FREEPORT-MCMORAN INC - Annual Report: 2018 (Form 10-K)
UNITED STATES | ||
SECURITIES AND EXCHANGE COMMISSION | ||
Washington, D.C. 20549 | ||
FORM 10-K | ||
(Mark One) | ||
[X] ANNUAL REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 | ||
For the fiscal year ended December 31, 2018 | ||
OR | ||
[ ] TRANSITION REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 | ||
For the transition period from | to | |
Commission File Number: 001-11307-01 |

Freeport-McMoRan Inc. | ||
(Exact name of registrant as specified in its charter) |
Delaware | 74-2480931 |
(State or other jurisdiction of incorporation or organization) | (I.R.S. Employer Identification No.) |
333 North Central Avenue | |
Phoenix, Arizona | 85004-2189 |
(Address of principal executive offices) | (Zip Code) |
(602) 366-8100 | |
(Registrant’s telephone number, including area code) |
Securities registered pursuant to Section 12(b) of the Act:
Title of each class | Name of each exchange on which registered | |
Common Stock, par value $0.10 per share | New York Stock Exchange |
Securities registered pursuant to Section 12(g) of the Act: None
Indicate by check mark if the registrant is a well-known seasoned issuer, as defined in Rule 405 of the Securities Act þ Yes o No
Indicate by check mark if the registrant is not required to file reports pursuant to Section 13 or Section 15(d) of the Act. o Yes þ No
Indicate by check mark whether the registrant (1) has filed all reports required to be filed by Section 13 or 15(d) of the Securities Exchange Act of 1934 during the preceding 12 months (or for such shorter period that the registrant was required to file such reports), and (2) has been subject to such filing requirements for the past 90 days. þ Yes o No
Indicate by check mark whether the registrant has submitted electronically every Interactive Data File required to be submitted pursuant to Rule 405 of Regulation S-T (§ 232.405 of this chapter) during the preceding 12 months (or for such shorter period that the registrant was required to submit such files). þ Yes o No
Indicate by check mark if disclosure of delinquent filers pursuant to Item 405 of Regulation S-K (§229.405 of this chapter) is not contained herein, and will not be contained, to the best of the registrant’s knowledge, in definitive proxy or information statements incorporated by reference in Part III of this Form 10-K or any amendment to this Form 10-K. þ
Indicate by check mark whether the registrant is a large accelerated filer, an accelerated filer, a non-accelerated filer, a smaller reporting company, or an emerging growth company. See the definitions of “large accelerated filer,” “accelerated filer,” “smaller reporting company,” and “emerging growth company” in Rule 12b-2 of the Exchange Act.
þ Large accelerated filer o Accelerated filer o Non-accelerated filer o Smaller reporting company o Emerging growth company
If an emerging growth company, indicate by check mark if the registrant has elected not to use the extended transition period for complying with any new or revised financial accounting standards provided pursuant to Section 13(a) of the Exchange Act. o
Indicate by check mark whether the registrant is a shell company (as defined in Rule 12b-2 of the Act). o Yes þ No
The aggregate market value of common stock held by non-affiliates of the registrant was $22.4 billion on June 30, 2018.
Common stock issued and outstanding was 1,449,058,885 shares on January 31, 2019, and 1,448,998,940 shares on June 30, 2018.
DOCUMENTS INCORPORATED BY REFERENCE
Portions of our proxy statement for our 2019 annual meeting of stockholders are incorporated by reference into Part III (Items 10, 11, 12, 13 and 14) of this report. |
FREEPORT-McMoRan INC.
TABLE OF CONTENTS | |
Page | |
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PART I
Items 1. and 2. Business and Properties.
All of our periodic reports filed with the United States (U.S.) Securities and Exchange Commission (SEC) pursuant to Section 13(a) or 15(d) of the Securities Exchange Act of 1934, as amended, are available, free of charge, through our website, www.fcx.com, including our annual reports on Form 10-K, quarterly reports on Form 10-Q, current reports on Form 8-K and any amendments to those reports. These reports and amendments are available through our website as soon as reasonably practicable after we electronically file or furnish such material to the SEC.
References to “we,” “us” and “our” refer to Freeport-McMoRan Inc. (FCX) and its consolidated subsidiaries. References to “Notes” refer to the Notes to Consolidated Financial Statements included herein (refer to Item 8), and references to “MD&A” refer to Management’s Discussion and Analysis of Financial Condition and Results of Operations included herein (refer to Item 7).
GENERAL
We are a leading international mining company with headquarters in Phoenix, Arizona. Our company was incorporated under the laws of the state of Delaware on November 10, 1987. We operate large, long-lived geographically diverse assets with significant proven and probable reserves of copper, gold and molybdenum, and we are the world’s largest publicly traded copper producer. Our portfolio of assets includes the Grasberg minerals district in Indonesia, one of the world’s largest copper and gold deposits; and significant mining operations in the Americas, including the large-scale Morenci minerals district in North America and the Cerro Verde operation in South America.
We believe that we have a high-quality portfolio of long-lived copper assets positioned to generate long-term value. We have commenced a project to develop the Lone Star oxide ores near the Safford operation in eastern Arizona, and PT Freeport Indonesia (PT-FI) has several projects in the Grasberg minerals district related to the development of its large-scale, long-lived, high-grade underground ore bodies. We are also pursuing other opportunities to enhance our mines’ net present values, and we continue to advance studies for future development of our copper resources, the timing of which will be dependent on market conditions.
