Full opinion text
FINDINGS OF FACT AND CONCLUSIONS OF LAW PHILIP R. MARTINEZ, District Judge. On this day, the Court considered the testimony and evidence presented by Plaintiff ASARCO LLC and Defendants CEMEX, Inc. and CEMEX Construction Materials South, LLC at a trial conducted before the Court from July 26 to August 1, 2013, in the above-captioned cause. The issue before the Court at trial was Plaintiffs claim for contribution pursuant to the Comprehensive Environmental Response, Compensation, and Liability Act (“CERC-LA”) and the Superfund Amendments and Reauthorization Act. After careful consideration of the testimony and evidence, the Court makes the following findings of fact and conclusions of law pursuant to Federal Rule of Civil Procedure 52(a). I. FINDINGS OF FACT A. Background Facts 1. The USIBWC Site The United States International Boundary and Water Commission (“USIBWC”) oversees the administration of various treaties between the United States and Mexico, specifically those dealing with water distribution and flood control. Trial Tr. vol. I, at 159, July 26, 2013. At its site in El Paso (the “USIBWC Site”), the USIBWC oversees the diversion of water from the Rio Grande River to the American Canal (the “Canal”), a two-mile canal that the United States uses to remove its agreed-upon allotment of water from the river. Parties’ Stip. Facts ¶ 34, July 25, 2013, ECF No. 169. The USIBWC Site, which is located at 2616 W. Paisano Drive, comprises 5.8 acres that include the area surrounding the Dam and Canal as well as the American Dam Field Office Property. Parties’ Stip. Facts ¶¶ 1, 33. In 2002, during preparations to repair the Canal, the USIBWC discovered that the groundwater and soil around the Canal were contaminated with impermissi-bly high levels of heavy metals, particularly lead and arsenic. Id. ¶¶ 35-36; see also Pl.’s Ex. 187; Trial Tr. vol. I, at 176. In the soil around the Canal, arsenic was detected at concentrations up to 597 milligrams per kilogram (“mg/kg”), well above the EPA industrial screening level of 2 mg/kg. Pl.’s Ex. 9, ¶ 190; Pl.’s Ex. 187, at P-187-3 tbl. 2-2. Lead was detected at concentrations up to 3500 mg/kg, again well above the industrial screening level of 2000 mg/kg. Pl.’s Ex. 9, ¶ 190; Pl.’s Ex. 187, at P-187-3 tbl.2-2. In the groundwater around the Canal, arsenic levels ranged from 0.07 milligrams per liter (“mg(L”) to 1.84 mg/L, all above the EPA’s maximum concentration limit of 0.01 mg/L. Pl.’s Ex. 9, ¶ 190; Pl.’s Ex. 187, at P-187-4 tbl.2-3. Lead levels in the groundwater ranged from 0.6 mg/L to 0.51 mg/L, above the EPA action level of 0.015 mg/L. Pl.’s Ex. 9, ¶ 190; Pl.’s Ex. 187, at P-187-4 tbl.2-3. The USIBWC concluded that the high levels of contaminants found on its Site were the result of Asarco’s historic smelting operations, located immediately adjacent to the USIBWC Site. Pl.’s Ex. 9, ¶ 190. 2. USIBWC Settlement with Asarco Plaintiff ASARCO, LLC (“Asarco”) is a limited liability company organized under the laws of the state of Delaware. Parties’ Stip. Facts ¶ 2. From 1887 to 1999, Asarco operated various metal-smelting plants at its site in El Paso (the “Former Asarco Site”), which is located just east of the USIBWC Site. Defs.’ Ex. 51 § 2.1-.2; see id. fig. 2-1. In 2005, Asarco declared Chapter 11 bankruptcy in the Southern District of Texas. Id. § 2.2. During bankruptcy proceedings, the United States (the “Government”) filed a proof of claim on behalf of the USIBWC to resolve Asarco’s joint- and-several CERCLA liability for “[r]e-sponse costs [that] have been and will be incurred by EPA at [the USIBWC Site] not inconsistent with the National Contingency Plan.” Pl.’s Ex. 9, ¶ 1; see id. ¶ 194. In a settlement agreement approved by both the bankruptcy court and the district court, Asarco agreed to settle the claim— originally for twenty-seven million dollars — for nineteen million dollars. Parties’ Stip. Facts ¶¶ 26-32. Asarco eventually paid the Government over twenty-two million dollars to resolve its liabilities in full, including interest. Id. ¶ 31; Trial Tr. vol. I, at 34; see Defs.’ Ex. 31, at 9-10. Remediation of the USIBWC Site has not yet occurred, nor have bids been issued for the work. Trial Tr. vol. I, at 184. It is thus unclear whether Asarco’s settlement amount will be sufficient to pay for full remediation of the Site. The testimony of Gilbert Anaya, the supervisor of the USIBWC’s Environmental Management Division, was not clear on this point: while he first stated that he did not know whether the funds from Asarco would pay for one hundred percent of the remediation of the Canal and Dam, id. at 179, he later stated that they would be enough, id. at 182. The Court thus determines that it does not have sufficient evidence to make a conclusive finding of fact on this issue. 3. CEMEX Defendant CEMEX, Inc. is a Louisiana corporation; Defendant CEMEX Construction Materials South, LLC (“CEMEX Construction”) is a limited liability company organized under .the laws of the state of Delaware. Parties’ Stip. Facts ¶¶ 4, 19. CEMEX, Inc. is a successor in interest to Southwestern Portland Cement Company (“SWPCC”). Id. ¶ 6. SWPCC built and operated a cement plant (the “Plant”) in El Paso from 1910 to 1985 and owned the property on which the Plant sits until 1991, when it merged into Southdown, Inc. (“Southdown”). Id. ¶¶ 7-10. Southdown sold the Plant to Industrial Trading, Inc. in 1998. PL’s Ex. 195. Three years later, in 2001, Southdown changed its name to CEMEX, Inc. Parties’ Stip. Facts ¶ 5; Defs.’ Proposed Findings Fact & Conclusions Law ¶ 5, Aug. 30, 2013, ECF No. 208 [hereinafter “Defs.’ Proposed Findings & Conclusions”]. SWPCC also owned and operated a limestone quarry called the Toro Quarry (the “Quarry”) until 1986. Parties’ Stip. Facts ¶¶ 7, 11. The Quarry was later purchased by Jobe Concrete Products, Inc. (“JCPI”), which mined sand and gravel and operated ready-mix concrete batch operations on the property. Id. ¶¶ 12-13. Additionally, JCPI leased a portion of the Plant property from 1994 to 1996. Trial. Tr. vol. II, at 11. CEMEX Construction is a successor in interest to JCPI and currently operates a ready-mix concrete batch plant at the Quarry. Parties’ Stip. Facts ¶¶ 20-21; see id. ¶¶ 14-18. Both the Quarry and the Plant, collectively known as the “CEMEX Site,” are located approximately a quarter mile from the northern boundary of the USIBWC Site, to the east of the Rio Grande and immediately north of Asarco’s property. Asarco alleges that operations at the CEMEX Site contributed arsenic to the contamination at the USIBWC Site, and thus that CEMEX is responsible for a portion of the settlement amount paid by Asarco to the Government. First Am. Compl. ¶ 14, Mar. 22, 2013, ECF No. 50. Specifically, Asarco brings this CERCLA contribution claim against CEMEX for eleven million dollars, which it alleges constitutes CEMEX’s share of the cleanup costs at the USIBWC Site. Pl.’s Posh-Trial Br. Supp. Damages & Allocation 28, Aug. 30, 2013, ECF No. 207. B. Contamination 1. Contamination at the CEMEX Site a. The Quarry CEMEX and its predecessors in interest, including SWPCC and JCPI, have quarried limestone at the Quarry since approximately 1910. Trial Tr. vol. Ill, at 64 (testimony of Kimberly Dennis). The parties agree that limestone contains arsenic, e.g., id. at 84, and CEMEX’s designated representative, Kimberly Dennis, acknowledged that the Quarry contains both lead and arsenic, id. In addition, CEMEX