File list
This special page shows all uploaded files.
| Date | Name | Thumbnail | Size | User | Description | Versions |
|---|---|---|---|---|---|---|
| 10:05, 24 April 2020 | Walsh-2017-High-Order-Detonation-Residues-Particle-Distribution-PEP.pdf (file) |  |
1.94 MB | Debra Tabron | Walsh, M.R., Temple, T., Bigl, M.F., Tshabalala, S.F., Mai, N., and Ladyman, M., 2017. Investigation of Energetic Particle Distribution from High-Order Detonations of Munitions. Propellants, Explosive, Pyrotechnics, 42(8), pp. 932-941. | 1 |
| 13:25, 20 April 2020 | USEPA-1999 Use of MNA at Superfund, RCRA and UST sites.pdf (file) | |
244 KB | Debra Tabron | US Environmental Protection Agency (USEPA), 1999. Use of monitored natural attenuation at superfund, RCRA corrective action, and underground storage tank sites. | 1 |
| 14:42, 8 April 2020 | IARC-1982 Monographs Volume 29.pdf (file) | |
19.42 MB | Debra Tabron | International Agency for Research on Cancer (IARC), 1982. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Some Industrial Chemicals and Dyestuffs, Volume 29. World Health Organization, Lyon, France | 1 |
| 14:25, 8 April 2020 | Zemo-2013 Toxicity of Polar Metabolites.pdf (file) | |
705 KB | Debra Tabron | Zemo, D.A., O'Reilly, K.T., Mohler, R.E., Tiwary, A.K., Magaw, R.I., Synowiec, K.A., 2013. Nature and Estimated Human Toxicity of Polar Metabolite Mixtures in Groundwater Quantified as TPHd/DRO at Biodegrading Fuel Release Sites. Groundwater Monitoring... | 1 |
| 14:21, 8 April 2020 | Williams-2006 Fate and transport of PHCs.pdf (file) | |
2.33 MB | Debra Tabron | Williams, S.D., Ladd, D.E., and Farmer, J.J., 2006. Fate and transport of petroleum hydrocarbons in soil and ground water at Big South Fork National River and Recreation Area, Tennessee and Kentucky, 2002-2003. U.S. Geological Survey Scientific Investi... | 1 |
| 14:17, 8 April 2020 | Weisman-1998 TPH Criteria Working Group Series Vol1 .pdf (file) | |
733 KB | Debra Tabron | Weisman, W., 1998. Analysis of Petroleum Hydrocarbons in Environmental Media, Total Petroleum Hydrocarbon Criteria Working Group Series, v.1. Amherst Scientific Publishers, Amherst, Mass. | 1 |
| 14:15, 8 April 2020 | USEPA-2014 Priority Pollutant List.pdf (file) | |
46 KB | Debra Tabron | US Environmental Protection Agency (USEPA), 2014. Priority Pollutant List. | 1 |
| 14:14, 8 April 2020 | USEPA-2005 Toxicological Review of Toluene.pdf (file) | |
1.79 MB | Debra Tabron | US Environmental Protection Agency (USEPA), 2005. Toxicological Review of Toluene, In Support of Summary Information on the Integrated Risk Information System (IRIS), U.S. Environmental Protection Agency, September. | 1 |
| 14:14, 8 April 2020 | USEPA-2003 Toxicological Review of Xylenes.pdf (file) | |
669 KB | Debra Tabron | US Environmental Protection Agency (USEPA), 2003. Toxicological Review of Xylenes, In Support of Summary Information on the Integrated Risk Information System (IRIS), EPA 635/R-03/001 | 1 |
| 14:12, 8 April 2020 | USEPA-1996 Soil screening guidance.pdf (file) | |