On December 21, 2018, we completed the transaction with the Indonesian government regarding PT-FI’s long-term mining rights and share ownership. We expect our share of future cash flows of the expanded PT-FI asset base, combined with the cash proceeds received in the transaction, to be comparable to our share of anticipated future cash flows under PT-FI’s former Contract of Work (COW) and joint venture arrangements with Rio Tinto plc (Rio Tinto Joint Venture).
As a result of the transaction, PT Indonesia Asahan Aluminium’s (Persero) (PT Inalum), an Indonesian state-owned enterprise, and PT Indonesia Papua Metal Dan Mineral’s (PTI - formerly known as PT Indocopper Investama) collective share ownership of PT-FI totals 51.24 percent and our share ownership is 48.76 percent. The arrangements provide for us and the other pre-transaction PT-FI shareholders to retain the economics of the revenue and cost sharing arrangements under the former Rio Tinto Joint Venture. As a result, our economic interest in PT-FI, including our share of PT-FI's net income, is expected to approximate 81 percent from 2019 through 2022. Refer to Note 2 for further discussion of the PT-FI divestment transaction.
We, PT-FI, PTI and PT Inalum also entered into a shareholders agreement at closing, which includes provisions related to the governance and management of PT-FI, and establishes our control over the management of PT-FI's operations. Concurrent with closing the transaction, the Indonesian government granted PT-FI a new special mining license (IUPK) to replace its former COW, enabling PT-FI to conduct operations in the Grasberg minerals district through 2041. Under the terms of the IUPK, PT-FI has been granted an extension of mining rights through 2031, with rights to extend mining rights through 2041, subject to PT-FI completing the construction of a new smelter in Indonesia within five years of closing the transaction and fulfilling its defined fiscal obligations to the Indonesian government. Refer to Note 13 and Item 1A. “Risk Factors” for further discussion of PT-FI’s IUPK.
During the three years ended December 31, 2018, we have taken actions to restore our balance sheet strength through a combination of asset sale and capital market transactions, which primarily occurred during 2016. Refer to Notes 2 and 10 for further discussion of these transactions. These actions, combined with cash flow from operations, resulted in net reductions of debt totaling $9.3 billion during the three years ended December 31, 2018.
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Following are our ownership interests at December 31, 2018, in operating mines through our subsidiaries, Freeport Minerals Corporation (FMC) and PT-FI:

a. | Prior to December 21, 2018, we owned 90.64 percent of PT-FI and PT-FI had an unincorporated joint venture with Rio Tinto. Refer to Note 2 for further discussion of the PT-FI divestment transaction and Note 3 for discussion of the former Rio Tinto Joint Venture. |
b. | FMC has a 72 percent undivided interest in Morenci via an unincorporated joint venture. Refer to Note 3 for further discussion. |
At December 31, 2018, our estimated consolidated recoverable proven and probable mineral reserves totaled 119.6 billion pounds of copper, 30.8 million ounces of gold and 3.78 billion pounds of molybdenum. Following is a summary of our estimated consolidated recoverable proven and probable mineral reserves at December 31, 2018, by geographic location (refer to “Mining Operations” for further discussion):
Copper | Gold | Molybdenum | ||||||||
North America | 42 | % | 2 | % | 81 | % | a | |||
South America | 28 | — | 19 | |||||||
Indonesia | 30 | 98 | — | |||||||
100 | % | 100 | % | 100 | % |
a. | Our Henderson and Climax molybdenum mines contain 20 percent of our estimated consolidated recoverable proven and probable molybdenum reserves, and our North America copper mines contain 61 percent. |
In North America, we operate seven copper mines - Morenci, Bagdad, Safford, Sierrita and Miami in Arizona, and Chino and Tyrone in New Mexico, and two molybdenum mines - Henderson and Climax in Colorado. In addition to copper, certain of our North America copper mines also produce molybdenum concentrate, gold and silver. In South America, we operate two copper mines - Cerro Verde in Peru and El Abra in Chile. In addition to copper, the Cerro Verde mine also produces molybdenum concentrate and silver. In Indonesia, PT-FI operates in the Grasberg minerals district. In addition to copper, the Grasberg minerals district also produces gold and silver.
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Following is a summary of the geographic location of our consolidated copper, gold and molybdenum production for the year 2018 (refer to “Mining Operations” for further information):
Copper | Gold | Molybdenum | |||||||
North America | 37 | % | 1 | % | 71 | % | a | ||
South America | 33 | — | 29 | ||||||
Indonesia | 30 | 99 | — | ||||||
100 | % | 100 | % | 100 | % |
a. | Our Henderson and Climax molybdenum mines produced 37 percent of our consolidated molybdenum production, and our North America copper mines produced 34 percent. |
The geographic locations of our operating mines are shown on the world map below. 

COPPER, GOLD AND MOLYBDENUM
Following is a brief discussion of our primary natural resources – copper, gold and molybdenum. For further discussion of historical and current market prices of these commodities, refer to MD&A and Item 1A. “Risk Factors.”