concedes that the quarrying process and related activities, such as transportation, can result in fugitive emissions that contain arsenic. Id. at 82-83; Trial Tr. vol. V, at 111-12 (testimony of Dr. Theresa Bowers); see also Pl.’s Ex. 55, at P-55-4 (“The rock crusher facility onsite currently has a notice of violation for fugitive dust emissions.”). The parties’ disputes with respect to the Quarry center on two issues of fact: (1) whether emissions from the Quarry contain an appreciable amount of arsenic, such that the emissions could have contributed to the contamination at the USIBWC Site, and (2) whether water — -either surface or ground — flows from the Quarry to the USIBWC Site, such that it may have transported contaminants to the Site. Several environmental assessments conducted at the Quarry note various materials that may have been dumped on the site, including piles of dust, some of which may be cement kiln dust (“CKD”). For example, a 1992 Phase I Environmental Assessment of the Quarry performed by Raba-Kistner Consultants, Inc. (“Raba-Kistner”) for JCPI noted the presence of approximately 1000 cubic yards of “[a] light yellow, powdery material which appeared to be cement kiln dust” in an arroyo at the Quarry. Pl.’s Ex. 36, at P-36-10. Similarly, a 1989 environmental assessment of the Quarry, also performed by Raba-Kistner, identified “several piles of material ... which appeared] to be kiln dust, along with an unidentified black ash and an unidentified black asphaltic type material” located in the Quarry. Pl.’s Ex. 55, at P-55-5. Each report notes that runoff from kiln dust “can be hazardous due to its high alkalinity.” Id.; Pl.’s Ex. 36, at P-36-10 (“This material could generate high pH runoff.”). The 1992 report does not prioritize cleaning up the potential CKD, since the dust pile “is located in the high part of [the] arroyo, which apparently does not receive significant amounts of runoff.” Pl.’s Ex. 36, at P-36-10, P-36-13. On the other hand, the 1989 report recommends that JCPI, the then-owner of the Quarry, dispose of the dust “at an authorized waste disposal facility to prevent leachate runoff.” Pl.’s Ex. 56, at P-55-5, P-55-6. Neither Dennis nor Stanley Jobe, the owner of JCPI, recalled any actions taken to remove these materials. Trial Tr. vol. II, at 75-81 (testimony of Stanley Jobe); Trial Tr. vol. III, at 102-04. CEMEX’s expert witnesses on air emissions and soil contamination both testified that fugitive emissions from the Quarry were not responsible for any contamination of the USIBWC Site. Dr. John Richards, CEMEX’s air-emissions expert, testified that while he had not tested the materials at the Quarry, he believed that any emissions from the Quarry would be “too small to be relevant.” Trial Tr. vol. V, at 43-44. Similarly, he stated in his report that, “[b]ased on [his] experience in testing unpaved roads, limestone crushers, and storage piles,” emissions from the Quarry “are not credible contributors” to the arsenic levels at the USIBWC Site. Defs.’ Ex. 49, at 3. Dr. Theresa Bowers, CEMEX’s soil-contamination expert, testified that fugitive emissions from the Quarry would contain arsenic concentrations well within natural-background levels. Trial Tr. vol. V, at 108, 111-12, 140. As a result, Bowers concluded that any emissions that traveled off the property “[would] not increase the concentration of arsenic in soil on the As-arco or IBWC properties.” Defs.’ Ex. 45, at 7. Asarco, on the other hand, did not provide evidence of the extent or the content of any fugitive emissions from the Quarry. See Trial Tr. vol. IV, at 87-88 (testimony of Dr. Michael Ketterer, explaining that he is not rendering any expert opinions as to the Quarry); id. at 181-82, 217 (testimony of Kenneth Ames, explaining the same). Asarco did provide some evidence indicating that surface-water runoff from the Quarry may end up in the Rio Grande: Anaya testified that, from his own personal knowledge, there are arroyos on the Quarry property that would channel surface water toward the river. Trial Tr. vol. I, at 162. Additionally, the 1981 environmental assessment of the Quarry acknowledges the possibility of off-site surface-water runoff, although it does not specify where such runoff might go. See Pl.’s Ex. 55, at P-55-5-P-55-6. Similarly, Dennis testified that water containing harmful materials could run off the property. Trial Tr. vol. III, at 86, 103-04. The 1992 environmental assessment of the Quarry notes that, while surface water on the property generally drains toward the southwest, quarrying activities “have substantially altered the terrain in some areas.” Pl.’s Ex. 36, at P-36-7. Indeed, it appears from the reports provided that at least some of the surface water on the property flows into Cement Lake, an unlined retention pond located in the northwest portion of the Quarry. See Trial Tr. vol. III, at 58; Pl.’s Ex. 55, at P-55-4, P-55-7. The 1992 assessment reports that no offsite discharge occurs from Cement Lake. Pl.’s Ex. 55, at P-55-4. CEMEX’s groundwater expert, Mark Hemingway, testified that, to a reasonable degree of scientific certainty, the Quarry is not a source of groundwater contamination at the USIBWC Site. Trial Tr. vol. V, at 173, 196. Groundwater at the Quarry, he testified, shows no signs of elevated arsenic content: rather, testing in the Quarry has identified arsenic levels consistent with natural-background levels, not contamination. Id. at 172, 185. In addition, he testified to the lack of evidence of any direct migration pathway between the Quarry and the USIBWC Site. Id. at 185, 190. His testimony indicated that the groundwater beneath the Quarry travels in a “separate, distinct path” along Executive Drive to the Rio Grande. Id. at 194-95; Defs.’ Ex. 47, fig. 3. As a result, he concludes, even were “arsenic-impacted groundwater” present on the Quarry, “it would not migrate to” the USIBWC Site. Defs.’ Ex. 47, at 3. Asarco presented no evidence otherwise: while its surface-water expert, Kenneth Ames, testified about the groundwater at and around the American Dam and Canal, he rendered no opinions as to the groundwater beneath the Quarry. See Trial Tr. vol. IV, at 181-82, 217. b. The Plant The Plant is a dry-process plant that SWPCC used to produce cement from approximately 1910 to 1985. See Trial Tr. vol. III, at 68-69. The Plant was built with two kilns; two more were added at a later date. While the kilns’ precise dates of operation are unclear, the amount of cement produced at the Plant suggests that some of the kilns ran continuously during the whole seventy-five-year period that the Plant was in service. Id. at 75, 106, 119. Much of Asarco’s case is based on information found in a 1989 “Environmental Site Inspection” conducted by Raba-Kistner (hereinafter the “Report”) on behalf of Stanley Jobe, who at that time was considering purchasing the Plant property. Trial Tr. vol. II, at 52; see Pl.’s Ex. 52. Asarco characterizes the Report as a smoking gun, while CEMEX insists it is the result of a cursory “look-see” from which no concrete conclusions can be drawn. Compare Trial Tr. vol. II, at 16.4, with id. at 94-95. The Report details heavy dust accumulation throughout the Plant property, including inside the administration office building, precipitator building, baghouses, and raw grinding facility. Pl.’s Ex. 52, at P-52-5-P-52-8. It notes that “[a]n accumulation of kiln dust and cement powder product exists in all levels” of