20, 425–435.
Bolt, G.H. (1979). Soil chemistry. Part B. Physico-chemical models. Amsterdam: Elsevier.
Bonan, G.B. (1995). Land–atmosphere CO2 exchange simulated by a land surface process model coupled to an atmospheric general circulation model. Journal of Geophysical Research, 100, 2817–2831.
Bonan, G.B., Pollard, D., and Thompson, S.L. (1993). Influence of subgrid-scale heterogeneity in leaf area index, stomatal resistance, and soil moisture on grid-scale land–atmosphere interactions. Journal of Climate, 6, 1882–1897.
Boone, A., de Rosnay, P., Basalmo, G., Beljaars, A., Chopin, F., Decharme, B., Delire, C., Ducharne, A., Gascoin, S., Grippa, M., Guichard, F., Gusev, Y., Harris, P., Jarlan, L., Kergoat, L., Mougin, E., Nasonova, O., Norgaard, A., Orgeval, T., Ottlé, C., Poccard-Leclercq, I., Polcher, J., Sandholt, I., Saux-Picart, S., Taylor, C., and Xue, Y. (2009). The AMMA land surface model intercomparison project. Bulletin of the American Meteorological Society, 90, 1865–1880.
Bosveld, F.C., and Bouten, W. (2001). Evaluation of transpiration models with observations over a Douglas-fir forest. Agricultural and Forest Meteorology, 108, 247–264.
Bouma, J., Belmans, C., Dekker, L.W., and Jeurissen, W.J.M. (1983). Assessing the suitability of soils with macropores for subsurface liquid waste disposal. Journal of Environmental Quality, 12, 305–311.
Braam, M., Bosveld, F.C., and Moene, A.F. (2012). On Monin-Obukhov scaling in and above the atmospheric surface layer: The complexities of elevated scintillometer measurementsBoundary-Layer Meteorology, 144, 157–177.
Braden, H. (1985). Energiehaushalts- und Verdunstungsmodell für Wasser- und Stoffhaushalts-untersuchungen landwirtschaftlich genutzter Einzugsgebiete. Mitteilungen der Deutschen Bodenkundlichen Gesellschaft, 42, 254–299.
Brion, J., Chakir, A., Daumont, D., Malicet, J., and Parisse, C. (1993). High-resolution laboratory absorption cross section of O3. Temperature effect. Chemical Physics Letters, 213, 610–612.
Brunt, D. (1932). Notes on radiation in the atmosphere. I. Quarterly Journal of the Royal Meteorological Society, 58, 389–420.
Businger, J., Wyngaard, J., Izumi, Y., and Bradley, E. (1971). Flux-profile relationships in the atmospheric surface layer. Journal of Atmospheric Science, 28, 181–189.
Byrd, G.T., Sage, R.F., and Brown, R.H. (1992). A comparison of dark respiration between C3 and C4 plants. Plant Physiology, 100, 191–198.
Calvet, J.-C., Noilhan, J., Roujean, J.-L., Bessemoulin, P., Cabelguenne, M., Olioso, A., and Wigneron, J.-P. (1998). An interactive vegetation SVAT model tested against data from six contrasting sites. Agricultural and Forest Meteorology, 92, 73–95.
Cardon, G.E., and Letey, J. (1992). Plant water uptake terms evaluated for soil water and solute movement models. Soil Science Society of America Journal, 32, 1876–1880.
Carsel, R.F., and Parrish, R.S. (1988). Developing joint probability distributions of soil water characteristics. Water Resources Research, 24, 755–769.
Carlson, T.N., and Ripley, D.A. (1997). On the relation between NDVI, fractional vegetation cover, and leaf area index. Remote Sensing of Environment, 62, 241–252.
Carslaw, H.S., and Jaeger, J.C. (1959). Conduction of heat in solids. Oxford: Oxford University Press.
Celia, M.A., Bouloutas, E.T., and Zarba, R.L. (1990). A general mass-conservative numerical solution for the unsaturated flow equation. Water Resources Research, 26, 1483–1496.
Chehbouni, A., Njoku, E.G., Lhomme, J.-P., and Kerr, Y.H. (1995). Approaches for averaging surface parameters and fluxes over heterogeneous terrain. Journal of Climate, 8, 1386–1393.
Chen, F., and Dudhia, J. (2001). Coupling an advanced land surface–hydrology model with the Penn State–NCAR MM5 modeling system. Part II: Preliminary model validation. Monthly Weather Review, 129, 587–604.
Collatz, G.J., Ball, J.T., Grivet, C., and Berry, J.A. (1991). Physiological and environmental regulation of stomatal conductance, photosynthesis and transpiration: A model that includes a laminar boundary layer. Agricultural and Forest Meteorology, 54, 107–136.
Cook, F.J. (1995). One-dimensional oxygen diffusion into soil with exponential respiration: Analytical and numerical solutions. Ecological Modeling, 78, 277–283.
Crawford, T.M., and Duchon, C.E. (1999). An improved parameterization for estimating effective atmospheric emissivity for use in calculating daytime downwelling longwave radiation. Journal of Applied Meteorology, 38, 473–480.
Crescimanno, G., and Garofalo, P. (2005). Application and evaluation of the SWAP model for simulating water and solute transport in a cracking clay soil. Soil Science Society of America Journal, 69, 1943–1954.
Crescimanno, G., and Garofalo, P. (2006). Management of irrigation with saline water in cracking clay soils. Soil Science Society of America Journal, 70, 1774–1787.
Davies, W.J., and Zhang, J. (1991). Root signals and the regulation of growth and development of plants in drying soil. Annual Review of Plant Physiology and Plant Molecular Biology, 42, 55–76.
DeBruin, H.A.R. (1981). The determination of (reference crop) evapotranspiration from routine weather data. In Evaporation in relation to hydrology (pp. 25–37). The Hague: Commission of Hydrological Research TNO Proceedings and Information, Vol. 28.
DeBruin, H. A. R. (1982). The energy balance of the Earth’s surface: A practical approach. Unpublished Ph.D thesis, Wageningen Agricultural.
DeBruin, H.A.R. (1983). A model for the Priestley–Taylor parameter α. Journal of Climate and Applied Meteorology, 22, 572–578.
DeBruin, H.A.R. (1987). From Penman to Makkink. In Hooghart, J. C. (ed.), Evaporation and Weather, Committee on Hydrological Research. TNO, Den Haag, Proceedings and Information, 39: 5–30.
DeBruin, H.A.R. (1999). A note on Businger’s derivation of nondimensional wind and temperature profiles under unstable conditions. Journal of Applied Meteorology, 38, 626–628.
DeBruin, H.A.R., and Holtslag, A.A.M. (1982). A simple parameterization of the surface fluxes of sensible and latent heat during daytime compared with the Penman–Monteith concept. Journal of Applied Meteorology, 21, 1610–1621.
DeBruin, H.A.R., and Moore, C.J. (1985). Zero-plane displacement and roughness length for tall vegetation derived from a simple mass conservation hypothesis. Boundary-Layer Meteorology, 31, 39–49.
DeBruin, H.A.R., and Wessels, H.R.A. (1988). A model for the formation and melting of ice on surface waters. Journal of Applied Meteorology, 27, 164–173.
DeBruin, H.A.R., and Lablans, W.N. (1998). Reference crop evapotranspiration determined with a modified Makkink equation. Hydrological Processes, 12, 1053–1062.
DeBruin, H.A.R., and Stricker, J.N.M. (2000). Evaporation of grass under non-restricted soil moisture conditions. Hydrological Sciences, 45, 391–406.
DeBruin, H.A.R., Kohsiek, W., and van den Hurk, B.J.J.M (1993). A verification of some methods to determine the fluxes of momentum, sensible heat, and water vapour using standard deviation and structure parameter of scalar meteorological quantities. Boundary-Layer Meteorology, 63, 231–257.
DeBruin, H.A.R., Ronda, R.J., and van de Wiel, B.J.H (2000). Approximate solutions for the Obukhov length and the surface fluxes in terms of bulk Richardson numbers. Boundary-Layer Meteorology, 95, 145–157.
DeBruin, H.A.R., Trigo, I.F., Jitan, M.A., Enku, N. Temesgen, van der Tol, C., and Gieske, A.S.M. (2010). Reference crop evapotranspiration derived from geo-stationary satellite imagery: A case study for the Fogera flood plain, NW-Ethiopia and the Jordan Valley, Jordan. Hydrology and Earth System Sciences, 14, 2219–2228.
De Jong van Lier, Q., Metselaar, K., and van Dam, J.C. (2006). Root water extraction and limiting soil hydraulic conditions estimated by numerical simulation. Vadose Zone Journal, 5, 1264–1277.
De Jong van Lier, Q., van Dam, J.C., Metselaar, K., de Jong, R., and Duijnisveld, W.H.M. (2008). Macroscopic root water uptake distribution using a matric flux potential approach. Vadose Zone Journal, 7, 1065–1078.
De Vries, D.A. (1963). Thermal properties of soils. In van Wijk, W.R. (ed.), Physics of plant environment (pp. 210–235). Amsterdam: North-Holland.
De Vries, D.A. (1975). Heat transfer in soils. In De Vries, D.A., and Afgan, N.H. (eds.), Heat and mass transfer in the biosphere. I. Transfer processes in plant environment (pp. 5–28). Washington, DC: Scripts.
De Willigen, P., Nielsen, N.E., and Claassen, N. (2000). Modelling water and nutrient uptake. In Smit, A.L., Bengough, A.G., and Engels, C. (eds.), Root methods: A handbook (pp. 509–544). Berlin: Springer.
Della-Marta, P.M., Haylock, M.R., Luterbacher, J., and Wanner, H. (2007). Doubled length of western European summer heat waves since 1880. Journal of Geophysical Research, 112, D15103.
Denmead, O.T., and Bradley, E.F. (1987). On scalar transport in plant canopies. Irrigation Science, 8, 131–149.
Desborough, C.E. (1997). The impact of root weighting on the response of transpiration to moisture stress in land surface schemes. Monthly Weather Review, 125, 1920–1930.
