|
|
| |
|
| |
The results of our innovative thinking are frequently published
in scientific journals, revealing the cutting-edge nature of our
applied environmental research. If you would like a copy of one
of our articles, please contact
us with your information and details of the publication(s)
you would like to request. Due to copyright, downloads aren’t available.
|
| |
|
| |
|
| |
|
| |
|
|
Title |
|
Author(s) |
|
Publication |
| |
| |
LITIGATION |
|
|
|
|
|
|
| |
| |
|
|
Methods to Differentiate Between Groundwater Solute Sources |
|
A.Davis, J.Anderson, C.Byrns |
|
|
| |
| |
1992 |
|
Comparison of Analytical Methods Used to Determine Metal Concentrations
in Environmental Water Samples |
|
A.Davis, R.Olsen |
|
Journal of AOAC International |
| |
| |
1994 |
|
Soil Lead Mineralogy by Microprobe: An Interlaboratory Comparison |
|
T.Link, M.Ruby, A.Davis, A.Nicholson |
|
|
| |
| |
1997 |
|
Discriminating between Sources of Arsenic in the Sediments
of a Tidal Waterway, Tacoma, Washington |
|
A.Davis, P.de Cunou, L.Eary |
|
|
| |
| |
1998 |
|
Chapter 7: Discriminating Among Dioxin Sources in Receiving
Soils |
|
A.Davis, D.Sherwin, K.Hoenke |
|
Contaminated Soils, Vol 3 |
| |
| |
2000 |
|
Quantifying Metal Contributions from Multiple Sources to the
Clark Fork River, Montana, USA |
|
S.Helgen, A.Davis |
|
Journal of Environmental Forensics |
| |
| |
2001 |
|
Metal Distribution in Clark Fork River Sediments |
|
A.Davis, D.Atkins |
|
|
| |
| |
2001 |
|
An Analysis of Soil Arsenic Records of Decision |
|
A.Davis, D.Sherwin, R.Ditmars, K.Hoenke |
|
|
| |
| |
2003 |
|
Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA. Part I: Geochemical Fingerprinting and Source Delineation |
|
S. Helgen, A.Davis, A.Nicholson |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA. Part II: Geochemical Controls on Groundwater Quality Recovery |
|
A.Nicholson, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA. Part III: Quantifying Metal Releases from Multiple Sources |
|
C.Moomaw, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA: An Introduction and Synopsis of Findings |
|
A.Davis |
|
Environmental Forensics |
| |
| |
2004 |
|
Response to Comment on Nicholson et al. 2003. Elements Influencing
Cost Allocation in the Pinal Creek Aquifer, Arizona, USA. Part II: Geochemical
Controls on Groundwater Quality Recovery |
|
A.Nicholson, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2004 |
|
Commentary on Nicholson et al. 2003. Elements Influencing
Cost Allocation in the Pinal Creek Aquifer, Arizona, USA. Part II: Geochemical
Controls on Groundwater Quality Recovery |
|
M.Logsdon |
|
Environmental Forensics |
| |
| |
2005 |
|
Use of Geochemical Forensics to Determine Release Eras of
Petrochemicals to Groundwater, Whitehorse, Yukon |
|
A.Davis, B.Howe, A.Nicholson, S.McCaffery, K.Hoenke |
|
Environmental Forensics |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
| |
MINING INDUSTRY |
|
|
|
|
|
|
| |
| |
|
|
Integration of the LAK3
Package into MODFLOW-SURFACT to Simulate an Ephemeral Pit Lake, Northern
California |
|
M.Gabora, V.Bedekar, B.Linderfelt,
A.Davis |
|
|
| |
| |
1992 |
|
Comparison of Analytical
Methods Used to Determine Metal Concentrations in Environmental Water Samples |
|
A.Davis, R.Olsen |
|
Journal of AOAC International |
| |
| |
1993 |
|
Micromineralogy of Mine
Wastes in Relation to Lead Bioavailability, Butte, Montana |
|
A.Davis, J.Drexler, M.Ruby,
A.Nicholson |
|
|
| |
| |
1993 |
|
Development of an in Vitro Screening Test to Evaluate
the in Vivo Bioaccessibility of Ingested Mine-Waste Lead |
|
M.Ruby, A.Davis, T.Link,