Copper
Copper is an internationally traded commodity, and its prices are determined by the major metals exchanges – the London Metal Exchange (LME), New York Mercantile Exchange (NYMEX) and Shanghai Futures Exchange. Prices on these exchanges generally reflect the worldwide balance of copper supply and demand, and can be volatile and cyclical. During 2018, the LME copper settlement price averaged $2.96 per pound, ranging from a low of $2.64 per pound to a high of $3.29 per pound, and was $2.71 per pound at December 31, 2018.
In general, demand for copper reflects the rate of underlying world economic growth, particularly in industrial production and construction. According to Wood Mackenzie, a widely followed independent metals market consultant, copper’s end-use markets (and their estimated shares of total consumption) are construction (30 percent), consumer products (25 percent), electrical applications (24 percent), transportation (11 percent) and industrial machinery (10 percent). We believe copper will continue to be essential in these basic uses as well as contribute significantly to new technologies for energy efficiencies, to advance communications and to enhance public health. Examples of areas we believe will require additional copper in the future include: (i) high efficiency motors, which consume up to 75 percent more copper than a standard motor; (ii) electric vehicles, which consume up to four times the amount of copper in terms of weight compared to vehicles of similar size with an internal combustion engine, and require copper-intensive charging station infrastructure to refuel; and (iii) renewable energy such as wind and solar, which consume four to five times the amount of copper compared to traditional fossil fuel generated power.
3
Gold
Gold is used for jewelry, coinage and bullion as well as various industrial and electronic applications. Gold can be readily sold on numerous markets throughout the world. Benchmark prices are generally based on London Bullion Market Association (London) quotations. During 2018, the London PM gold price averaged $1,268 per ounce, ranging from a low of $1,178 per ounce to a high of $1,355 per ounce, and was $1,279 per ounce on December 28, 2018 (there was no London PM gold price quote on December 31, 2018).
Molybdenum
Molybdenum is a key alloying element in steel and the raw material for several chemical-grade products used in catalysts, lubrication, smoke suppression, corrosion inhibition and pigmentation. Molybdenum, as a high-purity metal, is also used in electronics such as flat-panel displays and in super alloys used in aerospace. Reference prices for molybdenum are available in several publications, including Metals Week, CRU Report and Metal Bulletin. During 2018, the weekly average price of molybdenum quoted by Metals Week averaged $11.93 per pound, ranging from a low of $10.67 per pound to a high of $12.97 per pound, and was $11.88 per pound at December 31, 2018.
PRODUCTS AND SALES
Our consolidated revenues for 2018 primarily included sales of copper (75 percent), gold (17 percent) and molybdenum (6 percent). Copper concentrate sales to PT Smelting (PT-FI’s 25-percent-owned copper smelter and refinery in Indonesia) totaled 12 percent of our consolidated revenues for the years ended December 31, 2018 and 2017, which is the only customer that accounted for 10 percent or more of our consolidated revenues during the three years ended December 31, 2018. Refer to Note 16 for a summary of our consolidated revenues and operating income (loss) by business segment and geographic area.
Copper Products
We are one of the world’s leading producers of copper concentrate, cathode and continuous cast copper rod. During 2018, 59 percent of our mined copper was sold in concentrate, 21 percent as cathode and 20 percent as rod from our North America operations. The copper ore from our mines is generally processed either by smelting and refining or by solution extraction and electrowinning (SX/EW) as described below.
Copper Concentrate. We produce copper concentrate at six of our mines in which mined ore is crushed and treated to produce a copper concentrate with copper content of approximately 20 to 30 percent. In North America, copper concentrate is produced at the Morenci, Bagdad, Sierrita and Chino mines, and a significant portion is shipped to our Miami smelter in Arizona for further processing. Copper concentrate is also produced at the Cerro Verde mine in Peru and the Grasberg minerals district in Indonesia.
Copper Cathode. We produce copper cathode at our electrolytic refinery located in El Paso, Texas, and at nine of our mines.
SX/EW cathode is produced from the Morenci, Bagdad, Safford, Sierrita, Miami, Chino and Tyrone mines in North America, and from the Cerro Verde and El Abra mines in South America. For ore subject to the SX/EW process, the ore is placed on stockpiles and copper is extracted from the ore by dissolving it with a weak sulphuric acid solution. The copper content of the solution is increased in two additional SX stages, and then the copper-bearing solution undergoes an EW process to produce cathode that is, on average, 99.99 percent copper. Our copper cathode is used as the raw material input for copper rod, brass mill products and for other uses.
Copper cathode is also produced at Atlantic Copper (our wholly owned copper smelting and refining unit in Spain) and PT Smelting. Copper concentrate is smelted (i.e., subjected to extreme heat) to produce copper anode, which weighs between 800 and 900 pounds and has an average copper content of 99.5 percent. The anode is further treated by electrolytic refining to produce copper cathode, which weighs between 100 and 350 pounds and has an average copper content of 99.99 percent. Refer to “Mining Operations - Smelting Facilities and Other Mining Properties” for further discussion of Atlantic Copper and PT Smelting.
Continuous Cast Copper Rod. We manufacture continuous cast copper rod at our facilities in El Paso, Texas; Norwich, Connecticut; and Miami, Arizona, primarily using copper cathode produced at our North America copper mines.
