Spatially distributing monthly reference evapotranspiration and pan evaporation considering topographic influences
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Tim R. McVicar | Xingmin Mu | Michael F. Hutchinson | M. Hutchinson | T. McVicar | T. V. Niel | X. Mu | Zhihong Liu | LingTao Li | Lingtao Li | Thomas G. Van Niel | ZhiHong Liu | Lingtao Li | Xingmin Mu
[1] Nan Zhongren,et al. GIS-assisted spatially distributed modeling of the potential evapotranspiration in semi-arid climate of the Chinese Loess Plateau , 2004 .
[2] Lu Zhang,et al. Response of mean annual evapotranspiration to vegetation changes at catchment scale , 2001 .
[3] Jingsheng Chen,et al. The response of river water quality and quantity to the development of irrigated agriculture in the last 4 decades in the Yellow River Basin, China , 2003 .
[4] J. Monteith,et al. Principles of Environmental Physics , 2014 .
[5] D. Jupp,et al. Using covariates to spatially interpolate moisture availability in the Murray–Darling Basin: A novel use of remotely sensed data , 2002 .
[6] Mingan Shao,et al. Soil and water loss from the Loess Plateau in China , 2000 .
[7] N. Pepin. Twentieth-Century Change in the Climate Record for the Front Range, Colorado, U.S.A. , 2000 .
[8] Eduardo Varas,et al. Estimation of mean monthly solar global radiation as a function of temperature , 2000 .
[9] C. Rolland. Spatial and Seasonal Variations of Air Temperature Lapse Rates in Alpine Regions , 2003 .
[10] Peter E. Thornton,et al. Generating surfaces of daily meteorological variables over large regions of complex terrain , 1997 .
[11] Daniel W. McKenney. Calibration and sensitivity analysis of a spatially-distributed solar radiation model , 1999, Int. J. Geogr. Inf. Sci..
[12] G. Sun,et al. Potential water yield reduction due to forestation across China , 2006 .
[13] Ian D. Moore,et al. Modelling environmental heterogeneity in forested landscapes , 1993 .
[14] Ramakrishna R. Nemani,et al. MTCLIM: a mountain microclimate simulation model , 1989 .
[15] I. Oroud. The influence of heat conduction on evaporation from sunken pans in hot, dry environment , 1998 .
[16] Alan G. Davenport,et al. Guidelines for the calculation of wind speed-ups in complex terrain , 1998 .
[17] M. Hutchinson,et al. A comparison of two statistical methods for spatial interpolation of Canadian monthly mean climate data , 2000 .
[18] Tim R. McVicar,et al. Monitoring regional agricultural water use efficiency for Hebei Province on the North China Plain , 2002 .
[19] M. Roderick,et al. A simple pan‐evaporation model for analysis of climate simulations: Evaluation over Australia , 2006 .
[20] D. Jupp,et al. Estimating one-time-of-day meteorological data from standard daily data as inputs to thermal remote sensing based energy balance models , 1999 .
[21] Christopher Daly,et al. Guidelines for assessing the suitability of spatial climate data sets , 2006 .
[22] R. Stull. An Introduction to Boundary Layer Meteorology , 1988 .
[23] T. Huntington. Evidence for intensification of the global water cycle: Review and synthesis , 2006 .
[24] B. Heusinkveld,et al. Temperature variation in a class A evaporation pan , 1998 .
[25] J. Lhomme,et al. Towards a rational definition of potential evaporation , 1997 .
[26] Richard G. Allen,et al. Report on the Expert Consultation on Procedures for Revision of FAO Guidelines for Prediction of Crop Water Requirements. Rome, Italy, 28-31 May 1990 , 1991 .
[27] G. Stanhill,et al. Some results of helicopter measurements of the albedo of different land surfaces , 1970 .
[28] Trevor H. Booth,et al. Estimating monthly mean valuesof daily total solar radiation for Australia , 1984 .