Desborough, C.E. (1999). Surface energy balance complexity in GCM land surface models. Climate Dynamics, 15, 389–403.
Dickinson, R.E., Henderson-Sellers, A., Kennedy, P.J., and Wilson, M.F. (1986). Biosphere/atmosphere transfer scheme (BATS) for the NCAR community climate model. NCAR Technical Note TN275. Boulder, CO: National Center for Atmospheric Research, 69 pp.
Dingman, S.L. (2002). Physical hydrology. Long Grove: Waveland Press.
Dirksen, C. (1979). Flux-controlled sorptivity measurements to determine soil hydraulic property functions. Soil Science Society of America Journal, 43, 827–834.
Dirksen, C. (1991). Unsaturated hydraulic conductivity. In Smith, K.A. and Mullins, C.E. (eds.), Soil analysis, Physical methods (pp. 209–269). New York: Marcel Dekker.
Dirksen, C. (1999). Soil physics measurements. Reiskirchen: Catena Verlag.
Dirksen, C., and Dasberg, S. (1993). Improved calibration of time domain reflectrometry soil water content measurements. Soil Science Society of America Journal, 57, 660–667.
Dirksen, C., and Matula, S. (1994). Automatic atomized water spray system for soil hydraulic conductivity measurements. Soil Science Society of America Journal, 58, 319–325.
Dirmeyer, P.A., Gao, X., Zhao, M., Guo, Z., Oki, T., and Hanasaki, N. (2006). GSWP-2: Multimodel analysis and implications for our perception of the land surface. Bulletin of the American Meteorological Society, 87, 1381–1397.
Doorenbos, J., and Pruitt, W.O. (1977). Guidelines for predicting crop water requirements. Irrigation and Drainage Paper, 24, 2nd ed. Rome: FAO.
Droogers, P., Kite, G., and Murray-Rust, H. (2000). Use of simulation models to evaluate irrigation performance including water productivity, risk and system analysis. Irrigation Science, 19, 139–145.
Droogers, P., van Dam, J.C., Hoogeveen, J., and Loeve, R. (2004). Adaptation strategies to climate change to sustain food security. In Aerts, J.C.J.H. and Droogers, P. (eds.), Climate change in contrasting river basins (pp. 49–74). London: CABI.
Drusch, M., and Viterbo, P. (2007). Assimilation of screen-level variables in ECMWF’s integrated forecast system: A study on the impact on the forecast quality and analyzed soil moisture. Monthly Weather Review, 135, 300–314.
Duffy, C.J., and Lee, D.H. (1992). Base flow response from nonpoint source contamination: Simulated spatial variability in source, structure and initial condition. Water Resources Research, 28, 905–914.
Dupont, S., and Patton, E.G. (2012). Influence of stability and seasonal canopy changes on micrometeorology within and above an orchard canopy: The CHATS experimentAgricultural and Forest Meteorology, 157, 11–29.
Dyer, A. J. (1974). A review of flux-profile-relationships. Boundary-Layer Meteorology, 7, 363–372.
Dyer, A.J., and Hicks, B.B. (1970). Flux-gradient relationships in the constant flux layer. Quarterly Journal of Royal Meteorological Society, 96, 715–721.
ECMWF (2009). IFS documentation CY31r1. (Accessed February 16, 2009).
Edwards, D. P. (1992). GENLN2: A general line-by-line atmospheric transmittance and radiance model, Version 3.0 description and users guide. NCAR/TN-367-STR. Boulder, CO: National Center for Atmospheric Research.
Ehlers, W., and Goss, M. (2003). Water dynamics in plant production. Wallingford: CABI.
Ek, M.B., and Holtslag, A.A.M. (2005). Evaluation of a land-surface scheme at Cabauw. Theoretical and Applied Climatology, 80, 213–227.
Farahani, H.J., Howell, T.A., Shuttlewort, W.J., and Bausch, W.C. (2007). Evapotranspiration: Progress in measurement and modeling in agriculture. Transactions of the ASABE, 50, 1627–1638.
Farouki, O. T. (1986). Thermal properties of soils. Series on Rock and Soil Mechanics. Transactions Technical, 11.
Farquhar, G.D., and Sharkey, T.D. (1982). Stomatal conductance and photosynthesis. Annual Review of Plant Physiology, 33, 317–345.
Feddes, R.A. (1971). Water, heat and crop growth. Unpublished PhD thesis, Wageningen Agricultural University.
Feddes, R.A. (1987). Crop factors in relation to Makkink’s reference crop evapotranspiration. In Evaporation and weather (pp. 33–45). The Hague: Commission of Hydrological Research TNO Proceedings and Information, Vol. 39.
Feddes, R.A., and Raats, P.A.C. (2004). Parameterizing the soil-water-plant-root system. In Feddes, R.A., de Rooij, G.H. and van Dam, J.C. (eds.), Unsaturated zone modeling, Progress, Challenges and Applications (pp. 95–144). Dordrecht: Kluwer Academic.
Feddes, R.A., Kowalik, P.J., and Zaradny, H. (1978). Simulation of field water use and crop yield. Simulation Monographs. Wageningen: Pudoc.
Feddes, R.A., Kabat, P., van Bakel, P.J.T., Bronswijk, J.J.B., and Halbertsma, J. (1988). Modelling soil water dynamics in the unsaturated zone: State of the art. Journal of Hydrology, 100, 69–111.
Finnigan, J. (2000). Turbulence in plant canopies. Annual Review of Fluid Mechanics, 32, 519–571.
Finnigan, J.J., Clement, R., Mahli, Y., Leuning, R., and Cleugh, H.A. (2002). A re-evaluation of long-term flux measurement techniques. Part I: Averaging and coordinate rotation. Boundary-Layer Meteorology, 107, 1–48.
Flexas, J., Ribas-Carbó, M., Diaz-Espejo, A., Galmés, J., and Medrano, H. (2008). Mesophyll conductance to CO2: Current knowledge and future prospects. Plant, Cell & Environment, 31, 602–621.
Foken, T (2006). 50 years of Monin-Obukhov similarity theory. Boundary-Layer Meteorology, 119, 431–447.
Forsythe, W.E. (1954). Smithsonian physical tables (9th revised edition). Washington, DC: Smithsonian Institution.
Frich, P.Alexander, L.V., Della-Marta, P., Gleason, B., Haylock, M., Tank, A.M.G. Klein, and Peterson, T. (2002). Observed coherent changes in climatic extremes during the second half of the twentieth century. Climate Research, 19, 193–212.
Gardner, W.R. (1960). Dynamic aspects of water availability to plants. Soil Science, 89, 63–73.
Gardner, W.R. (1986). Water content. In Klute, A. (ed.), Methods of soil analysis. Part 1 (pp. 493–544). Madison: American Society of Agronomy, Monograph 9.
Garrat, J.R. (1992). The atmospheric boundary layer. Cambridge Atmospheric and Space Science series. Cambridge: Cambridge University Press.
Garrat, J.R., and Segal, M. (1988). On the contribution of atmospheric moisture to dew formation. Boundary-Layer Meteorology, 45, 209–236.
Gash, J.H.C. (1979). An analytical model of rainfall interception by forests. Quarterly Journal of Royal Meteorological Society, 105, 43–55.
Gash, J.H.C., Lloyd, C.R., and Lachaud, G. (1995). Estimating sparse forest rainfall interception with an analytical model. Journal of Hydrology, 170, 79–86.
Gates, D.M. (1980). Biophysical ecology. New York: Springer-Verlag.
Gerber, S., Hedin, L.O., Oppenheimer, M., Pacala, S.W., and Shevliakov, E. (2010). Nitrogen cycling and feedbacks in a global dynamic land model. Global Biogeochemical Cycles, 24, GB1001.
Gerrits, M. (2010). The role of interception in the hydrological cycle. Unpublished PhD. thesis, Delft Technical University.
Giard, D., and Bazile, E. (2000). Implementation of a new assimilation scheme for soil and surface variables in a global NWP model. Monthly Weather Review, 128, 997–1015.
Goudriaan, J. (1977). Crop meteorology: A simulation study. Simulation Monographs. Wageningen: Pudoc.
Goudriaan, J. (1986). A simple and fast numerical method for the computation of daily total of canopy photosynthesis. Agricultural and Forest Meteorology, 43, 251–255.
Goudriaan, J., van Laar, H.H., van Keulen, H., and Louwerse, W. (1985). Photosynthesis, CO2 and plant production. In Day, W. & Atkin, R.K. (eds.), Wheat growth and modelling (pp. 107–122). NATO ASI Series, Series A: Life Sciences Vol. 86. New York: Plenum Press.
Grachev, A. A., Andreas, E.L., Fairall, C.W., Guest, P.S., and Persson, P.O.G. (2007). On the turbulent Prandtl number in the stable atmospheric boundary layer. Boundary-Layer Meteorology, 125, 329–341.
Graefe, J. (2004). Roughness layer corrections with emphasis on SVAT model applications. Agricultural and Forest Meteorology, 124, 237–251.
Graf, A., Schüttemeyer, D., Geiß, H., Knaps, A., Möllmann-Coers, M., Schween, J.H., Kollet, S., Neininger, B., Herbst, M., and Vereecken, H.. (2010). Boundedness of turbulent temperature probability distributions, and their relation to the vertical profile in the convective boundary layer. Boundary-Layer Meteorology, 134, 459–486.
Grimmond, C.S.B., Blackett, M., Best, M.J., Baik, J.-J., Belcher, S.E., Beringer, J., Bohnenstengel, S.I., Calmet, I., Chen, F., Coutts, A., Dandou, A., Fortuniak, K., Gouvea, M.L., Hamdi, R., Hendry, M., Kanda, M., Kawai, T., Kawamoto, Y., Kondo, H., Krayenhoff, E.S., Lee, S.-H., Loridan, T., Martilli, A., Masson, V., Miao, S., Oleson, K., Ooka, R., Pigeon, G., Porson, A., Ryu, Y.-H., Salamanca, F., Steeneveld, G., Tombrou, M., Voogt, J.A., Young, D.T., and Zhang, N. (2011). Initial results from Phase 2 of the international urban energy balance model comparison. International Journal of Climatology, 31, 244–272.