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Copper Sales
North America. The majority of the copper produced at our North America copper mines and refined in our El Paso, Texas, refinery is consumed at our rod plants to produce copper rod which is sold to wire and cable manufacturers. The remainder of our North America copper production is sold in the form of copper cathode or copper concentrate under U.S. dollar-denominated annual contracts. Cathode and rod contract prices are generally based on the prevailing Commodity Exchange Inc. (COMEX - a division of NYMEX) monthly average settlement price for the month of shipment and include a premium. Generally, copper cathode is sold to rod, brass or tube fabricators. During 2018, 17 percent of our North America mines’ copper concentrate sales volumes were shipped to Atlantic Copper for smelting and refining and sold as copper anode and copper cathode.
South America. Production from our South America mines is sold as copper concentrate or copper cathode under U.S. dollar-denominated, annual and multi-year contracts. During 2018, our South America mines sold approximately 77 percent of their copper production in concentrate and 23 percent as cathode.
Substantially all of South America’s copper concentrate and cathode sales contracts provide final copper pricing in a specified future month (generally one to four months from the shipment date) primarily based on quoted LME monthly average settlement copper prices. Revenues from South America’s concentrate sales are recorded net of royalties and treatment charges (i.e., fees paid to smelters that are generally negotiated annually). In addition, because a portion of the metals contained in copper concentrate is unrecoverable from the smelting process, revenues from South America’s concentrate sales are also recorded net of allowances for unrecoverable metals, which are a negotiated term of the contracts and vary by customer.
Indonesia. PT-FI sells its production in the form of copper concentrate, which contains significant quantities of gold and silver, primarily under U.S. dollar-denominated, long-term contracts. PT-FI also sells a small amount of copper concentrate in the spot market. Following is a summary of PT-FI’s aggregate percentage of concentrate sales to unaffiliated third parties, PT Smelting and Atlantic Copper for the years ended December 31:
2018 | 2017 | 2016 | ||||||
Third parties | 60 | % | 54 | % | 56 | % | ||
PT Smelting | 38 | 46 | 42 | |||||
Atlantic Copper | 2 | — | 2 | |||||
100 | % | 100 | % | 100 | % |
Substantially all of PT-FI’s concentrate sales contracts provide final copper pricing in a specified future month (generally one to four months from the shipment date) primarily based on quoted LME monthly average settlement copper prices. Revenues from PT-FI’s concentrate sales are recorded net of royalties, export duties, treatment charges and allowances for unrecoverable metals.
Gold Products and Sales
We produce gold almost exclusively from the Grasberg minerals district. Gold is primarily sold as a component of our copper concentrate or in slimes, which are a product of the smelting and refining process at Atlantic Copper. Gold generally is priced at the average London price for a specified month near the month of shipment. Revenues from gold sold as a component of our copper concentrate are recorded net of treatment and refining charges, royalties, export duties and allowances for unrecoverable metals. Revenues from gold sold in slimes are recorded net of refining charges.
Molybdenum Products and Sales
We are the world’s largest producer of molybdenum and molybdenum-based chemicals. In addition to production from the Henderson and Climax molybdenum mines, we produce molybdenum concentrate at certain of the North America copper mines and the Cerro Verde copper mine in Peru. The majority of our molybdenum concentrate is processed in our own conversion facilities. Our molybdenum sales are primarily priced based on the average published Metals Week price for the month prior to the month of shipment.
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LABOR MATTERS
At December 31, 2018, we employed approximately 26,800 people (12,200 in North America, 7,100 in Indonesia, 6,100 in South America and 1,400 in Europe and other locations). We also had contractors that employ personnel at many of our operations, including approximately 23,400 at the Grasberg minerals district in Indonesia, 8,800 in North America, 5,900 at our South America mining operations and 700 in Europe and other locations. Employees represented by unions at December 31, 2018, are listed below, with the number of employees represented and the expiration date of the applicable union agreements:
Location | Number of Unions | Number of Union- Represented Employees | Expiration Date | |||
PT-FI – Indonesia | 2 | 5,010 | September 2019 | |||
Cerro Verde – Peru | 1 | 3,304 | August 2021 | |||
El Abra – Chile | 2 | 705 | April 2020 | |||
Atlantic Copper – Spain | 3 | 465 | December 2019 | a | ||
Kokkola - Finland | 3 | 418 | November 2020 | |||
Rotterdam – The Netherlands | 1 | 52 | September 2019 | |||
Kisanfu – Africa Exploration | 2 | 51 | N/A | b | ||
Stowmarket - United Kingdom | 1 | 42 | May 2020 |
a. | The Collective Labor Agreement between Atlantic Copper and its workers’ unions expired in December 2015, but was extended through December 2019 by mutual agreement of both parties in accordance with Spanish law. |
b. | The Collective Labor Agreement between Kisanfu and its unions has no expiration date, but can be amended at any time in accordance with an established process. |
Refer to Item 1A. “Risk Factors” for further information on labor matters.
ENVIRONMENTAL AND RECLAMATION MATTERS
The cost of complying with environmental laws and regulations is fundamental to and a substantial cost of our business. For information about environmental regulation, litigation and related costs, refer to Item 1A. “Risk Factors” and Notes 1 and 12.
COMPETITION
The top 10 producers of copper comprise approximately 45 percent of total worldwide mined copper production. We currently rank second among those producers, with approximately seven percent of estimated total worldwide mined copper production. Our competitive position is based on the size, quality and grade of our ore bodies and our ability to manage costs compared with other producers. We have a diverse portfolio of mining operations with varying ore grades and cost structures. Our costs are driven by the location, grade and nature of our ore bodies, and the level of input costs, including energy, labor and equipment. The metals markets are cyclical, and our ability to maintain our competitive position over the long term is based on our ability to acquire and develop quality deposits, hire and retain a skilled workforce, and to manage our costs.
