Uncertainty of groundwater recharge estimated from a water and energy balance model
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Craig T. Simmons | Daniel Partington | Okke Batelaan | Peter G. Cook | Russell S. Crosbie | O. Batelaan | D. Partington | C. Simmons | P. Cook | R. Crosbie | Yueqing Xie | Yuequing Xie
[1] F. Chiew,et al. Episodic recharge and climate change in the Murray-Darling Basin, Australia , 2012, Hydrogeology Journal.
[2] A. Sarangi,et al. Soil water budgeting approach to quantify potential groundwater recharge from croplands and groundwater use in a semi-arid region , 2016, Environmental Earth Sciences.
[3] Bridget R. Scanlon,et al. Groundwater Recharge through Vertisols: Irrigated Cropland vs. Natural Land, Israel , 2011 .
[4] R. Barthel,et al. Combination of soil-water balance models and water-table fluctuation methods for evaluation and improvement of groundwater recharge calculations , 2011 .
[5] Groundwater recharge and associated uncertainty estimation combining multi-method and multi-scale approaches , 2016 .
[6] K. Hiscock,et al. Modelling the impact of forest cover on groundwater resources: A case study of the Sherwood Sandstone aquifer in the East Midlands, UK , 2010 .
[7] B. Scanlon,et al. Choosing appropriate techniques for quantifying groundwater recharge , 2002 .
[8] Max D. Morris,et al. Factorial sampling plans for preliminary computational experiments , 1991 .
[9] O. R. Clark. Interception of Rainfall by Prairie Grasses, Weeds, and Certain Crop Plants , 1940 .
[10] J. F. Devlin,et al. The persistence of the water budget myth and its relationship to sustainability , 2005 .
[11] Helmut Elsenbeer,et al. Pedotransfer functions for estimating saturated hydraulic conductivity: implications for modeling storm flow generation , 2001 .
[12] Mathieu Javaux,et al. Using Pedotransfer Functions to Estimate the van Genuchten–Mualem Soil Hydraulic Properties: A Review , 2010 .
[13] W. Rawls,et al. Estimating generalized soil-water characteristics from texture , 1986 .
[14] J. McCallum,et al. Impacts of climate change on groundwater in Australia: a sensitivity analysis of recharge , 2010 .
[15] Marc Van Meirvenne,et al. Evaluation of Pedotransfer Functions for Predicting the Soil Moisture Retention Curve , 2001 .
[16] P. Cook,et al. Using groundwater levels to estimate recharge , 2002 .
[17] J. Grace,et al. Understanding and parameterizing the soil-water-atmosphere transfer through vegetation , 2005 .
[18] Golan Bel,et al. Examination of groundwater recharge with a calibrated/validated flow model of the deep vadose zone , 2015 .
[19] Philip Broadbridge,et al. Constant rate rainfall infiltration: A versatile nonlinear model, I. Analytic solution , 1988 .
[20] S. Wofsy,et al. Modelling the soil-plant-atmosphere continuum in a Quercus-Acer stand at Harvard Forest : the regulation of stomatal conductance by light, nitrogen and soil/plant hydraulic properties , 1996 .
[21] W. Edmunds,et al. Published online in Wiley InterScience (www.interscience.wiley.com) DOI: 10.1002/hyp.6335 Global synthesis of groundwater recharge in semiarid andaridregions , 2022 .
[22] Walter J. Rawls,et al. Pedotransfer functions: bridging the gap between available basic soil data and missing soil hydraulic characteristics , 2001 .
[23] Edward P. Glenn,et al. Actual evapotranspiration estimation by ground and remote sensing methods: the Australian experience , 2011 .
[24] John O. Carter,et al. Using spatial interpolation to construct a comprehensive archive of Australian climate data , 2001, Environ. Model. Softw..
[25] G. Gee,et al. Vadose-zone techniques for estimating groundwater recharge in arid and semiarid regions , 1994 .
[26] John Bredehoeft,et al. Safe Yield and the Water Budget Myth , 1997 .
[27] Lei Cheng,et al. Modelling vegetation water-use and groundwater recharge as affected by climate variability in an arid-zone Acacia savanna woodland , 2014 .
[28] K. Rushton,et al. The estimation of groundwater recharge , 1979 .
[29] The water budget myth revisited: why hydrogeologists model. , 2002, Ground water.
[30] F. Chiew,et al. Modelling climate-change impacts on groundwater recharge in the Murray-Darling Basin, Australia , 2010 .
[31] J. Finch. Estimating direct groundwater recharge using a simple water balance model – sensitivity to land surface parameters , 1998 .
[32] L. Merbold,et al. Validation and comparison of two soil-vegetation-atmosphere transfer models for tropical Africa , 2012 .