Grinsven, J.J.M. van, Dirksen, C., and Bouten, W. (1985). Evaluation of hot air method for measuring soil water diffusivity. Soil Science Society of America Journal, 49, 1093–1099.
Groen, K.P. (1997). Pesticide leaching in polders. Field and model studies on cracked clays and loamy sand. Unpublished PhD thesis, Wageningen Agricultural University.
Gryning, S-E., Bactchvarova, E., and DeBruin, H.A.R. (2001). Energy balance of a sparse coniferous high-latitude forest under winter conditions. Boundary-Layer Meteorology, 99, 465–488.
Gueymard, C.A. (1998). Turbidity determination from broadband irradiance measurements: A detailed multicoefficient approach. Journal of Applied Meteorology, 37, 414–435.
Gueymard, C.A. (2001). Parameterized transmittance model for direct beam and circumsolar spectral irradiance. Solar Energy, 71, 325–346.
Gueymard, C.A. (2004). The sun’s total and spectral irradiance for solar energy applications and solar radiation models. Solar Energy, 76, 423–453.
Gueymard, C.A., and Myers, D.R. (2008). Solar radiation measurement: Progress in radiometry for improved modeling. In Badescu, V. (ed.), Modeling solar radiation at the earth’s surface: Recent advances (pp. 1–27). Berlin: Springer-Verlag.
Hagemann, S. (2002). An improved land surface parameter dataset for global and regional climate models. Hamburg: Max-Plank Institute for Meteorologie, Report 336.
Hagemann, S, Machenhauer, B., Jones, R., Christensen, O. B., Déqué, M., Jacob, D., and Vidale, P. L. (2004). Evaluation of water and energy budgets in regional climate models applied over Europe. Climate Dynamics, 23, 547–567.
Hainsworth, J.M., and Aylmore, L.A.G. (1986). Water extraction by single plant roots. Soil Science Society of America Journal, 50, 841–848.
Hale, G.M., and Querry, M. R. (1973). Optical constants of water in the 200 nm to 200 µm wavelength region. Applied Optics, 12, 555–563.
Hall, F.G, Townshend, J. R., and Engman, E.T. (1995). Status of remote sensing algorithms for estimation of land surface state parameters. Remote Sensing of Environment, 51, 138–156.
Halldin, S., and Lindroth, A. (1992). Errors in net radiometry: Comparison and evaluation of six radiometer designs. Journal of Atmospheric and Oceanic Technology, 9, 762–783.
Hamaker, J.W. (1972). Decomposition: quantitative aspects. In Goring, C.A.I. and Hamaker, M. (eds.), Organic chemicals in the soil environment (pp. 253–340). New York: Marcel Dekker.
Hargreaves, G.L., and Samani, Z.A. (1985). Reference crop evapotranspiration from temperature. Applied Engineering in Agriculture, 1, 96–99.
Hartogensis, O.K., and DeBruin, H.A.R. (2005). Monin–Obukhov similarity functions of the structure parameter of temperature and turbulent kinetic energy dissipation rate in the stable boundary layer. Boundary-Layer Meteorology, 116, 253–276.
Hayes, W.M., ed. (2011). CRC handbook of chemistry and physics. Boca Raton, FL: CRC Press.
Hecht, E. (1987). Optics. 2nd ed. Reading, MA: Addison-Wesley.
Heinen, M. (2001). FUSSIM2: Brief description of the simulation model and application to fertigation scenarios. Agronomie, 21, 285–296.
Henderson-Sellers, A., Pitman, A.J., Love, P.K., Irannejad, P., and Chen, T.H. (1995). The Project for Intercomparison of Land Surface Parameterization Schemes (PILPS): Phases 2 and 3. Bulletin of the American Meteorological Society, 76, 489–503.
Hendriks, D.M.D., Dolman, A. J., van der Molen, M. K., and van Huissteden, J. (2008). A compact and stable eddy covariance set-up for methane measurements using off-axis integrated cavity output spectroscopy. Atmospheric Chemical Physics, 8, 431–443.
Herkelrath, W.N., Miller, E.E., and Gardner, W.R. (1977). Water uptake by plants: I. Divided root experiments, II. The root contact model. Soil Science Society of America Journal, 41, 1033–1043.
Hetherington, A.M., and Woodward, F.I. (2003). The role of stomata in sensing and driving environmental change. Nature, 424, 901–908.
Heus, T., van Heerwaarden, C.C., Jonker, H.J J., Siebesma, A.P., Axelsen, S., van den Dries, K., Geoffroy, O., Moene, A F., Pino, D., de Roode, S.R., and Vila-Guerau de Arellano, J. (2010). Formulation of the Dutch Atmospheric Large-Eddy Simulation (DALES) and overview of its applications. Geoscientific Model Development, 3, 415–444.
Heusinkveld, B.G.Jacobs, A.F.G., Holtslag, A.A.M., and Berkowicz, S.M. (2004). Surface energy balance closure in an arid region: Role of soil heat flux. Agricultural and Forest Meteorology, 122, 21–37.
Heusinkveld, B.G., Berkowicz, S.M., Jacobs, A.F.G., Holtslag, A.A.M., and Hillen, W.C.A.M. (2006). An automated microlysimeter to study dew formation and evaporation in arid and semiarid regions. Journal of Hydrometeorology, 7, 825–832.
Heusinkveld, B.G., Jacobs, A.F.G., and Holtslag, A.A.M. (2008). Effect of open-path gas analyzer wetness on eddy covariance flux measurements: A proposed solution. Agricultural and Forest Meteorology, 148, 1563–1573.
Hill, R.J. (1989). Implications of Monin-Obukhov similarity theory for scalar quantities. Journal of Atmospheric Sciences, 46, 2236–2251.
Hillel, D. (1980). Uptake of soil moisture by plants. In Applications of soil physics (pp. 163–166). London: Academic Press.
Hillel, D. (1998). Environmental soil physics. London: Academic Press.
Hillel, D. (2008). Soil in the environment: Crucible of terrestrial life. London: Academic Press.
Hodur, R.M. (1997). The Naval Research Laboratory’s coupled ocean/atmosphere mesoscale prediction system (COAMPS). Monthly Weather Review, 125, 1414–1430.
Högström, U. (1988). Non-dimensional wind and temperature profiles in the atmospheric surface layer: A re-evaluation. Boundary-Layer Meteorology, 42, 55–78.
Högström, U. (1996). Review of some basic characteristics of the atmospheric surface layer. Boundary-Layer Meteorology, 78, 215–246.
Holt, T.R., Niyogi, D., Chen, F., Manning, K., LeMone, M.A., and Qureshi, A. (2006). Effect of land-atmosphere interactions on the IHOP 24–25 May 2002 convection case. Monthly Weather Review, 134, 113–133.
Hopmans, J.W., and Stricker, J.N.M. (1989). Stochastic analysis of soil water regime in a watershed. Journal of Hydrology, 105, 57–84.
Hopmans, J.W., Šimůnek, J., Romano, N., and Durner, W. (2002). Inverse methods. In Dane, J. H. and Topp, G. C. (eds.), Methods of soil analysis. Part 4 – Physical methods. Madison, WI: Soil Science Society of America Book Series 5.
Horst, T.W., and Weil, J.C. (1994). How far is far enough?: The fetch requirements for micrometeorological measurements of surface fluxes. Journal of Atmospheric and Oceanic Technology, 11, 1018–1025.
Horton, R.E. (1933). The role of infiltration in the hydrological cycle. Transaction of American Geophysical Union, 14th Annual Meeting, pp. 446–460.
Horton, R.E. (1939). Analysis of runoff – plot experiments with varying infiltration capacity. Transaction of American Geophysical Union, 20th Annual Meeting, pp. 693–694.
Horton, R., Wierenga, P.J., and Nielsen, D.R. (1983). Evaluation of methods for determining the apparent thermal diffusivity of soil near the surface. Soil Science Society of America Journal, 47, 25–32.
Huber, L., and Gillespie, T.J. (1992). Modeling leaf wetness in relation to plant-disease epidemiology. Annual Review of Phytopathology, 30, 553–577.
Huete, A, Didan, K., Miura, T., Rodriguez, E.P., Gao, X., and Ferreira, L.G. (2002). Overview of the radiometric and biophysical performance of the MODIS vegetation indices. Remote Sensing of Environment, 83, 195–213.
Hughes, R.N., and Brimblecombe, P. (1994). Dew and guttation: Formation and environmental significance. Agricultural and Forest Meteorology, 67, 173–190.
Hupet, F., van Dam, J.C., and Vanclooster, M. (2004). Impact of within-field variability in soil hydraulic properties on transpiration fluxes and crop yields: A numerical study. Vadose Zone Journal, 3, 1367–1379.
Hurk van den, B.J.J.M., Viterbo, P., Beljaars, A.C.M., and Betts, A.K. (2000). Offline validation of the ERA40 surface scheme. ECMWF Technical Memo, 295.
Hurk van den, B.J.J.M., Viterbo, P., and Los, S.O. (2003). Impact of leaf area index seasonality on the annual land surface evaporation in a global circulation model. Journal of Geophysical Research, 108, 4191.
Iqbal, M (1983). An introduction to solar radiation. Toronto: Academic Press.
Ittersum, M.K. van, Leffelaar, P.A., van Keulen, H., Kropff, M.J., Bastiaans, L., and Goudriaan, J. (2003). On approaches and applications of the Wageningen crop models. European Journal of Agronomy, 18, 201–234.
IWMI (2007). Water for food. Water for Life. A comprehensive assessment of water management in agriculture. Colombo: International Water Management Institute.
Ineichen, P., and Perez, R. (2002). A new airmass independent formulation for the Linke turbidity coefficient. Solar Energy, 73, 151–157.
Intsiful, J., and Kunstmann, H. (2008). Upscaling of land-surface parameters through inverse stochastic SVAT-modelling. Boundary Layer Meteorology, 129, 137–58.