1.5 MB | Debra Tabron | US Environ¬mental Protection Agency (USEPA), 1996. Soil screening guidance: User’s guide. Office of Solid Waste and Emer¬gency Response, Washington, D.C., Publication 9355.4-23. | 1 |
| 14:11, 8 April 2020 | Sale-2018 LNAPL FAQs 2nd ed.pdf (file) | |
7.59 MB | Debra Tabron | Sale, T., Hopkins, H., and Kirkman, A., 2018. Managing Risk at LNAPL Sites: Frequently Asked Questions, 2nd ed. American Petroleum Institute, Soil and Groundwater Research Bulletin No. 18. 72p | 1 |
| 14:05, 8 April 2020 | Parsons-1999 Methyl tert-Butyl Ether (MTBE) movement-and-fate.pdf (file) | |
699 KB | Debra Tabron | Parsons Engineering Science, Inc, 1999. Final, Methyl tert-Butyl Ether (MTBE), Its Movement and Fate in the Environment and Potential for Natural Attenuation, Technical Summary Report. | 1 |
| 13:58, 8 April 2020 | NSTC-1997 Interagency Assessment of Oxygenated Fuels.pdf (file) | |
3.35 MB | Debra Tabron | National Science and Technology Council (NSTC), 1997. Interagency Assessment of Oxygenated Fuels. Committee on Environment and Natural Resources | 1 |
| 13:51, 8 April 2020 | NTP2016 15 carcinogenic PAHs.pdf (file) | |
256 KB | Debra Tabron | National Toxicology Program (NTP), 2016. Polycyclic Aromatic Hydrocarbons: 15 Listings, Fourteenth Report on Carcinogens. U.S. Department of Health and Human Services, Research Triangle Park, NC | 1 |
| 13:37, 8 April 2020 | Ng 2015-Reactive Transport Modeling.pdf (file) | |
3.71 MB | Debra Tabron | Ng, G.-H.C., Bekins, B.A., Cozzarelli, I.M., Baedecker, M.J., Bennett, P.C., Amos, R.T., Herkelrath, W.N., 2015. Reactive transport modeling of geochemical controls on secondary water quality impacts at a crude oil spill site near Bemidji, MN. Water Re... | 1 |
| 13:33, 8 April 2020 | NAVFAC-2017 New Developments In LNAPL Site Management.pdf (file) | |
2.78 MB | Debra Tabron | Naval Facilities Engineering Command (NAVFAC), 2017. Environmental Restoration - New Developments in LNAPL Site Management. ESAT N62583-11-D-0515. | 1 |
| 13:27, 8 April 2020 | MassDEP-2002 VPH-EPH.pdf (file) | |
461 KB | Debra Tabron | Massachusetts Department of Environmental Protection (MassDEP), 2002. Characterizing Risks Posed by Petroleum Contaminated Sites: Implementation of the MADEP VPH/EPH Approach. Commonwealth of Massachusetts Executive Office of Environmental Affairs | 1 |
| 08:27, 8 April 2020 | LALNAPL-2015 FinalReportb.pdf (file) | |
3.78 MB | Debra Tabron | Los Angeles LNAPL Workgroup, 2015. Final Report for the LA Basin LNAPL Recoverability Study. Western States Petroleum Association, Torrance, CA | 1 |
| 08:23, 8 April 2020 | Kennedy-2000 AMIBA protocol.pdf (file) | |
9.52 MB | Debra Tabron | Kennedy, L., Everett, J., and Gonzales, J., 2000. Aqueous and mineral intrinsic bioremediation assessment (AMIBA) protocol. Air Force Center for Environmental Excellence, Technology Transfer Division, Brooks Air Force Base, Texas | 1 |
| 08:21, 8 April 2020 | ITRC-2009b Evaluating NSDZ at Sites with LNAPL.pdf (file) | |
1.32 MB | Debra Tabron | Interstate Technology and Regulatory Council (ITRC), 2009b. Evaluating Natural Source Zone Depletion at Sites with LNAPL. LNAPL-1. Interstate Technology and Regulatory Council, LNAPLs Team, Washington, DC. | 1 |