the raw clinker building, rotary kilns, and clinker pits, and concludes that “[m]uch of the work area has a significant accumulation of kiln dust that originated from the processes of cement production.” Id. at P-52-8P-52-9. Raba-Kistner did not test the “kiln dust” for arsenic, nor did it confirm through testing that the dust was indeed CKD rather than other, potentially less hazardous, dust byproducts of the cement-making process. The Report notes, “Some types of dust from cement production processes may potentially cause runoff waters and effluents to become very basic.... In all cases, the dust is a potential health hazard due to fugitive particulate matter....” Id. at P-52-10. It recommends analyzing stormwater runoff from the property “due to the close proximity of the Rio Grande” and cautions that “[t]he potential legal liabilities associated with ownership of [the] property [would] be formidable if groundwater and/or surface water are found to have been impacted.” Id. at P-52-13. However, it ultimately concludes that “[t]he risk of stormwater runoff contamination and/or groundwater contamination from the kiln dust deposited on the site cannot be determined at this point.” Id. Stanley Jobe, who commissioned the Report, leased portions of the Plant property from 1994 to 1996 and began preliminary efforts to purchase the property in 1996 and again in 1998. Trial Tr. vol. II, at 16. While Jobe had difficulty recalling the conditions of the Plant at the time of JCPI’s leasehold, he did testify that “cement dust or some kind of dust” was present on parts of the property and recalled that “there could have been two feet” of dust accumulated in some places. Id. at 18, 89-90. Additionally, the evidence provided to the Court indicates that Jobe did not purchase the Plant property partly because of the potential environmental liability at the site; he testified that his decision rested in part on environmental concerns and in part on the then-owner’s failure to perform demolitions as promised. Id. at 83, 88; see Pl.’s Ex. 56 (“[T]here is tremendous liability in the property.”). He also testified that he knew some environmental conditions at the Plant were “terrible” and that he was aware of “extensive contamination” on the property. Trial Tr. vol. II, at 49-51. The parties’ experts agree that CKD contains arsenic. See Trial Tr. vol. IV, at 58; Trial Tr. vol. V, at 67. They dispute, however, whether the dust characterized by Raba-Kistner as kiln dust was actually CKD. Richards, CEMEX’s air-emissions expert, testified that CKD is very difficult to visually identify, even for people working in the cement industry. Trial Tr. vol. V, at 14. On the other hand, he noted that “it would be very reasonable to expect some CKD inside a building at a cement plant.” Id. at 15. Richards also testified that CKD would likely not be left unused at a cement plant: rather, because CKD can be recycled back into the cement-producing process, it is a “valuable material” that most plants make efforts not to waste. Id. at 16-17. He also noted, however, that some CKD cannot be recycled because of characteristics like high alkalinity, id. at 17, 90, and admitted that he was not familiar with the process used at the Plant or the specific characteristics of the limestone used there, id. at 90-91. Dennis, CE-MEX’s designated representative, testified that not all CKD produced at a cement plant could be recycled, and that nonrecy-cled CKD must be managed and treated as waste. Trial Tr. vol. III, at 77-78. Similarly, an EPA report provided by Asarco, and relied upon by Ketterer and Ames, estimates that approximately 35% percent of CKD generated is discarded as waste. Pl.’s Ex. 128, at P-128-10; see Pl.’s Ex. 127, at P-127-4. Ketterer, Asarco’s air-emissions expert, agreed that dust, as a general matter, cannot be visually identified as CKD; however, Ketterer maintained that some of the material on the Plant property was CKD, likely deposited on the property by emissions from the Plant. Trial Tr. vol. IV, at 48, 86. He noted that some of the Report’s test results suggested that Raba-Kistner had tested the kiln dust and that these results indicate that the dust was in fact CKD: for example, a sample collected from one of the baghouse precipitators — a control device designed to capture CKD— exhibited chemical properties consistent with CKD, including elevated pH, concentrations of chloride and sulfate, and elevated concentrations of lead and cadmium. Id. at 64-67; id. at 180 (Ames agrees with Ketterer’s analysis on this point); see PL’s Ex. 52, at P-52-18-P-52-19. Despite Richard’s testimony that this sample’s profile is not “entirely consistent” with CKD, Trial Tr. vol. V, at 95, the Court credits Ketterer’s testimony on this point. The parties further disagree about the possible concentrations of arsenic found in the CKD at the Plant. Both of Asarco’s experts, Ketterer and Ames, relied on the average arsenic content of CKD identified in a 1993 EPA report to Congress: 24 mg/kg. See Trial Tr. vol. IV, at 74, 106, 134; Pl.’s Ex. 127, at P-127-8. Ames concluded, based on industry data and limited information about the Plant’s actual emissions, that more than 40,000 pounds of arsenic were produced in the Plant’s seventy-five years of operation. Trial Tr. vol. IV, at 147; Pl.’s Ex. 158, at P-158-6. Richards, on the other hand, used an estimate of 18 mg/kg, the average arsenic level in CKD according to the Portland Cement Association. Defs.’ Ex. 49, at 5. He testified that this estimate is “a more reliable calculation of the set of data” found in the EPA report. Trial Tr. vol. V, at 45. Richards concluded, based on similarly generic statistics, that a maximum of approximately 29,000 pounds of arsenic were produced. Defs.’ Ex. 49, at 6. Whether or not arsenic, in whatever amount, traveled from the Plant to the USIBWC Site is another point of contention between the parties. While Richards testified to the likely use of mechanisms to contain CKD in the actual cement-production process, see Trial Tr. vol. V, at 21-31, neither Jobe nor Dennis knew of any controls to prevent runoff or fugitive emissions from CKD once deposited on the property, Trial Tr. vol. II, at 30; Trial Tr. vol. III, at 85-87, nor did either know what had happened to the dust on the property referenced in the 1989 Report, Trial Tr. vol. II, at 79-81; Trial Tr. vol. III, at 115. It is clear that some CKD, like that inside covered buildings and some that had developed a hard crust, was not susceptible to being carried off by surface water or wind. See Trial Tr. vol. II, at 113-14 (testimony of Dennis); Trial Tr. vol. IV, at 188-89, 222 (testimony of Ames). On the other hand, much of the CKD remained susceptible to these forces, as referenced in the Report’s recommendations. Pl.’s Ex. 52, at P-52-9-P-52-10. It is generally not disputed that surface water on the Plant property drains toward the west and southwest, that is, toward the Rio Grande. Trial Tr. vol. II, at 22-23 (testimony of Jobe); see Defs.’ Ex. 47, fig. 3 (map of area arroyos and groundwater flow). Based on his personal observations, Ames testified that the tip of the Plant, located in the southwestern corner of the property, is the collection point for water running off the property. Trial Tr. vol. TV, at 137. His expert opinion is that the CKD and other dust on the Plant property was transported via surface-water runoff down, the property, into concrete-lined culverts under Paisano Drive, and into the Rio Grande. Id. at 152-54. Hemingway, CEMEX’s water expert, generally agreed that surface water on the Plant property would drain along this path. Trial Tr. vol. V, at 167-68; see Defs.’ Ex. 47, fig.3 (surface water would run into Arroyo C and then down to the Rio Grande). He qualified this opinion, however, by testifying that a number of other runoff sources would contribute to the flow of water into the Rio Grande, including water from other industrial sources and the La Calavera residential area, which has shown signs of lead and arsenic contamination. Trial Tr. vol. V, at 168-69; see also Trial Tr. vol. IV, at 216 (testimony of Ames acknowledging the contamination at La Calavera). Any additional runoff sources, testified Hemingway, would substantially dilute the runoff from the Plant, “probably by orders of magnitude.” Trial Tr. vol. V, at 169. Any CKD that was transported to the Rio Grande by runoff would flow down the river toward the American Dam and Canal. Trial Tr. vol. IV, at 156-57. When the Dam’s gates are closed, water builds up in a settling basin just upstream of the Dam. Trial Tr. vol. I, 185-86; Defs.’ Ex. 20, App. K.2, at 20-21. The settling basin and Dam slow the velocity of the river considerably, resulting in the deposition of sediment in the basin. Defs.’ Ex. 20, App. K.2, at 20. After reaching a certain volume, water begins to flow over a skimming weir, located at a ninety-degree angle to the Dam, and enters the Canal through its headgate structure. Trial Tr. vol. I, at 185; Trial Tr. vol. IV, at 197; Defs.’ Ex. 20, App K.2, at 21, The weir is designed to prevent heavier sediment from entering the Canal. See Defs.’ Ex. 20, App. K.2, at 20 (“The purpose of the skimming weirs is to prevent, insofar as possible, the entrance of heavier sands and silts into the canal by diverting in each case, only the ‘top layer’ of water.” (quoting W.F. Resch, U.S. Dep’t of the Interior, Report on Mexican Canal Diversion — Rio Grande Project 27-28 (1934))). Once the Dam reaches capacity, it opens automatically, allowing water to continue traveling along the river. Id. According to Ames, some water carrying CKD sediment from the Plant would flow into the Canal, while much of the sediment would be deposited just upstream of the Dam. Halted just before the Dam, this sediment would then leach arsenic into the surface water of the river and Canal as well as the surrounding groundwater. Trial Tr. vol. IV, at 156-59. Both Ketterer and Ames discussed the propensity of arsenic in CKD to solubilize rapidly when in contact with water. See id. at 114, 174. In fact, Ketterer testified that it “is a scientific certainty” that CKD combined with water creates an alkaline solution that contains high concentrations of dissolved arsenic. Id. at 114. If arsenic were to leach from CKD sediment into the Rio Grande, upstream of the American Dam, the solution created would infiltrate both the surface water and the groundwater at the' USIBWC Site, since the two systems are “in constant communication” with one another. Id. at 163-64; Pl.’s Ex. 158, at P-158-9; cf. Defs.’ Ex. 47, at 7 (expert report of Hemingway, in which he states that groundwater “interacts] with the river” in a variety of ways). Ames testified that the likelihood that arsenic from the Plant ended up in groundwater at the USIBWC Site is thus “very likely” and “very plausible.” Trial Tr. vol. IV, at 192. Ketterer also testified to the likelihood that fugitive emissions from the Plant could travel to the USIBWC Site and contaminate the soil there, stating that the data “allow the possibility that there is a CEMEX contribution to the air emissions observed in the soil.” Id. at 99. Citing other CKD-contaminated sites around the country, Ketterer concluded that it would not be scientifically reasonable to say that the Plant did not contribute arsenic, via air emissions, to the USIBWC Site. Id. at 112. On the other hand, Bowers, CEMEX’s soil-contamination expert, testified that the Plant “could not” be the source of soil contamination at the USIBWC Site. Trial Tr. vol. V, at 125. Rather, she testified that no trace of stack emissions from the Plant could be identified in the soil at the USIBWC Site. Id. at 108-09. In addition, she considers the levels of arsenic in CKD to be within the range of natural background, meaning that any windblown CKD sediment could not create contamination. Id. at 125, 140-41. 2. The Former Asarco Smelter Both Asarco experts admit that Asarco is a source of arsenic at the USIBWC Site. See Trial Tr. vol. IV, at 202-03, 210, 220 (testimony of Ames that Asarco had some arsenic impact on the groundwater at the USIBWC Site); Pl.’s Ex. 118, at P-118-3 (expert report of Ketterer in which he states that “the former Asarco smelter is a major source of arsenic contamination” in the soils at the USIBWC Site). Ketterer argues, however, that Asarco is not the only source of arsenic in the soil at the Site, see Trial Tr. vol. IV, at 99, while Ames opines that any arsenic in the groundwater found above the American Dam must be attributed to CEMEX, id. at 170. Ketterer authored a report in 2006 for the Sierra Club in which he concluded that Asarco was the “dominant” source of hazardous substances, including arsenic and lead, in area soils. Id. at 10. Phrased differently, Ketterer concluded that Asarco was responsible for at least 50% of the arsenic in the soil. Id. at 97. Bowers, CEMEX’s soil-contamination expert, relied on data from the Sierra Club study to conclude that Asarco’s operations are responsible for all of the soil contamination at the USIBWC Site. This conclusion, she argues, is supported by two facts: first, that the concentrations of arsenic in the soil at the Site are much higher than any arsenic concentrations found at the Quarry or the Plant; and second, that the metal ratios in soil samples from the Site exhibit only two “fingerprints,” one attributable to slag emissions from Asarco, and the other attributable to Asareo’s stack emissions. Trial Tr. vol. V, at 108-09. If emissions from the Plant impacted the Site, she testified, the data would contain a distinguishable third fingerprint: because it does not, she concludes that CEMEX’s contribution to the contamination is insignificant, if present at all. Id. at 112; Defs.’ Ex. 45, at 8. In rebuttal, both Ames and Ketterer testified to the presence of arsenic emissions from the Plant in the soil at the USIBWC Site. Analysis of the Sierra Club data conducted by Ames led him to conclude that, while Asarco accounts for the majority of metals contamination at the Site, more than one anthropogenic source of arsenic is needed to account for the data. See Pl.’s Ex. 157, at P-157-9, P-157-11 (explaining that one factor, likely from Asarco, can account for 78.8% of the elevated concentrations of metals, including arsenic, but that the second and third largest factors, which account for 16.4% and 2.8% of the elevated concentrations, respectively, “strongly suggest” one or more additional sources of arsenic in the soil). Ketterer, who conducted the original Sierra Club study, testified that the data does not exclude the possibility that CEMEX also contributed arsenic to the soil at the USIBWC Site. Trial Tr. vol. IV, at 99. Rather, he opined, “it’s a certainty that the [Clement [Pliant is a source of arsenic released into the environment” via both stack emissions and windblown CKD emissions. Id. at 59. Richards, CEMEX’s