[33] K. Rushton,et al. Improved soil moisture balance methodology for recharge estimation , 2006 .
[34] R. Reedy,et al. Potential climate change effects on groundwater recharge in the High Plains Aquifer, USA , 2013 .
[35] R. Taylor,et al. Groundwater recharge in the Victoria Nile basin of east Africa: support for the soil moisture balance approach using stable isotope tracers and flow modelling , 1996 .
[36] Tobias L. Hohenbrink,et al. Texture-depending performance of an in situ method assessing deep seepage , 2014 .
[37] A. Dalcher,et al. A Simple Biosphere Model (SIB) for Use within General Circulation Models , 1986 .
[38] Budiman Minasny,et al. Comparison of different approaches to the development of pedotransfer functions for water-retention curves , 1999 .
[39] Glen R. Walker,et al. Factors affecting groundwater recharge following clearing in the south western Murray Basin , 1994 .
[40] A. Ridley,et al. Seasonal development of roots under perennial and annual grass pastures , 1994 .
[41] Lei Cheng,et al. Impacts of elevated CO 2 , climate change and their interactions on water budgets in four different catchments in Australia , 2014 .
[42] R. Crosbie,et al. Deep drainage estimates using multiple linear regression with percent clay content and rainfall , 2012 .
[43] J. Wösten,et al. Development and use of a database of hydraulic properties of European soils , 1999 .
[44] Richard E. Green,et al. Uncertainty in recharge estimation: impact on groundwater vulnerability assessments for the Pearl Harbor Basin, O'ahu, Hawai'i, U.S.A. , 1996 .
[45] Chong-yu Xu. Application of Water Balance Models to Different Climatic Regions in China for Water Resources Assessment , 1997 .
[46] Dan Rosbjerg,et al. Land-surface modelling in hydrological perspective – a review , 2006 .
[47] A. Ireson,et al. Comparison of varied complexity models simulating recharge at the field scale , 2014 .
[48] I. Simmers,et al. Groundwater recharge: an overview of processes and challenges , 2002 .
[49] William M. Alley,et al. On the Treatment of Evapotranspiration, Soil Moisture Accounting, and Aquifer Recharge in Monthly Water Balance Models , 1984 .
[50] Vijay P. Singh,et al. A Review on Monthly Water Balance Models for Water Resources Investigations , 1998 .
[51] C. Zheng,et al. Global change and the groundwater management challenge , 2015 .
[52] M. Schaap,et al. Can Basin‐Scale Recharge Be Estimated Reasonably with Water‐Balance Models? , 2005 .
[53] B. Scanlon,et al. Estimating Groundwater Recharge , 2010 .
[54] T. J. Hatton,et al. Estimating episodic recharge under different crop/pasture rotations in the Mallee region. Part 1. Experiments and model calibration , 1999 .
[55] Yangxiao Zhou,et al. A critical review of groundwater budget myth, safe yield and sustainability , 2009 .
[56] M. Schaap,et al. ROSETTA: a computer program for estimating soil hydraulic parameters with hierarchical pedotransfer functions , 2001 .
[57] George P. Petropoulos,et al. An Overview of the Use of the SimSphere Soil Vegetation Atmosphere Transfer (SVAT) Model for the Study of Land-Atmosphere Interactions , 2009, Sensors.
[58] Jeffrey G. Arnold,et al. Model Evaluation Guidelines for Systematic Quantification of Accuracy in Watershed Simulations , 2007 .
[59] M. Sophocleous,et al. Estimating groundwater recharge in the humid and semi-arid African regions: review , 2016, Geosciences Journal.
[60] R. Isbell. Australian Soil Classification , 1996 .
[61] Murari R. R. Varma,et al. Water balance modelling in a tropical watershed under deciduous forest (Mule Hole, India): Regolith matric storage buffers the groundwater recharge process , 2010 .
[62] K. Bradbury,et al. A simple daily soil–water balance model for estimating the spatial and temporal distribution of groundwater recharge in temperate humid areas , 2007 .
[63] Saltelli Andrea,et al. Global Sensitivity Analysis: The Primer , 2008 .
[64] Tammo S. Steenhuis,et al. A soil‐water‐balance approach to quantify groundwater recharge from irrigated cropland in the North China Plain , 2003 .
[65] R. Hunt,et al. SWB-A modified Thornthwaite-Mather Soil-Water-Balance code for estimating groundwater recharge , 2010 .
[66] T. McVicar,et al. Water balance modelling: concepts and applications. , 2002 .
[67] Vitaly A. Zlotnik,et al. Investigating soil controls on soil moisture spatial variability: Numerical simulations and field observations , 2015 .
[68] Daniel Hillel,et al. Groundwater recharge in arid regions: Review and critique of estimation methods , 1988 .