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MINING OPERATIONS
Following are maps and descriptions of our mining operations in North America (including both copper and molybdenum operations), South America and Indonesia.
North America
In the U.S., most of the land occupied by our copper and molybdenum mines, concentrators, SX/EW facilities, smelter, refinery, rod mills, molybdenum roasters and processing facilities is owned by us or is located on unpatented mining claims owned by us. Certain portions of our Bagdad, Sierrita, Miami, Chino, Tyrone, Henderson and Climax operations are located on government-owned land and are operated under a Mine Plan of Operations or other use permit. We hold various federal and state permits or leases on government land for purposes incidental to mine operations.
Morenci

We own a 72 percent undivided interest in Morenci, with the remaining 28 percent owned by Sumitomo Metal Mining Arizona, Inc. (15 percent) and SMM Morenci, Inc. (13 percent). Each partner takes in kind its share of Morenci’s production.
Morenci is an open-pit copper mining complex that has been in continuous operation since 1939 and previously was mined through underground workings. Morenci is located in Greenlee County, Arizona, approximately 50 miles northeast of Safford on U.S. Highway 191. The site is accessible by a paved highway and a railway spur.
The Morenci mine is a porphyry copper deposit that has oxide, secondary sulfide and primary sulfide mineralization. The predominant oxide copper mineral is chrysocolla. Chalcocite is the most important secondary copper sulfide mineral, with chalcopyrite as the dominant primary copper sulfide.
The Morenci operation consists of two concentrators capable of milling 115,000 metric tons of ore per day, which produce copper and molybdenum concentrate; a 68,000 metric ton-per-day, crushed-ore leach pad and stacking system; a low-grade run-of-mine (ROM) leaching system; four SX plants; and three EW tank houses that produce copper cathode. Total EW tank house capacity is approximately 900 million pounds of copper per year. Morenci’s available mining fleet consists of one hundred and twenty-six 236-metric ton haul trucks loaded by 13 shovels with bucket sizes ranging from 47 to 57 cubic meters, which are capable of moving an average of 815,000 metric tons of material per day.
Morenci’s production, including our joint venture partner’s share, totaled 1.0 billion pounds of copper and 9 million pounds of molybdenum in 2018, 1.0 billion pounds of copper and 12 million pounds of molybdenum in 2017, and 1.1 billion pounds of copper and 15 million pounds of molybdenum in 2016.
Morenci is located in a desert environment with rainfall averaging 13 inches per year. The highest bench elevation is 2,000 meters above sea level, and the ultimate pit bottom is expected to have an elevation of 840 meters above sea level. The Morenci operation encompasses approximately 73,950 acres, comprising 51,150 acres of patented mining claims and other fee lands, 20,050 acres of unpatented mining claims held on public land and 2,750 acres of land held by state or federal permits, easements and rights-of-way.
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The Morenci operation’s electrical power is primarily sourced from Tucson Electric Power Company, Arizona Public Service Company and the Luna Energy facility in Deming, New Mexico. Although we believe the Morenci operation has sufficient water sources to support current operations, we are a party to litigation that may impact our water right claims or rights to continued use of currently available water supplies, which could adversely affect our water supply for the Morenci operation. Refer to Item 1A. “Risk Factors” and Item 3. “Legal Proceedings” for further discussion.
Bagdad

Our wholly owned Bagdad mine is an open-pit copper and molybdenum mining complex located in Yavapai County in west-central Arizona. It is approximately 60 miles west of Prescott and 100 miles northwest of Phoenix. The property can be reached by Arizona Highway 96, which ends at the town of Bagdad. The closest railroad is at Hillside, Arizona, 24 miles southeast on Arizona Highway 96. The open-pit mining operation has been ongoing since 1945, and prior mining was conducted through underground workings.
The Bagdad mine is a porphyry copper deposit containing both sulfide and oxide mineralization. Chalcopyrite and molybdenite are the dominant primary sulfides and are the primary economic minerals in the mine. Chalcocite is the most common secondary copper sulfide mineral, and the predominant oxide copper minerals are chrysocolla, malachite and azurite.
The Bagdad operation consists of a 75,000 metric ton-per-day concentrator that produces copper and molybdenum concentrate, an SX/EW plant that can produce up to 32 million pounds per year of copper cathode from solution generated by low-grade stockpile leaching, and a pressure-leach plant to process molybdenum concentrate. The available mining fleet consists of thirty 235-metric ton haul trucks loaded by five shovels with bucket sizes ranging from 30 to 48 cubic meters, which are capable of moving an average of 250,000 metric tons of material per day.
Bagdad’s production totaled 199 million pounds of copper and 10 million pounds of molybdenum in 2018, 173 million pounds of copper and 9 million pounds of molybdenum in 2017, and 177 million pounds of copper and 8 million pounds of molybdenum in 2016.
Bagdad is located in a desert environment with rainfall averaging 15 inches per year. The highest bench elevation is 1,200 meters above sea level, and the ultimate pit bottom is expected to be 310 meters above sea level. The Bagdad operation encompasses approximately 21,750 acres, comprising 21,150 acres of patented mining claims and other fee lands and 600 acres of unpatented mining claims.