air-emissions expert, used generic industry statistics and limited data from the Plant and Smelter to estimate the two sources’ relative air emissions. Trial Tr. vol. V, at 35-36, 49-50. He concluded that Asarco’s emissions were at least 5000 times those of CEMEX. Id. at 38. Asarco’s experts noted, however, that the height of the Asarco stacks led to the distribution of Asarco’s emissions over an extremely wide area, spreading to Juarez, Chihuahua, Mexico and Anapra, New Mexico. Trial Tr. vol. IV, at 97, 235. They argue that the short height of the Plant stacks, on the other hand, means that its emissions settled on the CEMEX Site and the immediately surrounding area, including the USIBWC.Site. See id. at 48, 235. Ames, Asarco’s water expert, testified that all of the groundwater contamination upstream of the American Dam was caused by CEMEX. As evidence, Ames discussed testing conducted by Malcolm Pirnie, Inc. (“Malcolm Pirnie”) at well EP-80, located immediately upgradient of the Dam. Id. at 164-65. Tests done at the well in 2009 found an arsenic value of 0.025 mg/L, two and a half times the EPA standard for arsenic in drinking water, which is 0.01 mg/L. Id. at 169-70. Ames testified that it would not be realistic to conclude that any source other than runoff from the Plant would cause such a high concentration of arsenic to be observed at the well. Id. at 170. On the other hand, CEMEX’s groundwater expert, Hemingway, testified that this concentration of arsenic is consistent with the well’s location at the edge of Asarco’s groundwater arsenic plume. Trial Tr. vol. V, at 193; Defs.’ Ex. 47, fig. 4. Referencing a groundwater map created by Malcolm Pirnie in 2006, Hemingway explained that concentrations of arsenic steadily decline as you get closer to the Rio Grande and farther away from the areas of highest arsenic concentration on the former Asarco property. Trial Tr. vol. V, at 186-87. If there were another source of arsenic in the groundwater, he testified, “then groundwater impact would extend beyond the areas of Asarco’s activities, and exhibit a pattern of increase in the direction of’ the additional source. Defs.’ Ex. 47, at 15. Because no such increase occurs, it is not reasonable to suggest that any source other than Asarco contributed arsenic to the groundwater at the Site. Trial Tr. vol. V, at 186-87, 197. Finally, Hemingway testified that arsenic leaching from slag buried at the Parker Brothers arroyo, part of the former Asarco facility, contributed arsenic to the groundwater located upstream of the Dam. Id. at 180-82. Both Asarco experts emphasize the difference in the leachability of slag and the leachability of CKD. For example, Ames testified that the potential for arsenic to leach into the environment from the materials is like “night and day”: while slag’s impact is negligible, the potential for arsenic to leach “at a rapid rate” from a powder — particularly into an alkaline solution — is “very high.” Trial Tr. vol. IV, at 174; see also id. at 114-17 (testimony of Ketterer explaining the impact of pH on the solubility of arsenic). As a result, Ames testified, slag from the Parker Brothers arroyo did not contribute arsenic to the groundwater even though groundwater from the arroyo travels north of the Dam. Id. at 173-74. Data obtained from the “Final Remedial Action Work Plan” conducted for the former Asarco smelter by Malcolm Pirnie in 2011, undermines both parties’ groundwater-related assertions. Rather, the Malcolm Pirnie report makes clear that, no matter the rate at which arsenic leaches from slag, slag on the former Asarco property has contributed significant amounts of arsenic to the groundwater at the property and at the USIBWC Site. See Defs.’ Ex. 51, at ES-3 (describing groundwater at Parker Brothers arroyo); id. § 2-5 (“Elevated concentrations of arsenic, which is the primary groundwater [contaminant of concern], occur over a large area which extends from the former facility to the Rio Grande floodplain.... ”). However, the report also makes clear that the majority of Asarco’s contribution to arsenic in groundwater — from slag and other sources, such as the former acid plant— affects the USIBWC Site downgradient of the American Dam. See id. § 2-5; see also Defs.’ Ex. 35, §§ 3-9, 5-5. Even groundwater from the Parker Brothers arroyo, according to the report, discharges “along a short section of the Rio Grande down-gradient of the American Dam.” Defs.’ Ex. 51, § 2-5; accord id. (“[T]he American Dam ... induces groundwater to discharge downstream of the dam due to the increased water level upstream.”). In addition, the Phase IV Remedial Investigation Report conducted for Asarco by Asarco Consulting, Inc. in 2003 concluded that “[t]he arsenic concentration gradient characterized by monitoring wells suggests that the source of arsenic in groundwater is downgradient from EP-83.” Defs.’ Ex. 35, § 5-5. While the map provided is difficult to decipher, the Court believes that Well EP-83 is located on the east side of Paisano Drive and connects to an arroyo that discharges into the river at a site parallel to the Dam. Id. Exs. 3, 6; see also Defs.’ Ex. 47, fig.3 (arroyo map in Hemingway’s expert report). Thus, these sources suggest that arsenic in groundwater up-gradient of the American Dam may not be caused by Asarco. II. CONCLUSIONS OF LAW A. CERCLA Liability CERCLA was enacted in 1980 as a broad, remedial response to environmental harm. See Amoco Oil Co. v. Borden, Inc., 889 F.2d 664, 667 (5th Cir.1989). The statute encourages timely response to environmental hazards and shifts the costs of that response from taxpayers to the companies and industries responsible for the hazard. See Control Data Corp. v. S.C.S.C. Corp., 53 F.3d 930, 935-36 (8th Cir.1995). As such, courts agree that CERCLA should be construed liberally to effectively implement its goals. United States v. Alcan Aluminum Corp. (Alcan I), 964 F.2d 252, 258 (3d Cir.1992) (citing B.F. Goodrich v. Murtha, 958 F.2d 1192, 1197 (2d Cir.1992); Dedham Water Co. v. Cumberland Farms Dairy, Inc., 889 F.2d 1146, 1150 (1st Cir.1989)). Unfortunately, courts also agree that CERCLA, a hastily enacted legislative compromise, is poorly drafted, ambiguous, and difficult to interpret. Amoco Oil, 889 F.2d at 667 (“[Because [CERC-LA] was enacted as a ‘last-minute compromise’ between three competing bills, it has ‘acquired a well-deserved notoriety for vaguely drafted provisions and an indefinite, if not contradictory, legislative history.’” (quoting United States v. Mottolo, 605 F.Supp. 898, 902, 905 (D.N.H.1985))). Much of the confusion stems from “the ambiguous and even cryptic text” of § 107(a), which sets forth CERCLA’s basic standards for liability. Susan M. Cooke, The Law of Hazardous Waste § 14.01[1] (2013 ed.). Section 107(a) reads as follows: Notwithstanding any other provision or rule of law, and subject only to the defenses set forth in subsection (b) of this section— (1) the owner and operator of a vessel or a facility, (2) any person who at the time of disposal of any hazardous substance owned or operated any facility at which such hazardous substances were disposed of, (3) any person who by contract, agreement, or otherwise arranged for disposal or treatment, or arranged with a transporter for transport for disposal or treatment, of hazardous substances owned or possessed by such person, by any other party or entity, at any facility or incineration vessel owned or operated by another party or entity and containing such hazardous substances, and (4) any person who accepts or accepted any hazardous substances for transport to disposal or treatment facilities, incineration vessels or sites selected by such person, from which there is a release, or a threatened release which causes the in-currence of response costs, of a hazardous substance, shall be liable for— (A) all costs of removal or remedial action incurred by the United States Government or a State or an Indian tribe not inconsistent with the national contingency plan; (B) any other necessary costs of response incurred by any other person consistent with the national contingency plan; (C) damages for injury to, destruction of, or loss of natural resources, including the reasonable costs of assessing such injury, destruction, or loss resulting from such a release; and (D) the costs of any health assessment or health effects study carried out under section 9604(i) of this title. 