Loague, Keith - Department of Geological and Environmental Sciences, Stanford University

• HYDROLOGICAL PROCESSES Hydrol. Process. 16, 10151032 (2002)
• Hydrogeology Journal (2000) 8 : 594607 DOI 10.1007/s100400000095 Legacies from three former manufactured-gas plants
• HYDROLOGICAL PROCESSES Hydrol. Process. 24, 24992505 (2010)
• NEAR-SURFACE HYDROLOGIC RESPONSE FOR A STEEP, UNCHANNELED CATCHMENT NEAR COOS BAY, OREGON: 2.
• HYDROLOGICAL PROCESSES Hydrol. Process. 23, 10931103 (2009)
• Development and testing of a compartmentalized reaction network model for redox zones in contaminated aquifers
• NEAR-SURFACE HYDROLOGIC RESPONSE FOR A STEEP, UNCHANNELED CATCHMENT NEAR COOS BAY, OREGON: 1.
• Regional-scale assessment of non-point source groundwater contamination
• Corwin, D.L. and K. Loague (Editors). 1996. Applications of GIS to the Modeling of Non-Point Source Pollutants in the Vadose Zone. Special Publication 48, 319 pages, Soil Science Society of America, Madison,
• HYDROLOGICAL PROCESSES Hydrol. Process. 19, 13731398 (2005)
• Hydrologically Driven Slope Failure Initiation in Variably Saturated Porous Media
• Concentration-discharge relationships in runoff from a steep, unchanneled catchment
• Environmental Toxicology and Chemistry, Vol. 20, No. 9, pp. 19581967, 2001 Printed in the USA
• Old beer cans do not make good infiltrometers! Herman Bouwer (1986) Loague, K. and G.A. Gander. 1990. R-5 revisited: 1. Spatial variability of infiltration on a small rangeland
• Benchmark Papers in Hydrology ISSN 1993-4572 RAINFALLRUNOFF
• ECOHYDROLOGY Ecohydrol. 1, 408424 (2008)
• ORIGINAL ARTICLE Using simulated hydrologic response to revisit the 1973 Lerida
• Contaminant ELSEVIER Journal of Contaminant Hydrology 29 (1998) 109-136
• WATERRESOURCESRESEARCH,VOL.24,NO. 9, PAGES150I-!510,SEPTEMBER1988 Impactof RainfallandSoilHydraulicPropertyInformation
• Subsurface flow paths in a steep, unchanneled catchment Suzanne Prestrud Anderson,1 William E. Dietrich,2 David R. Montgomery,3
• HYDROLOGICAL PROCESSES INVITED COMMENTARY
• Physics-based continuous simulation of long-term near-surface hydrologic response for the Coos Bay experimental catchment
• NEAR-SURFACE HYDROLOGIC RESPONSE FOR A STEEP, UNCHANNELED CATCHMENT NEAR COOS BAY, OREGON
• A compartmentalized solute transport model for redox zones in contaminated aquifers
• WATER RESOURCES RESEARCH, VOL. 33, NO. 12, PAGES 2883-2895, DECEMBER 1997 Spatial and temporal variability in the R-5 infiltration data set
• A compartmentalized solute transport model for redox zones in contaminated aquifers
• HYDROLOGICAL PROCESSES Hydrol. Process. 22, 464471 (2008)
• Comments on "Mapping Pesticide Contamination Potential" by M. Akram Khan and Tung Liang
• International Ground Water Modeling Center http://www.mines.edu/igwmc/ igwmc@mines.edu Tel: (303) 273-3103 Fax: (303) 384-2037 page 1 International Ground Water Modeling Center
• WATER RESOURCES RESEARCH, VOL. 21, NO. 2, PAGES 229-248, FEBRUARY 1985 A Comparisonof Rainfall-Runoff Modeling Techniques
• HYDROLOGICAL PROCESSES Hydrol. Process. 21, 15221531 (2007)
• HYDROLOGICAL PROCESSES Hydrol. Process. 23, 19491959 (2009)
• Not all water becomes wine: Sulfur inputs as an opportune tracer of hydrochemical
• Recently there have been several calls to establish long-term data collection networks to monitor near-surface hydrologic
• 126 B. B. Mirus et al. Copyright 2006 John Wiley & Sons, Ltd. Earth Surf. Process. Landforms 32, 126142 (2007)
• Long-term InHM simulations of hydrologic response and sediment transport 1273 Copyright 2007 John Wiley & Sons, Ltd. Earth Surf. Process. Landforms 32, 12731292 (2007)
• HYDROLOGICAL PROCESSES Hydrol. Process. 21, 30093024 (2007)
• Desperately Seeking a Cause for Hotspots in Regional-Scale Groundwater Plumes Resulting from Non-Point Source Pesticide Applications
• HYDROLOGICAL PROCESSES Hydrol. Process. 20, 28872900 (2006)
• Adding sediment transport to the integrated hydrology model (InHM): Development and testing
• Near-surface hydrologic response and slope stability 325 Copyright 2005 John Wiley & Sons, Ltd. Earth Surf. Process. Landforms 30, 325338 (2005)
• MODELING NON-POINT SOURCE POLLUTANTS IN THE VADOSE ZONE
• GROUNDWATER VULNERABILITY TO PESTICIDES: AN OVERVIEW OF APPROACHES
• 94: Point and NonPoint Source Pollution KEITH LOAGUE1
• HYDROLOGICAL PROCESSES Hydrol. Process. 19, 15291548 (2005)
• HYDROLOGICAL PROCESSES INVITED COMMENTARY
• ReproducedfromJournalofEnvironmentalQuality.PublishedbyASA,CSSA,andSSSA.Allcopyrightsreserved. Assessing Ground Water Vulnerability with the Type Transfer Function
• Development of type transfer functions for regional-scale nonpoint source groundwater vulnerability assessments
• HYDROLOGICAL PROCESSES Hydrol. Process. 15, 27152728 (2001)
• An Interdisciplinary Assessment of Regional-Scale Nonpoint Source Ground-Water
• Hydrologic-response simulations for the R-5 catchment with a comprehensive physics-based model
• Z .Journal of Contaminant Hydrology 36 1999 130 An assessment of agrochemical leaching potentials
• Contaminant ELSEVIER Journal of Contaminant Hydrology 29 (1998) 137-163
• WATER RESOURCES RESEARCH, VOL. 33, NO. 1, PAGES 91-109, JANUARY 1997 Hydrologicresponseofa steep,unchanneledvalley
• Contaminant ELSEVIER Journal of Contaminant Hydrology 23 (1996) 85-112
• Wellhead Treatment Costs for Groundwater Contaminated with Pesticides: A Preliminary Analysis
• WATER RESOURCES RESEARCH, VOL. 28, NO. 6, PAGES 1741-1744, JUNE 1992 Comment on "Terrain-Based Catchment Partitioning and Runoff