R.Schoof, R.Chaney, G.Freeman, P.Bergstrom |
|
|
| |
| |
1994 |
|
Soil Lead Mineralogy by
Microprobe: An Interlaboratory Comparison |
|
T.Link, M.Ruby, A.Davis,
A.Nicholson |
|
|
| |
| |
1994 |
|
Predicting the Environmental
Stability of Treated Copper Smelter Flue Dust |
|
T.Doyle, A.Davis, D.Runnells |
|
Applied Geochemistry |
| |
| |
1994 |
|
Environmental Issues in
the Robinson Mining District, White Pine County, NV: A Comprehensive Assessment |
|
A.Davis, M.Bloom, H.Hempton,
A.Nicholson, C.Travers, J.Campbell, D.Atkins, J.Deen, T.Dyhr |
|
Randol at Vancouver |
| |
| |
1994 |
|
Groundwater Transport of
Arsenic and Chromium at a Historical Tannery, Woburn, Massachusetts, USA |
|
A.Davis, H.Kempton, A.Nicholson,
B.Yare |
|
Applied Geochemistry |
| |
| |
1996 |
|
Stabilization of Lead in
Acidic Mine Filtercake by Addition of Alkaline Tailings |
|
A.Davis, T.Link, K.Baugh,
R.Witham |
|
Journal of Environmental
Quality |
| |
| |
1996 |
|
Understanding the Water
Quality of Pit Lakes |
|
G.Miller, B.Lyons, A.Davis |
|
|
| |
| |
1996 |
|
Mass Balance on Surface-Bound,
Mineralogic, and Total Lead Concentrations as Related to Industrial Aggregate
Bioaccessibility |
|
A.Davis, M.Ruby, P.Goad,
S.Eberle, S.Chryssoulis |
|
|
| |
| |
1996 |
|
Mineralogic Constraints
on the Bioavailability of Arsenic in Smelter-Impacted Soils |
|
A.Davis, M.Ruby, M.Bloom,
R.Schoof, G.Freeman, P.Bergstrom |
|
|
| |
| |
1997 |
|
Pit Lake Water Quality in
the Western United States: An Analysis of Chemogenetic Trends |
|
A.Davis, L.Eary |
|
Mining Engineering |
| |
| |
1998 |
|
Predicting Life-of-Mine
Tailings Discharge Water Quality |
|
A.Davis, A.Tisdale, C.Byrns |
|
|
| |
| |
1998 |
|
Discriminating between Historical
Sources of Solutes in the Robinson Mining District, Ely, Nevada |
|
A.Davis, B.Newcomb, C.Byrns |
|
Tailings and Mine Waste
Conference, 1998 |
| |
| |
1998 |
|
Contribution of Landscape
Attributes in Determining Revegetation Potential: A Geographic Information
System Approach |
|
R.Kremer, J.Zack, A.Davis,
S.McLeod, C.Byrns |
|
Tailings & Mine Waste
Conference, 1998 |
| |
| |
1998 |
|
Modeling Pyrite Oxidation
in Arid Environments |
|
G.Fennemore, C.Neller, A.Davis |
|
|
| |
| |
1999 |
|
Assessing the Efficacy of
Lime Amendment to Geochemically Stabilize Mine Tailings |
|
A.Davis, L.Eary, S.Helgen |
|
|
| |
| |
2000 |
|
Discriminating Between Background
and Mine-Impacted Waters |
|
A.Davis, A.Tisdale, C.Byrns |
|
Proceedings from the 5th
International Conference on Acid Rock Drainage, Denver, CO |
| |
| |
2000 |
|
Quantifying Metal Contributions
from Multiple Sources to the Clark Fork River, Montana, USA |
|
S.Helgen, A.Davis |
|
Journal of Environmental
Forensics |
| |
| |
2001 |
|
Metal Distribution in Clark
Fork River Sediments |
|
A.Davis, D.Atkins |
|
|
| |
| |
2001 |
|
Discriminating Between Copper
and Silver Mill Tailings in Silver Bow Creek Overbank Deposits, Butte, Montana,
USA |
|
A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost
Allocation in the Pinal Creek Aquifer, Arizona, USA. Part I: Geochemical
Fingerprinting and Source Delineation |
|
S. Helgen, A.Davis, A.Nicholson |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost
Allocation in the Pinal Creek Aquifer, Arizona, USA. Part II: Geochemical
Controls on Groundwater Quality Recovery |
|
A.Nicholson, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost
Allocation in the Pinal Creek Aquifer, Arizona, USA. Part III: Quantifying
Metal Releases from Multiple Sources |
|
C.Moomaw, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2003 |
|
Elements Influencing Cost
Allocation in the Pinal Creek Aquifer, Arizona, USA: An Introduction and