42 U.S.C. § 9607(a) (2006). Asarco brings this claim against CEMEX pursuant to § 113(f) of CERC-LA, which allows “[a] person who has resolved its liability to the United States ... for some or all of a response action or for some or all of the costs of such action in an administrative or judicially approved settlement” to seek contribution from other potentially responsible persons. Id. § 9613(f)(3)(B). In order to prevail on a CERCLA contribution claim, a plaintiff must first demonstrate that a defendant is “liable or potentially liable” under § 107(a) of CERCLA. Id. Thus, for Asarco to prevail against CEMEX, it must first prove that (1) there was a release or threatened release of a hazardous substance from a facility for which CEMEX is a responsible person; and (2) the release or threatened release caused the Government to incur costs of removal or remedial action that are not inconsistent with the national contingency plan (“NCP”). See id. § 9607(a)(4)(A). What these elements require is, for the most part, uncontroversial. CERCLA defines a “release” as “any spilling, leaking, pumping, pouring, emitting, emptying, discharging, injecting, escaping, leaching, dumping, or disposing into the environment.” 42 U.S.C. § 9601(22). The release must be of a “hazardous substance,” defined by CERCLA in reference to a number of other statutes and regulations. Id. § 9601(14). The release must also come “from a facility,” which CERCLA defines as (A) any building, structure, installation, equipment, pipe or pipeline ..., well, pit, pond, lagoon, impoundment, ditch, landfill, storage container, motor vehicle, rolling stock, or aircraft, or (B) any site or area where a hazardous substance has been deposited, stored, disposed of, or placed, or otherwise come to be located. Id. § 9601(9). A defendant must be a responsible person with respect to that facility, that is, a defendant must fall into one of the § 107(a) categories — current owners or operators, former owners or operators, arrangers, or transporters— with respect to the site of the release. See id. § 9607(a). In addition, the Government must have incurred removal and remedial costs that are not inconsistent with the NCP — a set of “procedures and standards for responding to releases of hazardous substances” that is promulgated by the EPA. Amoco Oil, 889 F.2d at 672 (quoting 42 U.S.C. § 9605(a)); see 40 C.F.R. § 300.700 (2013). Finally, the incurrence of these costs must have been “caused” by the release from the facility for which defendant is a responsible person. 42 U.S.C. § 9607(a). 1. The Applicable Causation Standard What “caused” means in this context is unclear and vigorously contested by the parties. Courts agree that CERCLA imposes strict liability in traditional “one-site” cases. See Alcan I, 964 F.2d at 259 (citing 42 U.S.C. § 9601(32); Dedham Water, 889 F.2d at 1150; New York v. Shore Realty Corp., 759 F.2d 1032, 1042 (2d Cir.1985)). The question before the Court is whether the same strict-liability framework applies in “two-site” cases such as this one. In a one-site case, the site of the release or threatened release of a hazardous substance and the site where the Government h^s incurred cleanup costs are one and the same. In those cases, a plaintiff must prove (1) that the site in question is a “facility” pursuant to § 101(9); (2) that the defendant is a responsible person pursuant to § 107(a); (3) that a release or a threatened release of a hazardous substance has occurred; and (4) that the release or threatened release caused the Government to incur costs. Amoco Oil, 889 F.2d at 668. A plaintiff need not demonstrate that a particular defendant caused the Government to incur those costs, or even that the defendant caused the release that, in turn, caused the Government to incur costs. Amoco Oil, 889 F.2d at 670 n. 8 (“[I]n cases involving multiple sources of contamination, a plaintiff need not prove a specific causal link between costs incurred and an individual generator’s waste.”). Rather, a plaintiff must only prove that a release from a site for which the defendant is a responsible person caused the Government to incur costs. Outlet City, Inc. v. W. Chem. Prods., 60 Fed.Appx. 922, 926 (3d Cir.2003) (citing Alcan I, 964 F.2d at 264-66) (“[T]he only causation required under CERCLA is that the release of hazardous substances at the ‘facility’ cause the response costs; a plaintiff does not need to prove that the defendant’s waste caused the response costs under Section 107.”). In a two-site case, the release or threatened release of a hazardous substance occurs at one site, and the Government incurs response costs at another. CEMEX relies heavily on court decisions that express concern that the application of strict liability in two-site cases would result in unfair or absurd results. For example, the U.S. District Court for the Western District of Missouri has held that, “where ... response costs are incurred solely as a result of and in response to ... actual contamination, the plaintiff must prove that the release by the defendant actually caused the contamination” for which response costs, were incurred. Thomas v. FAG Bearings Corp., 846 F.Supp. 1382, 1390 (W.D.Mo.1994) (emphasis added). If the plaintiff was not required to make such a showing, the court explained, “[a] party who discovers TCE groundwater contamination in Missouri could successfully sue every party who released TCE in the entire country.” Id. at 1387; see Innis Arden Golf Club v. Pitney Bowes, Inc., 629 F.Supp.2d 175, 186 (D.Conn.2009) (quoting Thomas). On the other hand, the First Circuit held in Ded-ham Water that, because nothing in CERCLA’s language suggests that a two-site case be treated differently than a one-site case, “proof that the defendant’s hazardous waste actually ... migrated to” the site where response costs were incurred is not necessary to establish the defendant’s CERCLA liability. 