| 08:15, 8 April 2020 | ITRC-2009a Evaluating LNAPL Rem Tech.pdf (file) | |
1.98 MB | Debra Tabron | Interstate Technology and Regulatory Council (ITRC), 2009a. Evaluating LNAPL Remedial Technologies for Achieving Project Goals. LNAPL-2. Interstate Technology and Regulatory Council, LNAPLs Team, Washington, DC. | 1 |
| 08:14, 8 April 2020 | ITRC-2005 Overview of GW Remed for MTBE and TBA.pdf (file) | |
2.37 MB | Debra Tabron | Interstate Technology and Regulatory Council (ITRC), 2005. Overview of Groundwater Remediation Technologies for MTBE and TBA. MTBE-1. Interstate Technology & Regulatory Council, MTBE and Other Fuel Oxygenates Team, Washington, DC. | 1 |
| 08:12, 8 April 2020 | IARC-2000 Monographs Volume 77.pdf (file) | |
1.96 MB | Debra Tabron | International Agency for Research on Cancer (IARC), 2000. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Volume 77. Some Industrial Chemicals. World Health Organization, Lyon, France. | 1 |
| 08:02, 8 April 2020 | IARC-1999 Monographs Volume 71.pdf (file) | |
4.93 MB | Debra Tabron | 1 | |
| 12:46, 7 April 2020 | Bekins et al-2016-Groundwater at two spill sites.pdf (file) | |
646 KB | Debra Tabron | 2016. Crude Oil Metabolites in Groundwater at Two Spill Sites. Groundwater 54(5), pp..681-691. | 1 |
| 11:57, 7 April 2020 | ATSDR-1995 Public Health Statement for PAHs.pdf (file) | |
124 KB | Debra Tabron | Agency for Toxic Substance and Disease Registry (ATSDR), 1995. Public Health Statement for Polycyclic Aromatic Hydrocarbons (PAHs). US Department of Health and Human Services. | 1 |
| 11:54, 7 April 2020 | Adamson and Newell 2014 ER-201211.pdf (file) | |
13.52 MB | Debra Tabron | Adamson, D.A., and Newell, C.J., 2014. Frequently Asked Questions about Monitored Natural Attenuation in Groundwater. Environmental Security Technology Certification Program (ESTCP), | 1 |
| 11:49, 1 April 2020 | Yuncu1w2Fig6.png (file) |  |
202 KB | Debra Tabron | Figure 6. Limit of Migration of Dissolved Hydrocarbon Plumes (Newell and Connor 1998). | 1 |
| 11:48, 1 April 2020 | Yuncu1w2Fig5.png (file) |  |
367 KB | Debra Tabron | Figure 5 - Free Product Collecting in the Basin of an Underground Storage Tank | 1 |
| 11:46, 1 April 2020 | Yuncu1w2Fig4.png (file) |  |
224 KB | Debra Tabron | Figure 4 - TPH Fractions of TCEQ Method 1006. Adapted from Rhodes (2006) | 1 |
| 11:44, 1 April 2020 | Yuncu1w2Fig3.png (file) |  |
170 KB | Debra Tabron | Figure 3 - Fractional Distillation of Crude Oil in Fractionating Column | 1 |
| 11:43, 1 April 2020 | Yuncu1w2Fig2.png (file) |  |
510 KB | Debra Tabron | figure 2 - diesel fuel | 1 |
| 18:19, 27 March 2020 | WH Picture24.jpg (file) |  |
86 KB | Jhurley | 2 | |
| 18:08, 27 March 2020 | WH Picture23.jpg (file) |  |
68 KB | Jhurley | 2 | |
| 15:17, 23 March 2020 | Lotufo1w2Fig13.png (file) |  |
1.11 MB | Debra Tabron | figure 13. POCIS sampler with weighted anchor system adjacent to the base of a 500 pound "old style" general purpose bomb | 1 |
| 15:16, 23 March 2020 | Lotufo1w2Fig12.png (file) |  |
