Response of mean annual evapotranspiration to vegetation changes at catchment scale L Zhang, WR Dawes, GR Walker Water resources research 37 (3), 701-708, 2001 | 3059 | 2001 |
A rational function approach for estimating mean annual evapotranspiration L Zhang, K Hickel, WR Dawes, FHS Chiew, AW Western, PR Briggs Water resources research 40 (2), 2004 | 1026 | 2004 |
Improving water use efficiency of irrigated crops in the North China Plain—measurements and modelling H Wang, L Zhang, WR Dawes, C Liu Agricultural water management 48 (2), 151-167, 2001 | 371 | 2001 |
Predicting the effect of vegetation changes on catchment average water balance L Zhang, GR Walker, W Dawes CRC for Catchment Hydrology 99, 12, 1999 | 341 | 1999 |
Long-term growth and water balance predictions for a mountain ash (Eucalyptus regnans) forest catchment subject to clear-felling and regeneration RA Vertessy, TJ Hatton, RG Benyon, WR Dawes Tree physiology 16 (1-2), 221-232, 1996 | 200 | 1996 |
An integrated energy and water balance model L Zhang, W Dawes CSIRO Land and Water Technical Report, 1998 | 152 | 1998 |
Impacts of climate change on groundwater in Australia: a sensitivity analysis of recharge JL McCallum, RS Crosbie, GR Walker, WR Dawes Hydrogeology Journal 18 (7), 1625, 2010 | 143 | 2010 |
Plantations, river flows and river salinity RA Vertessy, L Zhang, WR Dawes Australian Forestry 66 (1), 55-61, 2003 | 141 | 2003 |
Differences in future recharge estimates due to GCMs, downscaling methods and hydrological models RS Crosbie, WR Dawes, SP Charles, FS Mpelasoka, S Aryal, O Barron, ... Geophysical Research Letters 38 (11), 2011 | 124 | 2011 |
Potential climate change impacts on groundwater resources of south-western Australia R Ali, D McFarlane, S Varma, W Dawes, I Emelyanova, G Hodgson, ... Journal of Hydrology 475, 456-472, 2012 | 120 | 2012 |
Modelling hydrologic processes using a biophysically based model—application of WAVES to FIFE and HAPEX-MOBILHY L Zhang, WR Dawes, TJ Hatton Journal of Hydrology 185 (1-4), 147-169, 1996 | 114 | 1996 |
Growth and ground water uptake responses of lucerne to changes in groundwater levels and salinity: lysimeter, isotope and modelling studies L Zhang, WR Dawes, PG Slavich, WS Meyer, PJ Thorburn, DJ Smith, ... Agricultural Water Management 39 (2-3), 265-282, 1999 | 109 | 1999 |
Simulations of hydroecological responses to elevated CO2 at the catchment scale TJ Hatton, J Walker, WR Dawes, FX Dunin Australian Journal of Botany 40 (5), 679-696, 1992 | 102 | 1992 |
Water balance modelling: concepts and applications L Zhang, GR Walker, WR Dawes ACIAR Monograph Series 84, 31-47, 2002 | 101 | 2002 |
Predicting the effects of landuse change on water and salt balance—a case study of a catchment affected by dryland salinity in NSW, Australia NK Tuteja, G Beale, W Dawes, J Vaze, B Murphy, P Barnett, A Rancic, ... Journal of Hydrology 283 (1-4), 67-90, 2003 | 95 | 2003 |
The significance of topology for modeling the surface hydrology of fluvial landscapes WR Dawes, D Short Water Resources Research 30 (4), 1045-1055, 1994 | 95 | 1994 |
Estimation of soil moisture and groundwater recharge using the TOPOG_IRM model L Zhang, WR Dawes, TJ Hatton, PH Reece, GTH Beale, I Packer Water Resources Research 35 (1), 149-161, 1999 | 94 | 1999 |
Evaluation of a distributed parameter ecohydrological model (TOPOG_IRM) on a small cropping rotation catchment WR Dawes, L Zhang, TJ Hatton, PH Reece, GTH Beale, I Packer Journal of Hydrology 191 (1-4), 64-86, 1997 | 93 | 1997 |
Attributing variations of temporal and spatial groundwater recharge: A statistical analysis of climatic and non-climatic factors G Fu, RS Crosbie, O Barron, SP Charles, W Dawes, X Shi, T Van Niel, ... Journal of hydrology 568, 816-834, 2019 | 91 | 2019 |
Modelling the effects of climate and land cover change on groundwater recharge in south-west Western Australia W Dawes, R Ali, S Varma, I Emelyanova, G Hodgson, D McFarlane Hydrology and Earth System Sciences 16 (8), 2709-2722, 2012 | 85 | 2012 |