Itier, B. (1982). Révision d’une methode simplififieé du flux de chaleur sensible. Journal de Recherches Atmosphériques, 16, 85–90.
Jackson, P.S. (1981). On the displacement height in the logarithmic velocity profile. Journal of Fluid Mechanics, 111, 15–25.
Jacobs, C.M.J. (1994). Direct impact of atmospheric CO2 enrichment on regional transpiration. Ph.D. thesis. Agricultural University, Wageningen.
Jacobs, A.F.G., and van Pul, W.A.J. (1990). Seasonal changes in the albedo of a maize crop during two seasons. Agricultural and Forest Meteorology, 49, 351–360.
Jacobs, C.M.J., and de Bruin, H.A.R. (1992). The sensitivity of regional transpiration to land-surface characteristics: Significance of feedback. Journal of Climate, 5, 683–698.
Jacobs, A.F.G., van Pul, W.A.J., and van Dijken, A. (1990). Similarity moisture dew profiles within a corn canopy. Journal of Applied Meteorology, 29, 1300–1306.
Jacobs, A.F.G., van Boxel, J.H., and El-Kilani, R.M.M. (1995). Vertical and horizontal distribution of wind speed and air temperature in a dense vegetation canopy. Journal of Hydrology, 166, 313–326.
Jacobs, A.F.G., van Boxel, J.H., and Nieveen, J. (1996). Nighttime exchange processes near the soil surface of a maize canopy. Agricultural and Forest Meteorology, 82, 155–169.
Jacobs, C.M.J., van den Hurk, B.J.J.M., and de Bruin, H.A.R. (1996). Stomata1 behaviour and photosynthetic rate of unstressed grapevines in semi-arid conditions. Agricultural and Forest Meteorology, 80, 111–134.
Jacobs, A.F.G, Heusinkveld, B.G., and Berkowicz, S.M. (2000). Dew measurements along a longitudinal sand dune transect, Negev Desert, Israel. International Journal of Biometeorology, 43, 184–190.
Jacobs, A.F.G, Heusinkveld, B.G., and Klok, E.J. (2005). Leaf wetness within a lily canopy. Meteorological Applications, 12, 193–198.
Jacobs, A.F.G., Heusinkveld, B.G., Kruit, R.J. Wichink, and Berkowicz, S.M. (2006). Contribution of dew to the water budget of a grassland area in the Netherlands. Water Resources Research, 42, W03415.
Jacovides, C.P. (1997). Model comparison for the calculation of Linke’s turbidity factor. International Journal of Climatology, 17, 551–563.
Jacovides, C.P., Tymvios, F.S., Assimakopoulos, V.D., and Kaltsounides, N.A. (2007). The dependence of global and diffuse PAR radiation components on sky conditions at Athens, Greece. Agricultural and Forest Meteorology, 143, 277–287
Jacquemoud, S., and Baret, F. (1990). PROSPECT: A model of leaf optical properties spectra. Remote Sensing of Environment, 34, 75–91.
Jarlan, L., Balsamo, G., Lafont, S., Beljaars, A., Calvet, J.C., and Mougin, E. (2007). Analysis of Leaf Area Index in the ECMWF land surface scheme and impact on latent heat and carbon fluxes: Applications to West Africa. ECMWF Technical Memorandum, 544.
Jarvis, A.J., and Davies, W.J. (1998). The coupled response of stomatal conductance to photosynthesis and transpiration. Journal of Experimental Botany, 49, 399–406.
Jarvis, P. (1976). The interpretation of the variations in leafwater potentials and stomatal conductances found in canopies in the field. Philosophical Transactions of Royal Society, 273, 593–610.
Jarvis, P., and McNaughton, K.G. (1986). Stomatal control of transpiration: Scaling up from leaf to region. In MacFadyen, A. and Ford, E.D. (eds.), Advances in Ecological Research 15, 1–49.
Javaux, M., Schröder, Tom, Vanderborght, Jan, and Vereecken, Harry (2008). Use of a three-dimensional detailed modeling approach for predicting root water uptake. Vadose Zone Journal, 7, 1079–1088.
Jensen, M.E. (1968). Water consumption by agricultural plants. In Kozlowski, T.T. (pp. 1–22). Plant water consumption and response: Water deficits and plant growth, Vol. II. New York: Academic Press.
Jensen, M.E., Burman, R.D., and Allen, R.G. (1990). Evapotranspiration and irrigation water requirements. New York: ASCE Manuals and Reports on Engineering Practice, 70.
Jhorar, R.K., Dhindwal, A.S., Kumar, Ranvir, Jhorar, B.S., Bhatto, M.S., and Dharampal, (2003). Water management and crop production in Sirsa Irrigation Circle. In van Dam, J.C. and Malik, R.S. (eds.), Water productivity of irrigated crops in Sirsa district, India: Integration of remote sensing, crop and soil models and geographical information systems (pp. 21–28). Wageningen: WATPRO final report.
Jhorar, R.K., van Dam, J.C., Bastiaanssen, W.M.G., and Feddes, R.A. (2004). Calibration of effective soil hydraulic parameters of heterogeneous soil profiles. Journal of Hydrology, 285, 233–247.
Jiménez, J.I., Alados-Arboledas, L., Castro-Diez, Y., and Ballester, G. (1987). On the estimation of long-wave radiation flux from clear skies. Theoretical and Applied Climatology, 38, 37–42.
Jiménez, P. A., and Dudhia, J. (2012). Improving the representation of resolved and unresolved topographic effects on surface wind in the WRF model. Journal of Applied Meteorology and Climatology, 51, 300–316.
Jungk, A.O. (2002). Dynamics of nutrient movement at the soil-root interface. In Waisel, Y., Eshel, A., and Kafkafi, U. (eds.), Plant root: The hidden half, 3rd ed. (pp. 587–616). New York: Marcel Dekker.
Jungk, A.O., and Claassen, N. (1989). Availability in soil and acquisition by plants as the basis for phosphorus and potassium supply to plants. Zeitschrift für Pflanzenernährung und Bodenkunde, 152, 151–157.
Jury, W.A. (1982). Simulation of solute transport using a transfer function mode. Water Resources Research, 18, 363–368.
Jury, W.A., and Sposito, G. (1985). Field calibration and validation of solute transport models for the unsaturated zone. Soil Science Society of America Journal, 49, 1331–1341.
Jury, W.A., Gardner, W.R., and Gardner, W.H. (1991). Soil physics, 5th ed. New York: John Wiley & Sons.
Kasten, F. (1996). The Linke turbidity factor based on improved values of the integral Rayleigh optical thickness. Solar Energy, 56, 239–244.
Kasten, F., and Young, A.T. (1989). Revised optical air mass tables and approximation formula. Applied Optics, 28, 4735–4738.
Katul, G., Cava, D., Poggi, D., Albertson, J. and Mahrt, L. (2005). Stationarity, homogeneity, and ergodicity in canopy turbulence. In Lee, X., Massman, W., and Law, B. (eds.), Handbook of micrometeorology: A guide for surface flux measurement and analysis (pp. 161–180). New York: Kluwer Academic.
Katul, G.G., Sempreviva, A.M., and Cava, D. (2008). The temperature–humidity covariance in the marine surface layer: A one-dimensional analytical model. Boundary-Layer Meteorology, 126, 263–278.
Kelliher, F.M., Leuning, R., and Schulze, E.-D. (1993). Evaporation and canopy characteristics of coniferous forests and grasslands. Oecologica, 95, 153–163.
Kelliher, F.M., Leuning, R., Raupach, M.R., and Schulze, E.-D. (1995). Maximum conductances for evaporation from global vegetation types. Agricultural and Forest Meteorology, 73, 1–16.
Kim, C.P. (1995). The water budget of heterogeneous areas: Impact of soil and rainfall variability. Unpublished PhD thesis, Wageningen University.
Kimball, B.A., and Jackson, R.D. (1975). Soil heat flux determination: A null-alignment method. Agricultural Meteorology, 15, 1–9.
Kirkham, M.B. (2005). Principles of soil and plant water relations. San Diego: Elsevier Academic Press.
Klein Tank, A.M.G., et al. (2002). Daily dataset of 20th-century surface air temperature and precipitation series for the European Climate Assessment. International Journal of Climatology, 22, 1441–1453.
Klipp, C.L., and Mahrt, L. (2004). Flux–gradient relationship, self-correlation and intermittency in the stable boundary layer. Quarterly Journal of the Royal Meteorological Society, 130, 2087–2103.
Klute, A. (1986). Water retention: Laboratory methods. In Klute, A. (eds.), Methods of soil analysis; Part 1: Physical and mineralogical methods (pp. 635–662). Madison, WI: American Society of Agronomy, Agronomy series, 9.
Klute, A., and Dirksen, C. (1986). Hydraulic conductivity and diffusivity: Laboratory methods. In Klute, A. (ed.), Methods of soil analysis; Part 1: Physical and mineralogical methods (pp. 687–734). Madison, WI: American Society of Agronomy, Agronomy series, 9.
Kohsiek, W., Liebethal, C., Foken, T., Vogt, R., Oncley, S.P., Bernhofer, Ch., and De Bruin, H.A.R. (2007). The Energy Balance Experiment EBEX-2000. Part III: Behaviour and quality of the radiation measurements. Boundary Layer Meteorology, 123, 55–75.
Kollet, S., Cvijanovic, I., Schüttemeyer, D., Moene, A.F., and Bayer, P. (2009). The influence of the sensible heat of rain, subsurface heat convection and the lower temperature boundary condition on the energy balance at the land surface. Vadose Zone Journal, 8, 846–857
Kondo, J., Kanechika, O., and Yasuda, N. (1978). Heat and momentum transfers under strong stability in the atmospheric surface layer. Journal of the Atmospheric Sciences, 35, 1012–1021.
Konrad, W., Roth-Nebelsick, A., and Grein, M. (2008). Modelling of stomatal density response to atmospheric CO2. Journal of Theoretical Biology, 253, 638–658.