889 F.2d at 1154. After a review of the statute, its legislative history, and applicable case law, the Court holds that the analytical framework that applies in a two-site CERCLA case is no different than the framework that applies in a one-site CERCLA case. Importantly, this holding does not result in the doomsday scenario feared by CEMEX and the Thomas court. Rather, Section 107(a) always requires a plaintiff to prove, in its prima facie case, that a release from a facility for which the defendant is a responsible person caused the incurrence of response costs. See Rhodes v. County of Darlington, S.C., 833 F.Supp. 1163, 1190-91 (D.S.C.1992) (“The derogation of liability does not eliminate the complaining party’s burden of demonstrating a causal connection between a release or threatened release and the incurrence of response costs.... The courts, while holding that CERCLA imposes strict liability, have consistently required a plaintiff to demonstrate unequivocally causation between the alleged wrong and the incur-rence of necessary response costs.” (footnote omitted) (citing Shore Realty, 759 F.2d at 1044 n. 17; Artesian Water Co. v. Government of New Castle County, 659 F.Supp. 1269, 1282 (D.Del.1987); Idaho v. Bunker Hill Co., 635 F.Supp. 665, 674 (D.Idaho 1986))). As the First Circuit explained in Dedham Water, “Obviously, a New Jersey well owner who began to make local-area contamination studies because of releases occurring in California could not claim, objectively speaking, that the California releases ‘causefd]’ the costs....” 889 F.2d at 1158. It remains unclear what evidence a plaintiff must provide to successfully establish that a release caused the incur-rence of response costs. While the Fifth Circuit has addressed this question, it did so in a different context: to determine whether a release justified the incurred response costs. See Amoco Oil, 889 F.2d at 670. Other courts have developed a variety of schemes to determine whether a plaintiff has carried its burden to demonstrate causation in its prima facie case. Some courts, including the Fourth Circuit, apply a burden-shifting approach favored by Asarco. Under this approach, a plaintiff “meets its burden on summary judgment if it (a) identifies a contaminant at [the cleanup site], (b) identifies the same (or perhaps a chemically similar) contaminant at the defendant’s site, and (c) provides evidence of a plausible migration pathway by which the contaminant could have traveled from the defendant’s facility to the [cleanup] site.” Castaic Lake Water Agency v. Whittaker Corp., 272 F.Supp.2d 1653, 1067 (C.D.Cal.2003) (citing Westfarm Assocs. Ltd. v. Wash. Suburban Sanitary Comm’n, 66 F.3d 669, 681-82 (4th Cir.1995); Alcan I, 964 F.2d at 264-66; Artesian Water, 659 F.Supp. at 1281-82; United States v. Bliss, 667 F.Supp. 1298, 1311 (E.D.Mo.1987)). Significantly, this approach places the burden of proof on the defendant to disprove causation: “The plaintiff need not produce any evidence that the contaminants did flow onto [the cleanup site] from the defendant’s land. Rather, once plaintiff has proven a prima facie case, the burden of proof falls on the defendant to disprove causation.” Westfarm, 66 F.3d at 681; accord United States v. Monsanto Co., 858 F.2d 160, 170 (4th Cir.1988) (“Congress has ... allocated the burden of disproving causation to the defendant who profited from the generation and inexpensive disposal of hazardous waste.”). The test favored by CEMEX, on the other hand, places the burden on the plaintiff to show that a defendant" actually contributed to the contamination that caused the plaintiff to incur response costs. For example, in KRSG I, the Sixth Circuit affirmed the district court’s opinion that “[t]he existence of a possibility [of migration] does not create a material issue of fact for trial because [the plaintiff] bears the burden of proof to show that [the defendant] did contribute to PCBs in the Kalamazoo River, not that it is possible that it might have contributed to the PCBs.” Kalamazoo River Study Grp. v. Rockwell Int’l Corp. (KRSG I), 171 F.3d 1065, 1072 (6th Cir.1999) (emphasis added) (quoting Kalamazoo River Study Grp. v. Rockwell Int’l Corp., 3 F.Supp.2d 815, 822 (W.D.Mich.1997)). The Thomas court took this conclusion even further, holding that, where contamination is found outside “the immediate vicinity” of a defendant’s site, fingerprinting the waste becomes necessary to prove that the release was a “substantial factor” in the plaintiffs incurrence of response costs. 846 F.Supp. at 1390; cf. ITT Indus., Inc. v. Borgwarner, Inc., 700 F.Supp.2d 848, 871, 876-77 (W.D.Mich.2010) (finding that defendants’ contamination was a “substantial factor” in causing the plaintiff to incur response costs, but “declin[ing] to adopt a rule” requiring the plaintiff to fingerprint defendants’ waste at the cleanup site). This view, said the court, “comports with the notions of fairness that have always been present with questions of causation in our legal system.” 846 F.Supp. at 1390. As discussed above, CERCLA is a broad, remedial statute meant to shift the costs of environmental hazards to the com-pañíes and industries responsible for them. Other courts have engaged in extensive discussion and interpretation of § 107, concluding that the text, structure, and legislative history of § 107 strongly suggest that a direct connection between a defendant and the incurrence of response costs is unnecessary. E.g., Kalamazoo River Study Grp. v. Menasha Corp., 228 F.3d 648, 655-56 (6th Cir.2000) (citing United States v. Twp. of Brighton, 153 F.3d 307, 328-29 (6th Cir.1998); Alcan I, 964 F.2d at 266; Shore Realty, 759 F.2d at 1044; United States v. Alcan Aluminum Corp. (Alcan II), 990 F.2d 711, 721 (2d Cir.1993); Amoco Oil, 889 F.2d at 670 n. 8; Monsanto, 858 F.2d at 169). While such a conclusion may belie the “notions of fairness” on which common-law tort doctrines of causation are founded, Congress made this policy choice when it enacted CERCLA into law. See Bliss, 667 F.Supp. at 1309 (“[The] structure of CERCLA and its legislative history make clear that traditional tort notions, such as proximate cause, do not apply.”). As explained by the Second Circuit, “[t]here may be unfairness in the legislative plan, but we think Congress imposed responsibility on generators of hazardous substances advisedly. And, even were it not advisedly, we still must take this statute as it is.” Alcan II, 990 F.2d at 716-17. The Court concludes that CERC-LA’s goals are better served by the framework laid out by the Fourth Circuit in Westfarm. To find CEMEX liable pursuant to CERCLA, Asarco must initially demonstrate that the same or a similar contaminant is present both at the USIBWC Site and at the CEMEX Site. Asarco must also demonstrate the existence of a “plausible migration pathway” from the CEMEX Site to the USIBWC Site. Asarco need not, however, show actual contamination at the USIBWC Site by CEMEX, and certainly need not “fingerprint” the waste as CEMEX’s. Rather, the burden falls on CEMEX to demonstrate that it was not the source of any contamination at the USIBWC Site. The Court notes that a “possible” migration pathway, as discussed in KRSG I, is not a “plausible” migration pathway. The Sixth Circuit noted in KRSG I that the testifying expert’s assumption “that water flowed down the ditch to [the cleanup site].... [was] based solely on speculation and possibility.” A speculative migration pathway is not a plausible one. Rather, the Court must conduct an inquiry into the facts as a whole — considering factors such as the location of the cleanup site and defendant’s facility, the geology and hydrology of the area, and the nature and quantity of the contamination — to determine whether it is more likely than not that the release from defendant’s facility could have migrated to the cleanup site. Cf. Thomas, 846 F.Supp. at 1390 (listing possible factors to weigh when determining causation). Difficult proof problems are inherent in hazardous-waste cases: “the eo-min-gling and migration of wastes at a disposal site make[ ] identification of sources scientifically difficult and economically infeasible.” Bliss, 667 F.Supp. at 1309-10 (citing United States v. Wade, 577 F.Supp. 1326, 1332-33 (E.D.Penn.1983); United States v. S.C. Recycling & Disposal, Inc., 653 F.Supp. 984, 993 n. 6 (D.S.C.1986)). To impose a “fingerprinting” requirement on a plaintiff “might permit the owners and operators of ... facilities to avoid financial responsibility for the cleanup, and would thus eviscerate section 107.” Artesian Water, 659 F.Supp. at 1282 (citing Wade, 577 F.Supp. at 1332-33). As a result, and in order to effect CERCLA’s intent, the Court concludes that a CERCLA plaintiff need not prove actual contamination by a defendant in order to successfully establish that defendant’s liability pursuant to § 107. 