[29] Wilfried Brutsaert,et al. Evaporation into the atmosphere : theory, history, and applications , 1982 .
[30] Nigel Wood,et al. Wind Flow Over Complex Terrain: A Historical Perspective and the Prospect for Large-Eddy Modelling , 2000, Boundary-Layer Meteorology.
[31] C. Priestley,et al. On the Assessment of Surface Heat Flux and Evaporation Using Large-Scale Parameters , 1972 .
[32] Xiaoping Zhang,et al. Improving a digital elevation model by reducing source data errors and optimising interpolation algorithm parameters: An example in the Loess Plateau, China , 2007, Int. J. Appl. Earth Obs. Geoinformation.
[33] Enrong Lu,et al. Correlations between monthly average global solar radiation on horizontal surfaces and relative duration of sunshine in Yunnan Province, China , 1998 .
[34] R. Geiger,et al. The Climate near the Ground , 1951 .
[35] J. Bouma,et al. Simulation of moisture deficits and areal interpolation by universal cokriging , 1991 .
[36] J. Wallace. Increasing agricultural water use efficiency to meet future food production , 2000 .
[37] M. Hutchinson,et al. Monthly estimates of wind speed and wind run for Australia , 1984 .
[38] Mark Henderson,et al. Taking China's Temperature: Daily Range, Warming Trends, and Regional Variations, 1955–2000 , 2004 .
[39] P. Briggs,et al. Topographic Bias in Mesoscale Precipitation Networks , 1996 .
[40] J. Doorenbos,et al. Guidelines for predicting crop water requirements , 1977 .
[41] John O. Carter,et al. Using spatial interpolation to construct a comprehensive archive of Australian climate data , 2001, Environ. Model. Softw..
[42] Martin R. Wolf,et al. K3 User Guide , 2000 .
[43] Liu Yunfeng,et al. Climatic change on the Tibetan Plateau: Potential Evapotranspiration Trends from 1961–2000 , 2006 .
[44] E. Linacre. Estimating U.S. Class A Pan Evaporation from Few Climate Data , 1994 .
[45] N. Caine,et al. Changes in climate and hydrochemical responses in a high-elevation catchment in the Rocky Mountains, USA , 1996 .
[46] Ran Tao,et al. China's Sloping Land Conversion Programme Four Years on: Current Situation, Pending Issues , 2004 .
[47] G. Campbell,et al. On the relationship between incoming solar radiation and daily maximum and minimum temperature , 1984 .
[48] Richard G. Allen,et al. Dynamics of reference evapotranspiration in the Bolivian highlands (Altiplano) , 2004 .
[49] Roger G. Barry,et al. Mountain weather and climate , 1982 .
[50] Hiroshi Ishidaira,et al. Sustainability Analysis for Yellow River Water Resources Using the System Dynamics Approach , 2002 .
[51] M. Furger,et al. Climatology of near‐surface wind patterns over Switzerland , 2001 .
[52] N. Pepin,et al. Climate change in the Colorado Rocky Mountains: free air versus surface temperature trends , 2002 .
[53] T. McVicar,et al. Developing a decision support tool for China's re-vegetation program: Simulating regional impacts of afforestation on average annual streamflow in the Loess Plateau , 2007 .
[54] G. Wahba. Spline models for observational data , 1990 .
[55] M. F. Hutchinson,et al. Interpolating Mean Rainfall Using Thin Plate Smoothing Splines , 1995, Int. J. Geogr. Inf. Sci..
[56] Dean L. Urban,et al. Spatial estimation of air temperature differences for landscape-scale studies in montane environments , 2003 .
[57] J. Régnière,et al. Measured and predicted air temperatures at basin to regional scales in the southern Appalachian mountains , 1998 .
[58] Geoffrey M. Laslett,et al. Kriging and Splines: An Empirical Comparison of their Predictive Performance in Some Applications , 1994 .
[59] Kunqing Xie,et al. Crop characteristics and their temporal change on the Loess Plateau of China , 2003 .