Koorevaar, P., Menelik, G., and Dirksen, C. (1983). Elements of soil physics. Amsterdam: Elsevier.
Kopp, G., and Lean, J. (2011). A new, lower value of total solar irradiance: Evidence and climate significance. Geophysical Research Letters, 38, L01706.
Kormann, R., and Meixner, F.X. (2001). An analytical footprint model for non-neutral stratification. Boundary Layer Meteorology, 99, 207–224.
Kroes, J.G., and Roelsma, J. (1997). User’s Guide ANIMO 3.5; input instructions and technical programme description. Wageningen: DLO Winand Staring Centre, Technical Document 46.
Kroes, J.G., van Dam, J.C., Groenendijk, P., Hendriks, R.F.A., and Jacobs, C.M.J. (2008). SWAP version 3.2. Theory description and user manual. Wageningen: Alterra, Report 1649.
Lahou, F., Saïd, F., Lothon, M., Durand, P., and Sarça, D. (2010). Impact of boundary-layer processes on near-surface turbulence within the West African monsoon. Boundary-Layer Meteorology, 136, 1–23
Lambers, H., Chapin, F. Stuart, and Pons, T.L. (2008). Plant physiological ecology, 2nd ed. New York: Springer Science+Business Media.
Launiainen, J. (1995). Derivation of the relationship between the Obukhov stability parameter and the bulk Richardson number for flux-profile studies. Boundary-Layer Meteorology, 76, 165–179.
Lee, R. (1978). Forest micrometeorology. New York: Columbia University Press.
Lee, X., Massman, W., and Law, B., Eds. (2004). Handbook of micrometeorology: A guide for surface flux measurement and analysis. Dordrecht, The Netherlands: Kluwer Academic,.
Leij, F.J., Alves, W.J., van Genuchten, M. Th., and Williams, J.R. (1996). The UNSODA unsaturated soil hydraulic database. User’s manual Version 1.0. Riverside, CA: US Salinity Laboratory.
Leistra, M., van der Linden, A.M.A., Boesten, J.J.T.I., Tiktak, A., and van den Berg, F. (2001). PEARL model for pesticide behaviour and emissions in soil-plant systems. Description of processes. Wageningen: Alterra report, 13.
Lenschow, D.H., Mann, J., and Kristensen, L. (1994). How long is long enough when measuring fluxes and other turbulence statistics. Journal of Atmospheric and Oceanic Technology, 11, 661–673.
Lesieur, M. (1993). Turbulence in fluids, 2nd ed. Dordrecht: Kluwer.
Lettau, H.H. (1979). Wind and temperature profile prediction surface layer including strong inversion cases. Boundary Layer Meteorology, 17, 443–464.
Leuning, R. (1995) A critical appraisal of a combined stomatal-photosynthesis model for C3 plants. Plant, Cell & Environment, 18, 339–355.
Levis, S. (2010). Modeling vegetation and land use in models of the Earth System. Wiley Interdisciplinary Reviews: Climate Change, 1, 840–856.
Li, D. E. Bou-Zeid, and DeBruin, H.A.R. (2012). Monin–Obukhov similarity functions for the structure parameters of temperature and humidity. Boundary-Layer Meteorology, 145, 45–67.
Lloyd, C.R., Gash, J.H.C., Shuttleworth, W.H., and Marques, A.O. (1988). The measuring and modelling of rainfall interception by Amazonian rainforests. Agricultural and Forest Meteorology, 43, 277–294.
Lloyd, J., and Taylor, J.T. (1994). On the temperature dependence of soil respiration. Functional Ecology, 8, 315–323.
Maas, E.V. (1990). Crop salt tolerance. In Tanji, K.K. (ed.), Agricultural salinity assessment and management (pp. 262–304). New York: ASCE Manuals and Reports on Engineering Practice, no. 71.
Maas, E.V., and Hoffman, G.J. (1977). Crop salt tolerance-current assessment. Journal of the Irrigation and Drainage Divisions, 103, 115–134.
Mahfouf, J.-F. (2010). Assimilation of satellite-derived soil moisture from ASCAT in a limited-area NWP model. Quarterly Journal of the Royal Meteorological Society, 136, 784–798.
Mahrt, L. (1987). Grid-averaged surface fluxes. Monthly Weather Review, 115, 1550–1560.
Mahrt, L. (1996). The bulk aerodynamic formulation over heterogeneous surfaces. Boundary Layer Meteorology, 78, 87–l19.
Makkink, G.F. (1957). Testing the Penman formula by means of lysimeters. Journal of International Water Engineering, 11, 277–288.
Malhi, Y. (1996). The behaviour of the roughness length for temperature over heterogeneous surfaces. Quarterly Journal of the Royal Meteorological Society, 122, 1095–1125.
Manabe, S. (1969). Climate and the ocean circulation: 1, the atmospheric circulation and the hydrology of the Earth’s surface. Monthly Weather Review, 97, 739–805.
Marsily, G. de (1986). Quantitative hydrogeology. Groundwater hydrology for engineers. New York: Academic Press.
Massman, W.J. (1997). An analytical one-dimensional model of momentum transfer by vegetation of arbitrary structure. Boundary Layer Meteorology, 83, 407–421.
Masson, V., Champeaux, J.-L., Chauvin, F., Meriguet, C., and Lacaze, R. (2003). A global database of land surface parameters at 1-km resolution in meteorological and climate models. Journal of Climate, 16, 1261–1282.
Mauder, M., Liebethal, C., Göckede, M., Leps, J.-P., Beyrich, F., and Foken, T. (2006). Processing and quality control of flux data during LITFASS-2003. Boundary Layer Meteorology, 121, 67–88.
McCaughey, J.H., Mullins, D.W., and Publicover, M. (1987). Comparative performance of two reversing Bowen ratio measurement systems. Journal of Atmospheric and Oceanic Technology, 4, 724–730.
McNaughton, K. G., Clement, R.J., and Moncrieff, J. B. (2007). Scaling properties of velocity and temperature spectra above the surface friction layer in a convective atmospheric boundary layer. Nonlinear Processes in Geophysics, 14, 257–271.
Metselaar, K., and De Jong van Lier, Q. (2007). The shape of the transpiration reduction function under plant water stress. Vadose Zone Journal, 6, 124–139.
Meyers, T.P., and Hollinger, S.E. (2004). An assessment of storage terms in the surface energy balance of maize and soybean. Agricultural and Forest Meteorology, 125, 105–115.
Moene, A.F., and Schüttemeyer, D. (2008). The effect of surface heterogeneity on the temperature–humidity correlation and the relative transport efficiency. Boundary-Layer Meteorology, 129, 99–113.
Moene, A.F., Schüttemeyer, D., and Hartogensis, O.K. (2006). Scalar similarity functions: The influence of surface heterogeneity and entrainment. Paper presented at the 17th Boundary-Layer and Turbulence Conference, 22–25 May 2006, San Diego. American Meteorological Society, Boston, p 5.1
Mogensen, V.O. (1970). The calibration factor of heat flux meters in relation to the thermal conductivity of the surrounding medium. Agricultural Meteorology, 7, 401–410.
Molden, D., Murray-Rust, H., Sakthivadivel, R., and Makin, I. (2003). A water-productivity framework for understanding and action. In Kijne, J.W., Barker, R. and Molden, D. (eds.), Water productivity in agriculture: Limits and opportunities for improvement (pp. 1–18). Wallingford: CABI.
Molz, F.J. (1981). Models of water transport in the soil-plant system: A review. Water Resources Research, 17, 1245–1260.
Moncrieff, J.B., Massheder, J.M., de Bruin, H., Elbers, J., Friborg, T., Heusinkveld, B., Kabat, P., Scott, S., Soegaard, H., and Verhoef, A. (1997). A system to measure surface fluxes of momentum, sensible heat, water vapour and carbon dioxide. Journal of Hydrology, 188–189, 589–611.
Monin, A.S., and Obukhov, A.M. (1954). Basic laws of turbulent mixing in the surface layer of the atmosphere. Tr. Akad. Nauk SSSR Geophiz. Inst. 24, 163–187 (translation edited by McNaughton, K. G., available from (Accessed February 25, 2013).
Monin, A.S., and Yaglom, A.S. (1971). Statistical fluid mechanics: Mechanics of turbulence, Vol. I. Cambridge, MA: MIT Press.
Monteith, J.L. (1965). Evaporation and the Environment. In Fogg, G.E. (ed.), The state and movement of water in living organisms (pp. 205–234). Cambridge: Cambridge University Press.
Monteith, J.L. (1995). A reinterpretation of stomatal responses to humidity. Plant, Cell and Environment, 18, 357–364.
Monteith, J.L., and Unsworth, M.H. (2008). Principles of environmental physics, 3rd ed. Burlington: Academic Press.
Moors, E. (2002). Hydrologische woordenlijst. Zeist: NHV (Dutch Hydrological Society), in Dutch.
Mualem, Y. (1976). A new model for predicting the hydraulic conductivity of unsaturated porous media. Water Resources Research, 12, 513–522.
Mundel, G. (1992). Untersuchungen zur Evapotranspiration von Silomaisbeständen in Lysimetern. Archiv für Acker- und Pflanzenbau und Bodenkunde, 36, 35–44.
Muzylo, A., Llorens, P., Valente, F., Keizer, J.J., Domingo, F., and Gash, J.H.C. (2009). A review of rainfall interception modelling. Journal of Hydrology, 370, 191–206.
Nielsen, D.R., van Genuchten, M.Th., and Biggar, J.W. (1986). Water flow and solute transport in the unsaturated zone. Water Resources Research, 22 (Supplement), 89S–108S.
Nimmo, J.R., Rubin, J., and Hammermeister, D.P. (1987). Unsaturated flow in a centrifugal field: measurement of hydraulic conductivity and testing of Darcy’s law. Water Resources Research, 32, 124–134.
Ochsner, E.T., Horton, R., and Ren, T. (2001). A new perspective on soil thermal properties. Soil Science Society of America Journal, 65, 1641–1647.