2. The Quarry In accordance with the Court’s holding, Asarco must demonstrate that arsenic, found both at the Quarry and at the USIBWC Site, could have plausibly migrated from the Quarry to the USIBWC Site. Asarco has failed to carry this burden. Evidence presented by Asarco demonstrates only that fugitive emissions and surface-water runoff from the Quarry could travel offsite. E.g., Trial Tr. vol. III, at 82-83 (testimony of Dennis that quarrying and transporting limestone can create dust containing arsenic); id. at 86, 103-104 (testimony of Dennis that it would be possible for materials to be taken offsite via surface water). Neither of Asarco’s expert witnesses rendered any opinions about the Quarry, nor did Asarco present any evidence that would show possible migration pathways of fugitive emissions or groundwater from the Quarry to the USIBWC Site. See Trial Tr. vol. IV, at 87-88 (testimony of Dr. Michael Ketterer, explaining that he is not rendering any expert opinions as to the Quarry); id. at 181-82, 217 (testimony of Kenneth Ames, explaining the same). Additionally, Asarco presented only minimal, anecdotal evidence that surface-water runoff that traveled -offsite would migrate to the USIBWC Site specifically. While Anaya testified that arroyos on the Quarry property could channel surface water toward , the river, he did so on the basis of personal knowledge as someone who is “generally familiar” with the terrain in the area. Trial Tr. vol. I, at 162. Additionally, the topography of the Quarry appears to have been altered significantly by quarrying activities, and at least a portion of the surface water on the site actually runs toward the northwest, away from the river. Pl.’s Ex. 55, at P-55-4, P-55-7; see Pl.’s Ex. 36, at P-36-18 photo no. 2 (photograph of storm water collecting in the Quarry). Without evidence of a plausible migration pathway from the Quarry to the USIBWC Site, the Court concludes that CEMEX is not liable pursuant to CERCLA for any hazardous substances released at the Quarry. 3. The Plant Asarco did, on the other hand, present extensive evidence about contamination at the Plant and its potential migration to the USIBWC Site. As a result, the Court will address each element of Asarco’s prima facie case in turn. a. CEMEX, Inc. is a responsible person with respect to the Plant, a facility from which there was a release of arsenic. As discussed above, CEMEX, Inc. is a successor in interest to SWPCC, which built and operated the Plant from 1910 to 1985. Parties’ Stip. Facts ¶¶ 6, 8, 10. While CEMEX, Inc. itself has never owned or operated the Plant, this fact is not relevant for purposes of CERCLA liability. HRW Sys., Inc. v. Wash. Gas Light Co., 823 F.Supp. 318, 329 (D.Md.1993). Rather, the question before the Court is whether the accrued CERCLA liability of SWPCC has been passed on to CEMEX, Inc. See id. Courts have unanimously held that successor liability applies in CERCLA contribution claims. See Cooke, supra, § 14.01[4][c][iii][B] (collecting cases). “ ‘In case of merger of one corporation into another, where one of the corporations ceases to exist and the other corporation continues in existence, the latter corporation is hable for the debts, contracts and torts of the former, at least to the extent of the property and assets received....’” Smith Land & Imp. Corp. v. Celotex Corp., 851 F.2d 86, 91 (3d Cir.1988) (quoting 15 W. Fletcher, Cyclopedia of the Law of Private Corporations § 7121, at 185 (rev. perm, ed.1983)). The record in this case indicates that SWPCC “merged into” Southdown, Inc, which later “changed its name” to CEMEX, Inc. Defs.’ Proposed Findings & Conclusions ¶¶ 4-5. As such, CEMEX, Inc. is the corporate entity responsible for any CERCLA liability accrued by SWPCC and Southdown at the Plant. CERCLA § 107(a)(2) extends liability-to former owners or operators of a facility, designating as a responsible’person “any person who at the time of disposal of any hazardous substance owned or operated any facility at which such hazardous substances were disposed of.” 42 U.S.C. § 9607(a)(2). The Court finds overwhelming evidence that materials containing arsenic—a hazardous substance pursuant to CERCLA, see 42 U.S.C. § 9601(14)(B); 40 C.F.R. § 302.4 — were present on the Plant property at the time of SWPCC’s ownership. Stanley Jobe, who leased a portion of the property from 1994 to 1996, testified that he was aware of “extensive contamination” there, Trial Tr. vol. II, at 49-51, and decided not to purchase the property in 1996 or 1998 in part because of its environmental conditions, id. at 83, 88; see Pl.’s Ex. 56 (1996 letter from Jobe to Southdown regarding possible purchase of the Plant). In addition, the 1989 Raba-Kistner Report identified the extensive presence of dust created by the cement-making process throughout the Plant. Pl.’s Ex. 52, at P-52-5-P-52-9. While it is not likely that all of the dust on the property was CKD, it is likely that at least some was. The Court reaches this conclusion as a result of Ketterer’s testimony on this point, see supra Part I.B.1.b, and because CEMEX failed to .provide any evidence recording or describing SWPCC’s CKD recycling or disposal practices, see Trial Tr. vol. II, at 81 (testimony of Jobe that he does not recall seeing any records of disposal or hazardous-waste manifests for CKD at the Plant). Further, it is undisputed that CKD contains arsenic. See Trial Tr. vol. IV, at 58; Trial Tr. vol. V, at 67. Because arsenic is present on the Plant property, the Plant is a facility as defined by CERCLA. See 42 U.S.C. § 9601(9) (defining “facility” as “any site or area where a hazardous substance has ... come to be located”). Further, because the arsenic-containing CKD originated in the cement-making process — a process that occurred from 1910 to 1985, while SWPCC owned and operated the Plant — -SWPCC was the owner and operator of the Plant at the time of arsenic’s disposal there. Finally, the disposal of arsenic on the Plant property also constitutes the release of arsenic from the Plant. See 42 U.S.C. § 9601(22) (including “disposing” in the definition of “release”); Uniroyal Chem. Co. v. Deltech Corp., 160 F.3d 238, 245 & n. 10 (5th Cir.1998) (finding that CERCLA’s definition of “release” “reach[es] well beyond the mere act of disposal”). As a result, SWPCC — and therefore CEMEX, Inc. — is a responsible person with respect to the Plant, a facility from which the release of a hazardous substance occurred. b. It is plausible that arsenic from CKD at the Plant migrated to the USIBWC Site. As a general matter, the Court credits the testimony of Asarco’s experts, Ketterer and Ames, regardi