[60] H. L. Penman. Evaporation: an introductory survey , 1956 .
[61] Francis H. S. Chiew,et al. PENMAN-MONTEITH, FAO-24 REFERENCE CROP EVAPOTRANSPIRATION AND CLASS-A PAN DATA IN AUSTRALIA , 1995 .
[62] J. Monteith. Evaporation and environment. , 1965, Symposia of the Society for Experimental Biology.
[63] Gerald Stanhill,et al. Evaporative climate changes at Bet Dagan, Israel, 1964–1998 , 2002 .
[64] Shenggong Li,et al. Grassland desertification by grazing and the resulting micrometeorological changes in Inner Mongolia , 2000 .
[65] Ren Mei-e,et al. An outline of China's physical geography , 1985 .
[66] H. L. Penman. Natural evaporation from open water, bare soil and grass , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[67] Chen Guo-jie,et al. Impacts of the “Grain for Green” Project on Rural Communities in the Upper Min River Basin, Sichuan, China , 2003 .
[68] Zhang Hong-wu,et al. Development of check-dam systems in gullies on the Loess Plateau, China , 2004 .
[69] Vijay P. Singh,et al. Cross Comparison of Empirical Equations for Calculating Potential Evapotranspiration with Data from Switzerland , 2002 .
[70] Arif Hepbasli,et al. Solar Radiation Models. Part 1: A Review , 2004 .
[71] Olli Varis,et al. China's 8 challenges to water resources management in the first quarter of the 21st Century , 2001 .
[72] Ramakrishna R. Nemani,et al. Extrapolation of synoptic meteorological data in mountainous terrain and its use for simulating forest evapotranspiration and photosynthesis , 1987 .
[73] B. M. Davis. Uses and abuses of cross-validation in geostatistics , 1987 .
[74] Xingguo Mo,et al. Simulating temporal and spatial variation of evapotranspiration over the Lushi basin , 2004 .
[75] O. Varis,et al. Climate Change in China , 2001, Ambio.
[76] Du Zheng,et al. Moisture conditions and climate trends in China during the period 1971–2000 , 2006 .
[77] T. Jiang,et al. Analysis of spatial distribution and temporal trend of reference evapotranspiration and pan evaporation in Changjiang (Yangtze River) catchment , 2006 .
[78] J. Jacobs,et al. Utility of Penman–Monteith, Priestley–Taylor, reference evapotranspiration, and pan evaporation methods to estimate pasture evapotranspiration , 2005 .
[79] Gerald Stanhill,et al. Global dimming: a review of the evidence for a widespread and significant reduction in global radiation with discussion of its probable causes and possible agricultural consequences , 2001 .
[80] A. Dodd. DEW POINT DISTRIBUTION IN THE CONTIGUOUS UNITED STATES , 1965 .
[81] I. A. Nalder,et al. Spatial interpolation of climatic Normals: test of a new method in the Canadian boreal forest , 1998 .
[82] Hong Yang,et al. Land conservation campaign in China: integrated management, local participation and food supply option , 2004 .
[83] Chong-Yu Xu,et al. Sensitivity of the Penman–Monteith reference evapotranspiration to key climatic variables in the Changjiang (Yangtze River) basin , 2006 .
[84] B. Vogel,et al. Aspects of the convective boundary layer structure over complex terrain , 1998 .
[85] Michael R. Raupach,et al. The influence of topography on meteorogical variables and surface-atmosphere interactions , 1997 .
[86] M. Hutchinson,et al. Splines — more than just a smooth interpolator , 1994 .
[87] Li Wenhua,et al. Degradation and restoration of forest ecosystems in China , 2004 .
[88] J. Martínez-Lozano,et al. The historical evolution of the Ångström formula and its modifications: review and bibliography , 1984 .
[89] Shenggong Li,et al. Micrometeorological changes following establishment of artificially established artemisia vegetation on desertified sandy land in the Horqin sandy land, China and their implication on regional environmental change , 2002 .