O’Donnell, J.A., Romanovsky, V.E., Harden, J.W., and McGuire, A.D. (2009). The effect of moisture content on the thermal conductivity of moss and organic soil horizons from black spruce ecosystems in interior Alaska. Soil Science, 174, 646–651
Ommen, H.C. van (1988). Transport from diffuse sources of contamination and its application to a coupled unsaturated-saturated system. Unpublished PhD thesis, Wageningen University.
Oke, T.R. (1987). Boundary layer climates, 2nd ed. London: Methuen.
Papaioannou, G., Nikolidakis, G., Asimakopoulos, D., and Retalis, D. (1996). Photosynthetically active radiation in Athens. Agricultural and Forest Meteorology, 81, 287–298.
Paulson, C.A. (1970). The mathematical representation of wind speed and temperature profiles in the unstable atmospheric-surface layer. Journal of Applied Meteorology, 9, 857–861.
Pauwels, V.R.N., Verhoest, N.E.C., De Lannoy, G.J.M., Guissard, V., Lucau, C., and Defourny, P. (2007). Optimization of a coupled hydrology – crop growth model through the assimilation of observed soil moisture and leaf area index values using an ensemble Kalman filter. Water Resources Research, 43, W04421, doi:.
Paw, U, K.T., Qiu, J., Su, H.B., Watanabe, T., and Brunet, Y. (1995). Surface renewal analysis: A new method to obtain scalar fluxes without velocity data. Agricultural and ForestMeteorology, 74, 119–137.
Penning de Vries, F.W.T., and van Laar, H.H. (1982). Simulation of plant growth and crop production. Wageningen: Pudoc.
Peters-Lidard, C.D., Blackburn, E., Liang, X., and Wood, E.F. (1998). The effect of soil thermal conductivity parameterization on surface energy fluxes and temperatures. Journal of Atmosperic Science, 55, 1209–1224.
Petty, G.W. (2004). A first course in atmospheric radiation. Madison, WI: Sundog Publishing.
Philippon, N., Jarlan, L., Martiny, N., Camberlin, P., and Mougin, E., (2007). Characterization of the interannual and intraseasonal variability of West African vegetation between 1982 and 2002 by means of NOAA AVHRR NDVI data. Journal of Climate, 20, 1202–1218.
Pitman, A.J. (2003). The evolution of, and revolution in, land surface schemes designed for climate models. International Journal of Climatology, 23, 479–510.
Priestley, C.H.B., and Taylor, R.J. (1972). On the assessment of surface heat flux and evaporation using large scale parameters. Monthly Weather Review, 100, 81–92.
Prinn, R.G., Weiss, R.F., Fraser, P.J., Simmonds, P.G., Cunnold, D.M., Alyea, F.N., O’Doherty, S., Salameh, P., Miller, B.R., Huang, J., Wang, R.H.J., Hartley, D.E., Harth, C., Steele, L.P., Sturrock, G., Midgley, P.M., and McCulloch, A. (2000). A history of chemically and radiatively important gases in air deduced from ALE/GAGE/AGAGE. Journal of Geophysical Research, 105, 17751–17792.
Raats, P.A.C. (1975). Distribution of salts in the crop root zone. Journal of Hydrology, 27, 237–248.
Radcliffe, E.R., and Šimůnek, J. (2010). Soil physics with HYDRUS: Modeling and applications. Boca Raton, FL: CRC Press.
Reichstein, M., Falge, E., Baldocchi, D., Papale, D., Aubinet, M., Berbigier, P., Bernhofer, C., Buchmann, N., Gilmanov, T., Granier, A., Grünwald, T., Havránková, K., Ilvesniemi, H., Janous, D., Knohl, A., Laurila, T., Lohila, A., Loustau, D., Matteucci, G., Meyers, T., Miglietta, F., Ourcival, J.-M., Pumpanen, J., Rambal, S., Rotenberg, E., Sanz, M., Tenhunen, J., Seufert, G., Vaccari, F., Vesala, T., Yakir, D., and Valentini, R. (2005). On the separation of net ecosystem exchange into assimilation and ecosystem respiration: Review and improved algorithm. Global Change Biology, 11, 1424–1439.
Reynolds, O. (1895). On the dynamical theory of incompressible viscous fluids and the determination of the criterion. Philosophical Transactions of Royal Society, 186, 123–161.
Rhoades, J.D., Kandiah, A., and Mashali, A.M. (1992). The use of saline water for crop production. Rome: FAO, Irrigation and Drainage Paper 48.
Rijtema, P.E. (1965). An analysis of actual evapotranspiration. Agricultural Research Report 659. Wageningen: Pudoc.
Rijtema, P.E., Groenendijk, P., and Kroes, J.G. (1997). ANIMO, a dynamic simulation model for transport and transformation of nutrients and organic materials in soils. Wageningen: DLO Winand Staring Centre, Report 30.
Riou, C. (1982). Une expression analytique du flux de chaleur sensible en conditions suradiabatiques à partir de mesures du vent et de la température à deux niveaux. Journal de Recherches Atmosphériques, 16, 15–22.
Riseborough, D., Shiklomanov, N., Etzelmüller, B., Gruber, S., and Marchenko, S. (2008). Recent advances in Permafrost modelling. Permafrost and Periglacial Processes, 19, 137–156.
Ritsema, C.J., van Dam, J.C., Dekker, L.W., and Oostindie, K. (2005). A new modeling approach to simulate preferential flow and transport in water repellent porous media: Model structure and validation. Australian Journal of Soil Research, 43, 361–369.
Ritzema, H.P. (1994). Drainage principles and applications, 2nd ed. Wageningen: ILRI, Publication 16.
Rodriguez-Iturbe, I., and Porporato, A. (2004). Ecohydrology of water-controlled ecosystems: soil moisture and plant dynamics. Cambridge: Cambridge University Press.
Ronda, R.J., de Bruin, H.A.R., and Holtslag, A.A.M. (2001). Representation of the canopy conductance in modeling the surface energy budget for low vegetation. Journal of Applied Meteorology, 40, 1431–1444
Roth, C.H., Malicki, M.A., and Plagge, R. (1992). Empirical evaluation of the relationship between soil dielectric constant and volumetric water content as the basis for calibrating soil moisture measurements by TDR. Journal of Soil Science, 43, 1–13.
Rothman, L.S., et al. (2009). The HITRAN 2008 molecular spectroscopic database. Journal of Quantitative Spectroscopy and Radiative Transfer, 110, 533–572.
Rutter, A., Morton, A., and Robins, P. (1975). A predictive model of rainfall interception in forests. II Generalization of the model and comparison with observations in some coniferous and hardwood stands. Journal of Applied Ecology, 12, 367–380.
Santanello, J.A., and Friedl, M.A. (2003). Diurnal covariation in soil heat flux and net radiation. Journal of Applied Meteorology, 42, 851–862.
Sarwar, A., Bastiaanssen, W.M.G., Boers, Th.M., and van Dam, J.C. (2000). Evaluating drainage design parameters for the fourth drainage project, Pakistan by using the SWAP model: Part 1: Calibration. Irrigation and Drainage Systems, 14, 257–280.
Sauer, T.J., Meek, D.W., Ochsner, T.E., Harris, A R., and Horton, R. (2003). Errors in heat flux measurement by flux plates of contrasting design and thermal conductivity. Vadose Zone Journal, 2, 580–588.
Schaik, N.L.M.B., Hendriks, R.F.A., and van Dam, J.C. (2010). Parameterization of macropore flow using dye-tracer infiltration patterns in the SWAP model. Vadose Zone Journal, 9, 95–106.
Schalkwijk, J., Bosveld, F., and Siebesma, A. (2010). Timescales and structures in vertical transport in the atmospheric boundary layer. Technical Report WR-2010–02, KNMI.
Scharmer, K., and Greif, J., eds. (2000). The European solar radiation atlas, Vol. 2: Database and exploitation software. Paris: Les Presses de l’ École des Mines.
Schmid, H.P. (1997). Experimental design for flux measurements: Matching scales of observations and fluxes. Agricultural and Forest Meteorology, 87, 179–200.
Schmidt, W. (1921). Wird die Luft durch Konvektion von der Erdoberfllche her erwarmt?Meterologikal Zeitschrift, 38, 262.
Schröder, T., Javaux, M., Vanderborght, J., Körfgen, B., and Vereecken, H. (2009). Implementation of a microscopic soil-root hydraulic conductivity drop function in a three dimensional soil-root architecture water transfer model. Vadose Zone Journal, 8, 783–792.
Schüttemeyer, D., Moene, A.F., Holtslag, A.A.M., de Bruin, H.A.R., and van de Giesen, N. (2006). Surface fluxes and characteristics of drying semi-arid terrain in West Africa. Boundary Layer Meteorology, 118, 583–612.
Schüttemeyer, D., Schillings, Ch., Moene, A.F., and de Bruin, H.A.R. (2007). Satellite-based actual evapotranspiration over drying semiarid terrain in West-Africa. Journal of Applied Meteorology and Climatology, 46, 97–111.
Schuurmans, J., Troch, P.A., Veldhuizen, A., Bastiaanssen, W.G.M., and Bierkens, M., (2003). Assimilation of remotely sensed latent heat flux in a distributed hydrological model. Advanced Water Resources, 26, 151–159.
Scott, H.D. (2000). Soil physics: Agricultural and environmental applications. Ames: Iowa State University Press.
Sellers, P.J. (1985). Canopy reflectance, photosynthesis and transpiration. International Journal of Remote Sensing, 6, 1335–1372.
Sellers, P.J., Randall, D.A., Collatz, G.J., Berry, J.A., Field, C.B., Dazlich, D.A., Zhang, C., Collelo, G.D., and Bounoua, L. (1996). A revised land surface parameterization (SiB2) for atmospheric GCMS. Part I: Model formulation. Journal of Climate, 9, 676–705.