Synopsis of Findings |
|
A.Davis |
|
Environmental Forensics |
| |
| |
2003 |
|
A Screening-Level Laboratory
Method to Estimate Pit Lake Chemistry |
|
A.Davis |
|
Mine Water and the Environment |
| |
| |
2003 |
|
The Comprehensive Realistic
Yearly Pit Transient Infilling Code (CRYPTIC): A Novel Pit Lake Analytical
Solution |
|
R.Fontaine, A.Davis, G.Fennemore |
|
Mine Water and the Environment |
| |
| |
2004 |
|
Response to Comment on Nicholson
et al. 2003. Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA. Part II: Geochemical Controls on Groundwater Quality Recovery |
|
A.Nicholson, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2004 |
|
Commentary on Nicholson
et al. 2003. Elements Influencing Cost Allocation in the Pinal Creek Aquifer,
Arizona, USA. Part II: Geochemical Controls on Groundwater Quality Recovery |
|
M.Logsdon |
|
Environmental Forensics |
| |
| |
2006 |
|
The Nexus between Groundwater
Modeling, Pit Lake Chemogenesis and Ecological Risk from Arsenic in the
Getchell Main Pit, Nevada, USA |
|
A.Davis, T.Bellehumeur,
B.Hanna, G.Fennemore, C.Moomaw, S.Schoen |
|
Chemical Geology |
| |
| |
2007 |
|
Apportioning Mining Waste
at a Superfund Site Using Four-Component Linear Mixing: Lower Area One,
Butte, Montana, USA |
|
S. Helgen, A.Davis, A.Nicholson |
|
Environmental Forensics |
| |
| |
2007 |
|
Geochemistry of an Acidic
Chromium Sulfate Plume |
|
L.Eary, A.Davis |
|
Applied Geochemistry |
| |
| |
2010 |
|
Discriminating between Background
and Mine-Impacted Groundwater at the Phoenix Mine, Nevada USA |
|
A.Davis, K.Heatwole, B.Greer,
R.Ditmars, R.Clarke |
|
Applied Geochemistry |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
| |
OIL
AND GAS |
|
|
|
|
|
|
| |
| |
|
|
Methods to Differentiate Between Groundwater Solute
Sources |
|
A.Davis, J.Anderson, C.Byrns |
|
|
| |
| |
1990 |
|
Predicting the Fate and Transport of Organic Compounds
in Groundwater, Part I |
|
R.Olsen, A.Davis |
|
HMC |
| |
| |
1994 |
|
Groundwater Transport of Arsenic and Chromium at a Historical
Tannery, Woburn, Massachusetts, USA |
|
A.Davis, H.Kempton, A.Nicholson, B.Yare |
|
Applied Geochemistry |
| |
| |
1998 |
|
Chapter 7: Discriminating Among Dioxin Sources in Receiving
Soils |
|
A.Davis, D.Sherwin, K.Hoenke |
|
Contaminated Soils, Vol 3 |
| |
| |
2001 |
|
A Rapid Screening-Level Method to Optimize Location
of Infiltration Ponds |
|
G.Fennemore, A.Davis, L.Goss, A.Warrick |
|
Ground Water |
| |
| |
2003 |
|
Degradation of Carbon Tertrachloride in a Reducing Groundwater
Environment: Implications for Natural Attenuation |
|
A.Davis, G.Fennemore, C.Peck, C.Walker, J.McIlwraith,
S.Thomas |
|
Applied Geochemistry |
| |
| |
2005 |
|
Use of Geochemical Forensics to Determine Release Eras
of Petrochemicals to Groundwater, Whitehorse, Yukon |
|
A.Davis, B.Howe, A.Nicholson, S.McCaffery, K.Hoenke
|
|
Environmental Forensics |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
| |
WATER
MANAGEMENT |
|
|
|
|
|
|
| |
| |
|
|
Methods to Differentiate Between Groundwater Solute
Sources |
|
A.Davis, J.Anderson, C.Byrns |
|
|
| |
| |
2001 |
|
Estimating Recharge Distribution by Incorporating Runoff
from Mountainous Areas in an Alluvial Basin in the Great Basin Region
of the Southwestern US |
|
D.Stone, C.Moomaw, A.Davis |
|
Ground Water |
| |
| |
2001 |
|
A Rapid Screening-Level Method to Optimize Location
of Infiltration Ponds |
|
G.Fennemore, A.Davis, L.Goss, A.Warrick |
|
Ground Water |
| |
| |
2004 |
|
Response to Comment on Nicholson et al. 2003. Elements
Influencing Cost Allocation in the Pinal Creek Aquifer, Arizona, USA.