[90] L. S. Pereira,et al. Crop evapotranspiration : guidelines for computing crop water requirements , 1998 .
[91] M. Rebetez,et al. Regional behavior of minimum temperatures in Switzerland for the period 1979–1993 , 1996 .
[92] Parameters of Land-Surface Processes for Gobi in North-West China , 2004 .
[93] Michael F. Hutchinson,et al. Interpolation of Rainfall Data with Thin Plate Smoothing Splines - Part I: Two Dimensional Smoothing of Data with Short Range Correlation , 1998 .
[94] Zhaohui Lin,et al. Climate of China , 1992 .
[95] T. McVicar,et al. Modelling the impact of afforestation on average annual streamflow in the Loess Plateau, China , 2008 .
[96] J. M. Molina Martínez,et al. A simulation model for predicting hourly pan evaporation from meteorological data , 2006 .
[97] Tim R. McVicar,et al. On the importance of including vegetation dynamics in Budyko's hydrological model , 2006 .
[98] C. W. Thornthwaite. An approach toward a rational classification of climate. , 1948 .
[99] M. Roderick. The ever-flickering light. , 2006, Trends in ecology & evolution.
[100] P. Taylor. Turbulent boundary-layer flow over low and moderate slope hills , 1998 .
[101] N. Rosenberg,et al. Sensitivity of some potential evapotranspiration estimation methods to climate change , 1993 .
[102] M. Vauclin,et al. On the proper employment of evaporation pans and atmometers in estimating potential transpiration , 2007 .
[103] Torbjörn Gustavsson,et al. Development of Temperature Patterns during Clear Nights , 1998 .
[104] N. Lam. Spatial Interpolation Methods: A Review , 1983 .
[105] R. J. Granger,et al. An examination of the concept of potential evaporation , 1989 .
[106] Climate in a small area: An introduction to local meteorology: M. M. Yoshino. University of Tokyo Press, Tokyo, 1975, 549 pp., £16.00. , 1976 .
[107] J. Oliver,et al. Climate in a Small Area: An Introduction to Local Meterology , 1976 .
[108] L. Band,et al. Continuous modeling of intermittent stormflows on a semi-arid agricultural catchment , 1999 .
[109] Chong-Yu Xu,et al. Comparison of the Thornthwaite method and pan data with the standard Penman-Monteith estimates of reference evapotranspiration in China , 2005 .
[110] J. Wallace,et al. Calculating evaporation: resistance to factors , 1995 .
[111] A. Prata. A new long‐wave formula for estimating downward clear‐sky radiation at the surface , 1996 .
[112] M. Hutchinson,et al. Spatial interpolation of monthly mean climate data for China , 2005 .
[113] Qiang Zhang,et al. Changes of Climate Extremes in China , 1999 .
[114] James W. Hurrell,et al. Elevation Dependency of the Surface Climate Change Signal: A Model Study , 1997 .
[115] George H. Hargreaves,et al. Reference Crop Evapotranspiration from Temperature , 1985 .
[116] T. McMahon,et al. An Australian Comparison of Penman's Potential Evapotranspiration Estimates and Class A Evaporation Pan Data , 1992 .
[117] D. Winkler. Participation in Forestry in Tibetan Southwest China: A Strategy to Resolve Resource Use Conflicts , 2002 .
[118] Wenzhi Zhao,et al. Validation of five global radiation models with measured daily data in China , 2004 .
[119] G. Wahba,et al. Some New Mathematical Methods for Variational Objective Analysis Using Splines and Cross Validation , 1980 .
[120] F. Anctil,et al. Which potential evapotranspiration input for a lumped rainfall-runoff model?. Part 2: Towards a simple and efficient potential evapotranspiration model for rainfall-runoff modelling , 2005 .
[121] Li Zhanbin,et al. Down-scale analysis for water scarcity in response to soil–water conservation on Loess Plateau of China , 2003 .