Bagdad receives electrical power from Arizona Public Service Company. We believe the Bagdad operation has sufficient water sources to support current operations.
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Safford

Our wholly owned Safford mine has been in operation since 2007 and is an open-pit copper mining complex located in Graham County, Arizona, 8 miles north of the town of Safford and 170 miles east of Phoenix. The site is accessible by paved county road off U.S. Highway 70.
The Safford mine includes two copper deposits that have oxide mineralization overlaying primary copper sulfide mineralization. The predominant oxide copper minerals are chrysocolla and copper-bearing iron oxides with the predominant copper sulfide material being chalcopyrite.
The property is a mine-for-leach project and produces copper cathode. The operation consists of two open pits feeding a crushing facility with a capacity of 103,000 metric tons per day. The crushed ore is delivered to leach pads by a series of overland and portable conveyors. Leach solutions feed a SX/EW facility with a capacity of 240 million pounds of copper per year. A sulfur burner plant is also in operation at Safford, providing a cost-effective source of sulphuric acid used in SX/EW operations. The available mining fleet consists of thirty-three 235-metric ton haul trucks loaded by six shovels with bucket sizes ranging from 34 to 47 cubic meters, which are capable of moving an average of 340,000 metric tons of material per day.
Safford’s copper production totaled 123 million pounds in 2018, 150 million pounds in 2017 and 230 million pounds in 2016.
Through exploration drilling, we have identified a significant resource at our wholly owned Lone Star project located near the Safford operation. An initial project to develop the Lone Star oxide ores commenced in first-quarter 2018, with first production expected by the end of 2020. Initial production from the Lone Star oxide ores is expected to average approximately 200 million pounds of copper per year. Total capital costs, including mine equipment and pre-production stripping, are expected to approximate $850 million and will benefit from the utilization of existing infrastructure at the adjacent Safford operation. As of December 31, 2018, approximately $290 million has been incurred for this project. The project also advances exposure to a significant sulfide resource. We expect to incorporate recent positive drilling and ongoing results in our future development plans.
Safford is located in a desert environment with rainfall averaging 10 inches per year. The highest bench elevation is 1,768 meters above sea level, and the ultimate pit bottom is expected to have an elevation of 808 meters above sea level. The Safford operation encompasses approximately 125,000 acres, comprising 36,000 acres of patented lands, 73,000 acres of unpatented lands and 16,000 acres of land held by federal permit.
The Safford operation’s electrical power is primarily sourced from Tucson Electric Power Company, Arizona Public Service Company and the Luna Energy facility. Although we believe the Safford operation has sufficient water sources to support current operations as well as the Lone Star project, we are a party to litigation that may impact our water right claims or rights to continued use of currently available water supplies, which could adversely affect our water supply for the Safford operation. Refer to Item 1A. “Risk Factors” and Item 3. “Legal Proceedings” for further discussion.
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Sierrita

Our wholly owned Sierrita mine has been in operation since 1959 and is an open-pit copper and molybdenum mining complex located in Pima County, Arizona, approximately 20 miles southwest of Tucson and 7 miles west of the town of Green Valley and Interstate Highway 19. The site is accessible by a paved highway and by rail.
The Sierrita mine is a porphyry copper deposit that has oxide, secondary sulfide and primary sulfide mineralization. The predominant oxide copper minerals are malachite, azurite and chrysocolla. Chalcocite is the most important secondary copper sulfide mineral, and chalcopyrite and molybdenite are the dominant primary sulfides.
The Sierrita operation includes a 100,000 metric ton-per-day concentrator that produces copper and molybdenum concentrate. Sierrita also produces copper from a ROM oxide-leaching system. Cathode copper is plated at the Twin Buttes EW facility, which has a design capacity of approximately 50 million pounds of copper per year. The Sierrita operation also has molybdenum facilities consisting of a leaching circuit, two molybdenum roasters and a packaging facility. The molybdenum facilities process molybdenum concentrate produced by Sierrita, from our other mines and from third-party sources. The available mining fleet consists of twenty-two 235-metric ton haul trucks loaded by three shovels with bucket sizes ranging from 34 to 56 cubic meters, which are capable of moving an average of 175,000 metric tons of material per day.
Sierrita’s production totaled 152 million pounds of copper and 16 million pounds of molybdenum in 2018, 160 million pounds of copper and 15 million pounds of molybdenum in 2017, and 162 million pounds of copper and 14 million pounds of molybdenum in 2016.
Sierrita is located in a desert environment with rainfall averaging 12 inches per year. The highest bench elevation is 1,160 meters above sea level, and the ultimate pit bottom is expected to be 440 meters above sea level. The Sierrita operation, including the adjacent Twin Buttes site (refer to “Smelting Facilities and Other Mining Properties” for further discussion), encompasses approximately 37,650 acres, comprising 13,300 acres of patented mining claims and 24,350 acres of split-estate lands.
Sierrita receives electrical power through long-term contracts with the Tucson Electric Power Company. Although we believe the Sierrita operation has sufficient water sources to support current operations, we are a party to litigation that may impact our water rights claims or rights to continued use of currently available water supplies, which could adversely affect our water supply for the Sierrita operation. Refer to Item 1A. “Risk Factors” and Item 3. “Legal Proceedings” for further discussion.