Part II: Geochemical Controls on Groundwater Quality Recovery |
|
A.Nicholson, A.Davis, S.Helgen |
|
Environmental Forensics |
| |
| |
2004 |
|
Commentary on Nicholson et al. 2003. Elements Influencing
Cost Allocation in the Pinal Creek Aquifer, Arizona, USA. Part II:
Geochemical Controls on Groundwater Quality Recovery |
|
M.Logsdon |
|
Environmental Forensics |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
| |
RISK
ASSESSMENT |
|
|
|
|
|
|
| |
| |
1993 |
|
Development of an in Vitro Screening Test to Evaluate
the in Vivo Bioaccessibility of Ingested Mine-Waste Lead |
|
M.Ruby, A.Davis, T.Link, R.Schoof, R.Chaney, G.Freeman,
P.Bergstrom |
|
ES&T |
| |
| |
1996 |
|
Bioaccumulation of Arsenic, Chromium, and Lead in Fish:
Constraints Imposed by Sediment Geochemistry |
|
A.Davis, C.Sellstone, S.Clough, R.Barrick, B.Yare |
|
Applied Geochemistry |
| |
| |
1996 |
|
Mass Balance on Surface-Bound, Mineralogic, and Total
Lead Concentrations as Related to Industrial Aggregate Bioaccessibility
|
|
A.Davis, M.Ruby, P.Goad, S.Eberle, S.Chryssoulis |
|
ES&T |
| |
| |
1996 |
|
Mineralogic Constraints on the Bioavailability of Arsenic
in Smelter-Impacted Soils |
|
A.Davis, M.Ruby, M.Bloom, R.Schoof, G.Freeman, P.Bergstrom
|
|
ES&T |
| |
| |
1997 |
|
The Environmental Geochemistry and Bioaccessibility
of Mercury in Soils and Sediments: A Review |
|
A.Davis, N.Bloom, S.Que Hee |
|
Risk Analysis |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
| |
REMEDIATION |
|
|
|
|
|
|
| |
| |
|
|
Expedited Completion of
Superfund Site Remediation through an Innovative Collaboration with EPA |
|
K.Hoenke, J.Wyatt, A.Godfrey,
D.Williamson, A.Davis |
|
|
| |
| |
|
|
Methods to Differentiate
Between Groundwater Solute Sources |
|
A.Davis, J.Anderson, C.Byrns |
|
|
| |
| |
1990 |
|
Predicting the Fate and
Transport of Organic Compounds in Groundwater, Part I |
|
R.Olsen, A.Davis |
|
HMC |
| |
| |
1994 |
|
Groundwater Transport of
Arsenic and Chromium at a Historical Tannery, Woburn, Massachusetts, USA |
|
A.Davis, H.Kempton, A.Nicholson,
B.Yare |
|
Applied Geochemistry |
| |
| |
1994 |
|
Attenuation and Biodegradation
of Chlorophenols in Ground Water at a Former Wood Treating Facility |
|
A.Davis, J.Campbell, C.Gilbert,
M.Ruby, M.Bennett, S.Tobin |
|
Ground Water |
| |
| |
1994 |
|
In Situ Formation of Lead
Phosphates in Soils as a Method to Immobilize Lead |
|
M.Ruby, A.Davis, A.Nicholson |
|
|
| |
| |
1996 |
|
Remediation, Chapter 1:
A Novel Approach to Minimize Remedial Soil Volumes Using Geostatistical
and Linear Optimization Algorithms |
|
K.Hoenke, A.Davis, M.Keating,
J.Wyatt |
|
Hydrocarbon Contaminated Soils, vol.6 |
| |
| |
1997 |
|
A Risk-Based Approach to
Soil Remediation Modeling |
|
A.Davis, S.Kamp, G.Fennemore,
R.Schmidt, M.Keating, K.Hoenke, J.Wyatt |
|
|
| |
| |
1998 |
|
Chapter 7: Discriminating
Among Dioxin Sources in Receiving Soils |
|
A.Davis, D.Sherwin, K.Hoenke |
|
Contaminated Soils, Vol
3 |
| |
| |
2001 |
|
An Analysis of Soil Arsenic
Records of Decision |
|
A.Davis, D.Sherwin, R.Ditmars,
K.Hoenke |
|
|
| |
| |
2002 |
|
Chapter 7: Innovative Strategies
in Remediating Mining Wastes |
|
A.Davis, C.Moomaw, G.Fennemore,
R.Buffington |
|
Handbook of Complex Environmental
Remediation Problems |
| |
| |
2003 |
|
Degradation of Carbon Tertrachloride
in a Reducing Groundwater Environment: Implications for Natural Attenuation |
|
A.Davis, G.Fennemore, C.Peck,
C.Walker, J.McIlwraith, S.Thomas |
|
Applied Geochemistry |
| |
| |
|
|
Return
to Top |
|
|
|
|
| |
|
|
|