721 KB | Debra Tabron | figure 12. Stations (15 in total) in Bahia Salina del sur where POCIS were deployed. | 1 |
| 15:14, 23 March 2020 | Lotufo1w2Fig11.png (file) |  |
775 KB | Debra Tabron | Figure 11. Biofouling did not affect POCIS uptake of TNT or RDX (Rosen et al. 2018) | 1 |
| 15:13, 23 March 2020 | Lotufo1w2Fig10.png (file) |  |
130 KB | Debra Tabron | Figure 10. POCIS-determined MC concentrations from the controlled field demonstration | 1 |
| 15:12, 23 March 2020 | Lotufo1w2Fig9.png (file) |  |
347 KB | Debra Tabron | Figure 9. Location of POCIS surrounding Composition B source during controlled field demonstration | 1 |
| 15:10, 23 March 2020 | Lotufo1w2Fig8.png (file) |  |
911 KB | Debra Tabron | Figure 8. 15g of Composition B (left) placed in mesh bag (right) as used in the controlled field demonstration | 1 |
| 15:09, 23 March 2020 | Lotufo1w2Fig7.png (file) |  |
905 KB | Debra Tabron | Figure 7. Controlled field demonstration site, Santa Rosa Sound, Florida. | 1 |
| 15:08, 23 March 2020 | Lotufo1w2Fig6.png (file) |  |
691 KB | Debra Tabron | Figure 6. Experimental determination of MC release rate from a perforated munition in a large flume | 1 |
| 15:06, 23 March 2020 | Lotufo1w2Fig5.png (file) |  |
1.11 MB | Debra Tabron | Figure 5. Flume setup for optimization of POCIS and determination of MC sampling rates | 1 |
| 15:04, 23 March 2020 | Lotufo1w2Fig4.png (file) |  |
501 KB | Debra Tabron | Figure 4. Sample holder (left)( and protective canister for multiple POCIS (right, both supplied by EST) | 1 |
| 15:00, 23 March 2020 | Lotufo1w2Fig3.png (file) |  |
119 KB | Debra Tabron | Fiugre 3. The structure of a POCIS where stainless steel encompasses the PES membranes and the adsorbent in the middle (from Morin et al. 2012 and Seethapathy et al. 2008) | 1 |
| 14:58, 23 March 2020 | Lotufo1w2Fig2.png (file) |  |
238 KB | Debra Tabron | Figure 2. Conceptual diagram of MC releases from a breached underwater UXO | 1 |
| 14:57, 23 March 2020 | Lotufo1w2Fig1.png (file) |  |
659 KB | Debra Tabron | Figure 1. Underwater munitions are derived from UXO and histrocial disposal practices. | 1 |
| 15:01, 19 March 2020 | 2016-Belden-Optimization of Integrative Passive Sampling Approaches-ER-2542.pdf (file) | |
1.08 MB | Debra Tabron | Belden J.B., Sims P., Rosen R., George R., Lotufo G.R., 2016. Optimization of Integrative Passive Sampling Approaches for Use in the Epibenthic Environment. Final Report. SERDP Project ER-2542 | 1 |
| 14:55, 19 March 2020 | 2015-Miege-Position Paper on Passive Sampling Techniques.pdf (file) | |
1.27 MB | Debra Tabron | Position paper on passive sampling techniques for the monitoring of contaminants in the aquatic environment - Achievements to date and perspectives. Trends in Environmental Analytical Chemistry, 8, pp.20-26 | 1 |
| 14:44, 19 March 2020 | 2016-Roll-Critical Review of Factors Governing Data Quality.pdf (file) | |
833 KB | Debra Tabron | Critical review of factors governing data quality of integrative samplers employed in environmental water monitoring. Water Research, 94, pp.200-207. DOI:10.1016/j.watres.2016.02.048 | 1 |
