Land application of domestic effluent onto four soil types: Plant uptake and nutrient leaching L Barton, LA Schipper, GF Barkle, M McLeod, TW Speir, MD Taylor, ... Journal of environmental quality 34 (2), 635-643, 2005 | 155 | 2005 |
Comparison of three multiobjective optimization algorithms for inverse modeling of vadose zone hydraulic properties T Wöhling, JA Vrugt, GF Barkle Soil Science Society of America Journal 72 (2), 305-319, 2008 | 148 | 2008 |
Maximum rates of nitrate removal in a denitrification wall LA Schipper, GF Barkle, M Vojvodic‐Vukovic Journal of environmental quality 34 (4), 1270-1276, 2005 | 145 | 2005 |
Hydraulic constraints on the performance of a groundwater denitrification wall for nitrate removal from shallow groundwater LA Schipper, GF Barkle, JC Hadfield, M Vojvodic-Vukovic, CP Burgess Journal of Contaminant Hydrology 69 (3-4), 263-279, 2004 | 132 | 2004 |
Multiobjective inverse modeling for soil parameter estimation and model verification J Mertens, R Stenger, GF Barkle Vadose Zone Journal 5 (3), 917-933, 2006 | 83 | 2006 |
A tool for simulating nitrogen and carbon dynamics in the soil-plant atmosphere system R Stenger, E Priesack, G Barkle, G Sperr Proceedings of the technical session 20, 19-28, 1999 | 65 | 1999 |
Effect of regular irrigation with dairy farm effluent on soil organic matter and soil microbial biomass GF Barkle, R Stenger, PL Singleton, DJ Painter Soil Research 38 (6), 1087-1097, 2000 | 61 | 2000 |
Low nitrate contamination of shallow groundwater in spite of intensive dairying: the effect of reducing conditions in the vadose zone—aquifer continuum R Stenger, G Barkle, C Burgess, A Wall, J Clague Journal of Hydrology (New Zealand), 1-24, 2008 | 60 | 2008 |
Nitrate removal and secondary effects of a woodchip bioreactor for the treatment of subsurface drainage with dynamic flows under pastoral agriculture A Rivas, G Barkle, R Stenger, B Moorhead, J Clague Ecological engineering 148, 105786, 2020 | 54 | 2020 |
Denitrification capacity in the vadose zone at three sites in the Lake Taupo catchment, New Zealand G Barkle, T Clough, R Stenger Soil Research 45 (2), 91-99, 2007 | 41 | 2007 |
Nitrogen leaching from soil lysimeters irrigated with dairy shed effluent and having managed drainage PL Singleton, CDA McLay, GF Barkle Soil Research 39 (2), 385-396, 2001 | 39 | 2001 |
Automated equilibrium tension lysimeters for measuring water fluxes through a layered, volcanic vadose profile in New Zealand GF Barkle, T Wöhling, R Stenger, J Mertens, B Moorhead, A Wall, ... Vadose Zone Journal 10 (2), 747-759, 2011 | 34 | 2011 |
Mineralization and immobilization of C and N from dairy farm effluent (DFE) and glucose plus ammonium chloride solution in three grassland topsoils R Stenger, GF Barkle, CP Burgess Soil Biology and Biochemistry 33 (7-8), 1037-1048, 2001 | 34 | 2001 |
Three‐dimensional modeling of multiple automated equilibrium tension lysimeters to measure vadose zone fluxes T Wöhling, N Schütze, B Heinrich, J Šimůnek, GF Barkle Vadose Zone Journal 8 (4), 1051-1063, 2009 | 27 | 2009 |
Dynamic analysis of groundwater discharge and partial-area contribution to Pukemanga Stream, New Zealand VJ Bidwell, R Stenger, GF Barkle Hydrology and Earth System Sciences 12 (4), 975-987, 2008 | 26 | 2008 |
Numerical analysis to investigate the effects of the design and installation of equilibrium tension plate lysimeters on leachate volume J Mertens, GF Barkle, R Stenger Vadose Zone Journal 4 (3), 488-499, 2005 | 25 | 2005 |
Mineralisation of organic matter in intact versus sieved/refilled soil cores R Stenger, GF Barkle, CP Burgess Soil Research 40 (1), 149-160, 2002 | 25 | 2002 |
Immobilisation and mineralisation of carbon and nitrogen from dairy farm effluent during laboratory soil incubations GF Barkle, R Stenger, GP Sparling, DJ Painter Soil Research 39 (6), 1407-1417, 2001 | 23 | 2001 |
Dual-tracer, non-equilibrium mixing cell modelling and uncertainty analysis for unsaturated bromide and chloride transport T Wöhling, VJ Bidwell, GF Barkle Journal of contaminant hydrology 140, 150-163, 2012 | 22 | 2012 |
In situ mixing of organic matter decreases hydraulic conductivity of denitrification walls in sand aquifers GF Barkle, LA Schipper, CP Burgess, BDM Painter Groundwater Monitoring & Remediation 28 (1), 57-64, 2008 | 21 | 2008 |