 | File:Bekins1w2 Fig4.PNG ...>1,000 µg/L, Fe<0.5 mg/L; and (5) Sub-oxic – DO 100-1,000 µg/L, Fe 0.5-1.0 mg/L.
(1,213 × 335 (100 KB)) - 17:54, 13 June 2019 |
 | File:Bekins1w2 Fig5.jpg ...August 2016. Well locations and oil spill source location shown in Figure 1 of this article. Figure reprinted from McGuire, et al., 2018.
(716 × 518 (39 KB)) - 17:56, 13 June 2019 |
...ation rates and growth of Dehalococcoides spp. Bioresource Technology, 103(1), pp.286-292. [https://doi.org/10.1016/j.biortech.2011.09.119 doi: 10.1016/
...Electron shuttle-mediated biotransformation of hexahydro-1, 3, 5-trinitro-1, 3, 5-triazine adsorbed to granular activated carbon. Environmental science
17 KB (2,333 words) - 02:09, 28 April 2022
 | File:Bekins1w2 Fig1.jpg Figure 1. Map of the site located near Bemidji, MN, showing oil pipelines, location
(947 × 731 (124 KB)) - 17:44, 13 June 2019 |
...rSample_FINAL_%281%29.mp4 | [[Media: ER-201505CollectingSewerSample_FINAL_(1).mp4 | Figure 3. Sewer Vapor Sample Collection Video]]]] Not all sites are
...the line, or correcting plumbing defects. Examples are provided in Table 1.
17 KB (2,459 words) - 21:48, 26 April 2022
[[wikipedia: 1,4-Dioxane | 1,4-Dioxane]] (14D) is a heterocyclic synthetic organic chemical that contain
*[[Biodegradation - 1,4-Dioxane]]
41 KB (5,780 words) - 02:45, 28 April 2022
...28(3), pp.856-890. [https://doi.org/10.1577/M06-169.1 doi: 10.1577/M06-169.1]</ref>
...(6), pp.1926-1931. [https://doi.org/10.1890/10-1574.1 doi: 10.1890/10-1574.1]</ref>. Instead, watershed-scale approaches focusing on improving land mana
31 KB (4,259 words) - 02:17, 28 April 2022
[[File:Bekins1w2 Fig1.jpg|thumb|600 px|left|Figure 1. Map of the site located near Bemidji, MN, showing oil pipelines, location
...n a high-pressure pipeline ruptured along a seam, spilling 10,700 barrels (1.7 million liters) of
38 KB (5,623 words) - 02:00, 2 May 2022
 | File:Barker1w2 Fig1.png Figure 1. Simplified schematic of shooting ranges with berm-style backstops that typ
(1,366 × 462 (57 KB)) - 13:11, 17 July 2019 |
:1 Bethel Valley Rd
704 bytes (96 words) - 19:06, 7 October 2019
 | File:Griffiths1w2 Fig1.png Figure 1. CWD additions shortly after installation in a stream.
(480 × 640 (818 KB)) - 14:01, 16 August 2019 |
 | File:Hall1w2Fig1.png Figure 1. Phytoplankton come in many shapes and sizes
(798 × 563 (901 KB)) - 16:59, 13 November 2019 |
 | File:Mahendra1w2 Fig1.png Figure 1. Growth rates of two 14D metabolizers versus 14D concentration
(823 × 844 (140 KB)) - 21:06, 15 October 2019 |
 | File:Hall1w2Fig2.png Figure 1. Phytoplankton come in many shapes and sizes
(279 × 374 (109 KB)) - 17:00, 13 November 2019 |
 | File:Ghosh1w2Fig1.png Figure 1. Key exposure pathways for human health risk at contaminated sediment sites
(815 × 600 (349 KB)) - 20:46, 12 December 2019 |
...groundwater contaminant plumes. It is a significant upgrade from REMChlor 1.0<ref>Falta, R.W., 2008. Methodology for comparing source and plume remedia
[[File:Falta1w2 Fig1.png|thumb|450px|Figure 1. Spread of CVOCs in the Subsurface]]
17 KB (2,510 words) - 01:33, 28 April 2022
[[1,4-Dioxane]] (14D) does not readily biodegrade in most environments. However
*[[1,4-Dioxane]]
23 KB (3,148 words) - 05:05, 30 November 2021
[[File:Ghosh1w2Fig1.png|thumb|450px|Figure 1. Key Exposure Pathways for Human Health Risk at Contaminated Sediment Sites
...n is needed for the formulation of a robust site conceptual model. Figure 1 illustrates typical transport pathways between sediment and receptors in a
13 KB (1,690 words) - 20:04, 27 April 2022