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Miami

Our wholly owned Miami mine is an open-pit copper mining complex located in Gila County, Arizona, 90 miles east of Phoenix and 6 miles west of the city of Globe on U.S. Highway 60. The site is accessible by a paved highway and by rail.
The Miami mine is a porphyry copper deposit that has leachable oxide and secondary sulfide mineralization. The predominant oxide copper minerals are chrysocolla, copper-bearing clays, malachite and azurite. Chalcocite and covellite are the most important secondary copper sulfide minerals.
Since about 1915, the Miami mining operation had processed copper ore using both flotation and leaching technologies. The design capacity of the SX/EW plant is 200 million pounds of copper per year. Miami is no longer mining ore, but currently produces copper through leaching material already placed on stockpiles, which is expected to continue until 2023. Miami’s copper production totaled 16 million pounds in 2018, 19 million pounds in 2017 and 25 million pounds in 2016.
Miami is located in a desert environment with rainfall averaging 18 inches per year. The highest bench elevation is 1,390 meters above sea level, and mining advanced the pit bottom to an elevation of 810 meters above sea level. Subsequent sloughing of material into the pit has filled it back to an elevation estimated to be 900 meters above sea level. The Miami operation encompasses approximately 9,100 acres, comprising 8,750 acres of patented mining claims and other fee lands and 350 acres of unpatented mining claims.
Miami receives electrical power through long-term contracts with the Salt River Project and natural gas through long-term contracts with El Paso Natural Gas as the transporter. We believe the Miami operation has sufficient water sources to support current operations.
Chino and Tyrone

Chino
Our wholly owned Chino mine is an open-pit copper mining complex located in Grant County, New Mexico, approximately 15 miles east of the town of Silver City off of State Highway 180. The mine is accessible by paved roads and by rail. Chino has been in operation since 1910.
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The Chino mine is a porphyry copper deposit with adjacent copper skarn deposits. There is leachable oxide, secondary sulfide and millable primary sulfide mineralization. The predominant oxide copper mineral is chrysocolla. Chalcocite is the most important secondary copper sulfide mineral, and chalcopyrite and molybdenite the dominant primary sulfides.
The Chino operation consists of a 36,000 metric ton-per-day concentrator that produces copper and molybdenum concentrate, and a 150 million pound-per-year SX/EW plant that produces copper cathode from solution generated by ROM leaching. The available mining fleet consists of thirty-seven 240-metric ton haul trucks loaded by four shovels with bucket sizes ranging from 31 to 48 cubic meters, which are capable of moving an average of 235,000 metric tons of material per day.
Chino’s copper production totaled 173 million pounds in 2018, 215 million pounds in 2017 and 308 million pounds in 2016.
Chino is located in a desert environment with rainfall averaging 16 inches per year. The highest bench elevation is 2,250 meters above sea level, and the ultimate pit bottom is expected to be 1,460 meters above sea level. The Chino operation encompasses approximately 118,600 acres, comprising 113,200 acres of patented mining claims and other fee lands and 5,400 acres of unpatented mining claims.
Chino receives power from the Luna Energy facility and from the open market. We believe Chino has sufficient water resources to support current operations. Refer to Item 1A. “Risk Factors” for discussion of risks associated with recently proposed legislation in New Mexico related to water quality standards.
Tyrone
Our wholly owned Tyrone mine is an open-pit copper mining complex which has been in operation since 1967. It is located in Grant County, New Mexico, 10 miles south of Silver City, New Mexico, along State Highway 90. The site is accessible by paved road and by rail.
The Tyrone mine is a porphyry copper deposit. Mineralization is predominantly secondary sulfide consisting of chalcocite, with leachable oxide mineralization consisting of chrysocolla.
Copper processing facilities consist of a SX/EW operation with a maximum capacity of approximately 100 million pounds of copper cathode per year. The available mining fleet consists of seven 240-metric ton haul trucks loaded by one shovel with a bucket size of 47 cubic meters, which is capable of moving an average of 49,000 metric tons of material per day.
Tyrone’s copper production totaled 55 million pounds in 2018, 61 million pounds in 2017 and 76 million pounds in 2016.
Tyrone is located in a desert environment with rainfall averaging 16 inches per year. The highest bench elevation is 2,000 meters above sea level, and the ultimate pit bottom is expected to have an elevation of 1,475 meters above sea level. The Tyrone operation encompasses approximately 35,200 acres, comprising 18,750 acres of patented mining claims and other fee lands and 16,450 acres of unpatented mining claims.
Tyrone receives electrical power from the Luna Energy facility and from the open market. We believe the Tyrone operation has sufficient water resources to support current operations. Refer to Item 1A. “Risk Factors” for discussion of risks associated with recently proposed legislation in New Mexico related to water quality standards.
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Henderson and Climax

Henderson
Our wholly owned Henderson molybdenum mine has been in operation since 1976 and is located 42 miles west of Denver, Colorado, off U.S. Highway 40. Nearby communities include the towns of Empire, Georgetown and Idaho Springs. The Henderson mill site is located 15 miles west of the mine and is accessible from Colorado State Highway 9. The Henderson mine and mill are connected by a 10-mile conveyor tunnel under the Continental Divide and an additional five-mile surface conveyor. The tunnel portal is located five miles east of the mill.
The Henderson mine is a porphyry molybdenum deposit, with molybdenite as the primary sulfide mineral.