Sellers, P.J., Dickinson, R.E., Randall, D.A., Betts, A.K., Hall, F.G., Berry, J.A., Collatz, G.J., Denning, A.S., Mooney, H.A., Nobre, C.A., Sato, N., Field, C.B., and Henderson-Sellers, A. (1997). Modelling the exchanges of energy, water and carbon between continents and the atmosphere. Science, 275, 502–509.
Seneviratne, S.I., Lüthi, D., Litschi, M., and Schär, C. (2006). Land–atmosphere coupling and climate change in Europe, Nature, 443, 205–209.
Seth, A., Giorgi, F., and Dickinson, R.E. (1994). Simulating fluxes from heterogeneous land surface: Explicit subgrid method employing the biosphere-atmosphere transfer scheme (BATS). Journal of Geophysical Research, 99, 18651–18667.
Shuttleworth, W.J., and Wallace, J.S. (1985). Evaporation from sparse crops – an energy combination theory. Quarterly Journal of the Royal Meteorological Society, 111, 839–855.
Šimůnek, J., Sejna, M., and van Genuchten, M.Th. (1998a). The HYDRUS-1D software package for simulating one-dimensional water, heat, and multiple solutes in variably saturated media, Version 2.0. Riverside, CA: US Salinity Laboratory.
Šimůnek, J., Angula-Jaramillo, R., Schaap, M.G., Vabdervaere, J.-P, and van Genuchten, M.Th. (1998b). Using an inverse method to estimate the hydraulic properties of crusted soils from tension disc infiltrometer data. Geoderma, 86, 61–81.
Šimůnek, J., van Genuchten, M.Th., Sejna, M., Toride, N., and Leij, F.J. (1999). The STANMOD computer software for evaluating solute transport in porous media using analytical solutions of convection-dispersion equation. Riverside, CA: US Salinity Laboratory.
Singh, R. (2005). Water productivity from field to regional scale: Integration of crop and soil modelling, remote sensing and geographical information. Unpublished PhD thesis, Wageningen University.
Singh, R., Kroes, J.G., van Dam, J.C., and Feddes, R.A. (2006a). Distributed ecohydrological modelling to evaluate the performance of irrigation system in Sirsa district, India. I. Current water management and its productivity. Journal of Hydrology, 329, 692–713.
Singh, R., Jhorar, R.K., van Dam, J.C., and Feddes, R.A. (2006b). Distributed ecohydrological modelling to evaluate the performance of irrigation system in Sirsa district, India. II. Impact of alternative water management scenarios. Journal of Hydrology, 329, 714–723.
Skaggs, T.H., van Genuchten, M.T., Shouse, P.J., and Poss, J.A. (2006). Macroscopic approaches to root water uptake as a function of water and salinity stress. Agricultural Water Management, 86, 140–149.
Smith, M. (1992). CROPWAT: A computer program for irrigation planning and management. Rome, FAO, Irrigation and Drainage Paper 46.
Smith, R.E. (2002). Infiltration theory for hydrologic applications. Washington, DC: American Geophysical Union, Water Resources Monograph 15.
Smits, K.M., Sakaki, T., Limsuwat, A., and Illangasekare, T.H. (2010). Thermal conductivity of sands under varying moisture and porosity in drainage–wetting cycles. Vadose Zone Journal, 9, 1–9.
Spitters, C.J.T., van Keulen, H., and van Kraalingen, D.G.W. (1989). A simple and universal crop growth simulator: SUCROS 87. In Rabbinge, R., Ward, S.A. and van Laar, H.H. (eds.), Simulation and systems management in crop protection (pp. 147–181). Wageningen: Pudoc.
Stanhill, G., Cox, J.T.H., and Moreshet, S. (1968). The effect of crop and climatic factors on the radiation balance of an irrigated maize crop. Journal of Applied Ecology, 5, 707.
Stefan, J., (1889). Über die Theorien des Eisbildung insbesondere über die Eisbildung in Polarmeere. Annalen der Physik, 278, 269–286.
Stewart, J. B. (1988). Modeling surface conductance of pine forest. Agricultural and Forest Meteorology, 43, 19–35.
Stewart, J.B., Kustas, W.P., Humes, K.S., Nichols, W.D., Moran, M.S., and de Bruin, H.A.R. (1994). Sensible heat flux-radiometric surface temperature relationship for eight semiarid areas. Journal of Applied Meteorology, 33, 1110–1117.
Stull, R.B. (1988). An introduction to boundary-layer meteorology. Dordrecht: Kluwer Academic.
Supit, I., Hooyer, A.A., and van Diepen, C.A. (1994). System description of the WOFOST 6.0 crop simulation model implemented in CGMS. Vol. 1: Theory and algorithms. Luxembourg: Agricultural series, EUR publication 15956.
Tappeiner, U., and Cernusca, A. (1989). Canopy structure and light climate of different alpine plant communities: Analysis by means of a model. Theoretical and Applied Climatology, 40, 81–92.
Ten Berge, H.F.M. (1986). Heat and water transfer at the bare soil surface: Aspects affecting thermal images. Unpublished PhD thesis, Wageningen University.
Tennekes, H., and Lumley, J.L. (1972). A first course in turbulence. Cambridge, MA: MIT Press.
Teuling, A.J., Seneviratne, S.I., Williams, C., and Troch, P.A. (2006). Observed timescales of evapotranspiration response to soil moisture. Geophysical Research Letters, 33, L23403.
Teuling, A.J., Hirschi, M., Ohmura, A., Wild, M., Reichstein, M., Ciais, P., Buchmann, N., Ammann, C., Montagnani, L., Richardson, A. D., Wohlfahrt, G., and Seneviratne, S. I. (2009). A regional perspective on trends in continental evaporation. Geophysical Research Letters, 36, L02404.
Teuling, A.J., Seneviratne, S.I., Stöckli, R., Reichstein, M., Moors, E., Ciais, P., Luyssaert, S., van den Hurk, B., Ammann, C., Bernhofer, C., Dellwik, E., Gianelle, D., Gielen, B., Grünwald, T., Klumpp, K., Montagnani, L., Moureaux, C., Sottocornola, M., and Wohlfahrt, G. (2010). Contrasting response of European forest and grassland energy exchange to heatwaves. Nature Geosciences, 3, 722–727.
Thom, A.S. (1971). Momentum absorption by vegetation. Quarterly Journal of the Royal Meteorological Society, 97, 414–428.
Tiktak, A., van den Berg, F., Boesten, J.J.T.I., Leistra, M., van der Linden, A.M.A., and van Kraalingen, D. (2000). Pesticide Emission at Regional and Local scales: Pearl version 1.1 User Manual. Zeist: RIVM report 711401008.
Tol, C. van der (2000). Soil evaporation and plant transpiration as simulated with the FAO 56-method and the agrohydrological model SWAP. Unpublished MSc thesis, Wageningen University.
Topp, G.C., Davis, J.L., and Annan, A.P. (1980). Electromagnetic determination of soil water content: Measurement in coaxial transmission lines. Water Resources Research, 16, 574–582.
Trier, S.B., Chen, F., Manning, K.W., LeMone, M.A., and Davis, C.A. (2008). Sensitivity of the PBL and precipitation in 12-day simulations of warm-season convection using different land surface models and soil wetness conditions. Monthly Weather Review, 136, 2321–2343.
Utset, A., Imma, F., Martinez-Cob, A., and Cavero, J. (2004). Comparing Penman-Monteith and Priestley-Taylor as reference evapotranspiration inputs for modeling maize water use under Mediterranean conditions. Agricultural Water Management, 66, 205–219.
Valente, F., Daid, J.S., and Gash, J.H.C. (1997). Modelling interception loss for two sparse eucalypt and pine forests in central Portugal using reformulated Rutter and Gash analytical models. Journal of Hydrology, 190, 141–162.
Van Dam, J.C., and Feddes, R.A. (2000). Numerical simulation of infiltration, evaporation and shallow groundwater levels with the Richards’ equation. Journal of Hydrology, 233, 72–85.
Van Dam, J.C., and Malik, R.S. (2003). Water productivity of irrigated crops in Sirsa district, India. Integration of remote sensing, crop and soil models and geographical information systems. Wageningen: WATPRO final report.
Van Dam, J.C., Stricker, J.N.M., and Droogers, P. (1994). Inverse method to determine soil hydraulic functions from multi-step outflow experiments. Soil Science Society of America Journal, 58, 647–652.
Van Dam, J.C., Groenendijk, P., Hendriks, R.F.A., and Kroes, J.G. (2008). Advances of modeling water flow in variably saturated soils with SWAP. Vadose Zone Journal, 7, 640–653.
Van de Berg, F., and Boesten, J.J.T.I. (1998). Pesticide leaching and accumulation model (PESTLA) version 3.4; description and user’s guide. Wageningen: Alterra Green World Research, Technical Document 43.
Van de Pol, R.M., Wierenga, P.J., and Nielsen, D.R. (1977). Solute movement in a field soil. Soil Science Society of America Journal, 41, 10–13.
Van de Wiel, B.J.H., Moene, A.F., Steeneveld, G.J., Hartogensis, O.K., and Holtslag, A.A.M. (2007). Predicting the collapse of turbulence in stably stratified boundary layers. Flow, Turbulence and Combustion, 79, 251 – 274.
Van de Wiel, B.J.H., Moene, A.F., de Ronde, W.H., and Jonker, H.J.J. (2008). Local similarity in the stable boundary layer and mixing-length approaches: Consistency of concepts. Boundary-Layer Meteorology, 128, 103–116.
Van de Wiel, B.J.H., Moene, A.F., and Jonker, H.J.J. (2012a). The cessation of continuous turbulence as precursor of the very stable nocturnal boundary layer. Journal of the Atmospheric Science, 69, 3097–3115.
Van de Wiel, B.J.H., Moene, A.F. and Jonker, H.J.J., Baas, P., Basu, S., Donda, J.M.M, Sun, J., and Holtslag, A.A.M. (2012b). The minimum wind speed for sustainable turbulence in the nocturnal boundary layer. Journal of Atmospheric Sciences, 69, 3116–3127.
Van der Zee, S.E.A.T.M., and van Riemsdijk, W.H. (1987). Transport of reactive solute in spatially variable soil systems. Water Resources Research, 23, 2059–2069.
Van Dijk, A., Moene, A.F., and DeBruin, H.A.R. (2004). The principles of surface flux physics: theory, practice and description of the ECPACK library. Internal Report 2004/1, Meteorology and Air Quality Group, Wageningen University, Wageningen, the Netherlands, 99 pp.
Van Genuchten, M.Th. (1980). A closed form equation for predicting the hydraulic conductivity of unsaturated soils. Soil Science Society of America Journal, 44, 892–898.
Van Genuchten, M.Th., and Wieringa, P.J. (1974). Simulation of one-dimensional solute transfer in porous media. New Mexico: New Mexico State University Agricultural Experimental Station Bulletin 628.
Van Genuchten, M.Th., and Cleary, R.W. (1979). Movement of solutes in soil: Computer simulated and laboratory results. In Bolt, G.H. (ed.), Soil chemistry B: Physico-chemical models (pp. 349–386). Amsterdam: Elsevier.
Van Heerwaarden, C.C., Vilà-Guerau de Arellano, J., Moene, A.F., and Holtslag, A.A.M. (2009). Interactions between dry-air entrainment, surface evaporation and convective boundary layer development. Quarterly Journal of the Royal Meteorological Society, 135, 1277–1291.
Van Wijk, W.R., and de Vries, D.A. (1954). Evapotranspiration. Netherlands Journal of Agricultural Science, 2, 105–118.
Van Wijk, W.R., and de Vries, D.A. (1963). Periodic temperature variations in a homogeneous soil. In van Wijk, W.R. (ed.), Physics of plant environment (pp. 102–143). Amsterdam: North-Holland.
Van Wijk, A.L.M., Feddes, R.A., Wesseling, J.G., and Buitendijk, J. (1988). Effecten van grondsoort en ontwatering op opbrengst van akkerbouwgewassen. Een evaluatie over 30 jaren van de opbrengst van aardappelen en zomergraan op acht bodemprofielen bij vijftien combinaties van ontwateringsdiepte en -intensiteit. Wageningen: Instituut voor Cultuurtechniek en Waterhuishouding (ICW), Rapport 31.
Vazifedoust, M., van Dam, J.C., Bastiaanssen, W.G.M., and Feddes, R.A. (2009). Assimilation of satellite data into agrohydrological models to improve crop yield forecasts. International Journal of Remote Sensing, 30, 2523–2545.
Verhoef, A., van den Hurk, B.J.J.M, Jacobs, A.F.G, and Heusinkveld, B.G. (1996). Thermal soil properties for vineyard (EFEDA-I) and savanna (HAPEX-Sahel) sites. Agricultural and Forest Meteorology, 78, 1–18.
Vickers, D., Thomas, C., and Law, B.E. (2009). Random and systematic CO2 flux sampling errors for tower measurements over forests in the convective boundary layer. Agricultural and Forest Meteorology, 149, 73–83.
Vilà-Guerau de Arellano, J., and van Heerwaarden, C.C. (forthcoming). Atmospheric boundary layer: Integrating air chemistry and land interactions. Cambridge: Cambridge University Press.
Viterbo, P., and Beljaars, A. C. M. (1995). An improved land surface parameterization scheme in the ECMWF model and its validation. Journal of Climate, 8, 2716–2748.
Von Caemmerer, S., and Farquhar, G.D. (1981). Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta, 153, 376–387.
Von Hoyningen-Hüne, J. (1983). Die Interception des Niederschlags in landwirtschaftlichen Beständen. Schriftenreihe des DVWK, 57, 1–53.
Voogt, M., van den Hurk, B.J.J.M., and Jacobs, C. (2006). The ECMWF land surface scheme extended with a photosynthesis and LAI module tested for a coniferous site. De Bilt, Royal Dutch Meteorological Institute, report WR-06–02.
Voronovich, V., and Kiely, G. (2007). On the gap in the spectra of surface-layer atmospheric turbulence. Boundary-Layer Meteorology, 122, 67–83.
Walker, J., and Houser, P. (2001). A methodology for initializing soil moisture in a global climate model: Assimilation of near-surface soil moisture observations. Journal of Geophysical Research, 106, 11,761–11,774.
Warrick, A.W. (2002). Soil physics companion. Boca Raton, FL: CRC Press.
Warrick, A.W. (2003). Soil water dynamics. New York: Oxford University Press.
Wallace, J.M., and Hobbs, P.V. (2006). Atmospheric science: An introductory survey, 2nd ed. Amsterdam: Academic Press.
Walsum, P.E.V. van, and Groenendijk, P. (2008). Quasi steady-state simulation of the unsaturated zone in groundwater modelling of lowland regions. Vadose Zone Journal, 7, 769–781.
Wan, F., and Porté-Agel, F. (2011). A large-eddy simulation study of turbulent flow over multiscale topography. Boundary-Layer Meteorology, 141, 201–217.
Warrilow, D.A. (1986). Indications of the sensitivity of European climate to land use variation using a one-dimensional model (pp. 156–159). Rome: Proceedings ISLSCP conference.
Webb, E., Pearman, G., and Leuning, R. (1980). Correction of flux measurements for density effects due to heat and water vapour transfer. Quarterly Journal of Royal Meteorological Society, 106, 85–100.
Wehrli, C. (1985). Extraterrestrial solar spectrum. Davos: Physikalisch-Meteorologisches Observatorium + World Radiation Center (PMO/WRC), Publication no. 615.
Weiss, A.Lukens, D.L., Norman, J.M., and Steadman, J.R. (1989). Leaf wetness in dry beans under semi-arid conditions. Agricultural and Forest Meteorology, 48, 149–162.
Wendroth, O., Ehlers, W., Hopmans, J.W., Kage, H., Halbertsma, J., and Wösten, J.H.M. (1993). Reevaluation of the evaporation method for determining hydraulic functions in unsaturated soils. Soil Science Society of America Journal, 57, 1436–1443.
Wesseling, J.G. (1998). Some equations and the computer program Helena for the calculation of daily evaporation. Wageningen: Alterra, Technical document 48.
Wichink Kruit, R.J., Jacobs, A.F.G., and Holtslag, A.A.M. (2008). Measurements and estimates of leaf wetness over agricultural grassland for dry deposition modeling of trace gases. Atmospheric Environment, 42, 5304–5316.
Wieringa, J. (1993). Representative roughness parameters for homogeneous terrain. Boundary Layer Meteorology, 63, 323–363.
Willmer, C., and Fricker, M. (1996). Stomata, 2nd ed. London: Chapman and Hall.
Wilson, D.K. (2001). An alternative function for the wind and temperature gradients in unstable surface layers. Boundary Layer Meteorology, 99, 151–158.
Wilson, J.D. (2008). Monin-Obukhov functions for standard deviations of velocity. Boundary-Layer Meteorology, 129, 353–369.
WMO (2008). WMO guide to meteorological instruments and methods of observation, 7th ed. Geneva, Switzerland:WMO, No. 8.
Wolf, J., Beusen, A.H.W., Groenendijk, P., Kroon, T., Rötter, R., and van Zeijts, H. (2003). The integrated modeling system STONE for calculating emissions from agriculture in the Netherlands. Environmental Modeling and Software, 18, 597–617.
Wong, S.-C., Cowan, I.R., and Farquhar, G.D. (1985). Leaf conductance in relation to rate of CO2 assimilation – I. Influence of nitrogen nutrition, phosphorus nutrition, photon flux density, and ambient partial pressure of CO2 during ontogeny. Plant Physiology, 78, 821–825.
Wösten, J.H.M., Lilly, A., Nemes, A., and Le Bas, C. (1998). Using existing soil data to derive hydraulic parameters for simulation models in environmental studies and in land use planning. Wageningen: Alterra Green World Research, Report 156.
Wösten, J.H.M., Veerman, G.J., de Groot, W.J.M., and Stolte, J. (2001). Waterretentie- en doorlatendheidskarakteristieken van boven- en ondergronden in Nederland. De Staringreeks. Wageningen: Alterra Green World Research, Report 153.
Wyngaard, J.C. (2010). Turbulence in the atmosphere. Cambridge: Cambridge University Press.
Xiao, H., Meissner, R., Seeger, J., Rupp, H., and Borg, H. (2009). Effect of vegetation type and growth stage on dewfall, determined with high precision weighing lysimeters at a site in northern Germany. Journal of Hydrology, 377, 43–49.
Xiu, A., and Pleim, J.E. (2001). Development of a land surface model. I – Application in a mesoscale meteorological model. Journal of Applied Meteorology, 40, 192–209.
Yates, S.R., van Genuchten, M.Th., Warrick, A.W., and Leij, F.J. (1992). Analysis of measured, predicted and estimated hydraulic conductivity using the RETC computer program. Soil Science Society of America Journal, 56, 347–354.
Zangvil, A. (1996). Six years of dew observations in the Negev Desert, Israel. Journal of Arid Environments, 32, 361–371.
Zelik, M., Gregory, S.A., and Smith, E.V.P. (1992). Introductory astronomy and astrophysics, 3rd ed. Fort Worth, TX: Saunders College.
Zeng, X. (2001). Global vegetation root distribution for land modeling. Journal of Hydrometeorology, 2, 525–530.
Zhang, H., and Nobel, P.S. (1996). Dependency of ci/ca and leaf transpiration efficiency on the vapour pressure deficit. Australian Journal of Plant Physiology, 232, 561–568.
Zilitinkevich, S.S., Elperin, T., Kleeorin, N., and Rogachevskii, I. (2007). Energy-and flux-budget (EFB) turbulence closure model for stably stratified flows. Part I: steady-state, homogeneous regimes. Boundary-Layer Meteorology, 125, 167–191.
Zilitinkevich, S. S., Elperin, T., Kleeorin, N., Rogachevskii, I., and Esau, I. (2013). A hierarchy of energy- and flux-budget (EFB) turbulence closure models for stably-stratified geophysical flows. Boundary-Layer Meteorology, 146, 341–373.