The Henderson operation consists of a large block-cave underground mining complex feeding a concentrator with a current capacity of approximately 32,000 metric tons per day. Henderson has the capacity to produce approximately 18 million pounds of molybdenum per year. The majority of the molybdenum concentrate produced is shipped to our Fort Madison, Iowa, processing facility. The available underground mining equipment fleet consists of fourteen 9-metric ton load-haul-dump (LHD) units and seven 73-metric ton haul trucks, which deliver ore to a gyratory crusher feeding a series of three overland conveyors to the mill stockpiles.
Henderson’s molybdenum production totaled 14 million pounds in 2018, 12 million pounds in 2017 and 10 million pounds in 2016.
The Henderson mine is located in a mountainous region with the main access shaft at 3,180 meters above sea level. The main production levels are currently at elevations of 2,200 and 2,350 meters above sea level. This region experiences significant snowfall during the winter months.
The Henderson mine and mill operations encompass approximately 11,900 acres, comprising 11,850 acres of patented mining claims and other fee lands and a 50-acre easement with the U.S. Forest Service for the surface portion of the conveyor corridor.
Henderson operations receive electrical power through long-term contracts with Xcel Energy and natural gas through long-term contracts with BP Energy Company (with Xcel Energy as the transporter). We believe the Henderson operation has sufficient water resources to support current operations. Refer to Item 1A. “Risk Factors” for discussion of risks associated with recently proposed legislation in Colorado related to water quality standards.
Climax
Our wholly owned Climax mine is located 13 miles northeast of Leadville, Colorado, off Colorado State Highway 91 at the top of Fremont Pass. The mine is accessible by paved roads.
The Climax ore body is a porphyry molybdenum deposit, with molybdenite as the primary sulfide mineral.
The Climax open-pit mine includes a 25,000 metric ton-per-day mill facility. Climax has the capacity to produce approximately 30 million pounds of molybdenum per year. The available mining fleet consists of ten 177-metric ton haul trucks loaded by two hydraulic shovels with bucket sizes of 34 cubic meters, which are capable of moving an average of 90,000 metric tons of material per day.
Molybdenum production from Climax totaled 21 million pounds in 2018, 20 million pounds in 2017 and 16 million pounds in 2016.
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The Climax mine is located in a mountainous region. The highest bench elevation is approximately 4,050 meters above sea level, and the ultimate pit bottom is expected to have an elevation of approximately 3,100 meters above sea level. This region experiences significant snowfall during the winter months.
The operations encompass approximately 14,350 acres, consisting primarily of patented mining claims and other fee lands.
Climax operations receive electrical power through long-term contracts with Xcel Energy and natural gas through long-term contracts with Anadarko Energy and BP Energy Company (with Xcel Energy as the transporter). We believe the Climax operation has sufficient water resources to support current operations. Refer to Item 1A. “Risk Factors” for discussion of risks associated with recently proposed legislation in Colorado related to water quality standards.
South America
At our operations in South America, mine properties and facilities are controlled through mining claims or concessions under the general mining laws of the relevant country. The claims or concessions are owned or controlled by the operating companies in which we or our subsidiaries have a controlling ownership interest. Roads, power lines and aqueducts are controlled by easements.
Cerro Verde

We have a 53.56 percent ownership interest in Cerro Verde, with the remaining 46.44 percent held by SMM Cerro Verde Netherlands B.V. (21.0 percent), Compañia de Minas Buenaventura S.A.A. (19.58 percent) and other stockholders whose shares are publicly traded on the Lima Stock Exchange (5.86 percent).
Cerro Verde is an open-pit copper and molybdenum mining complex that has been in operation since 1976 and is located 20 miles southwest of Arequipa, Peru. The site is accessible by paved highway. Cerro Verde’s copper cathode and concentrate production that is not sold locally is transported approximately 70 miles by truck and by rail to the Port of Matarani for shipment to international markets.
The Cerro Verde mine is a porphyry copper deposit that has oxide, secondary sulfide and primary sulfide mineralization. The predominant oxide copper minerals are brochantite, chrysocolla, malachite and copper “pitch.” Chalcocite and covellite are the most important secondary copper sulfide minerals. Chalcopyrite and molybdenite are the dominant primary sulfides.
Cerro Verde’s operations benefit from its large-scale, long-lived reserves and cost efficiencies. During 2018, Cerro Verde received a modified environmental permit allowing it to operate its existing concentrator facilities at rates up to 409,500 metric tons of ore per day.
Cerro Verde’s operation consists of an open-pit copper mine, a 409,500 metric ton-per-day concentrator, and SX/EW leaching facilities. Leach copper production is derived from a 39,000 metric ton-per-day crushed leach facility and a 100,000 metric ton-per-day ROM leach system. This SX/EW leaching operation has a capacity of approximately 200 million pounds of copper per year.
The available fleet consists of thirty-four 290-metric ton haul trucks and ninety-three 230-metric ton haul trucks loaded by twelve electric shovels with bucket sizes ranging in size from 33 to 57 cubic meters and two hydraulic
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shovels with a bucket size of 21 cubic meters. This fleet is capable of moving an average of approximately 975,000 metric tons of material per day.
Cerro Verde’s production totaled 1.0 billion pounds of copper and 28 million pounds of molybdenum in 2018, 1.1 billion pounds of copper and 27 million pounds of molybdenum in 2017, and 1.1 billion pounds of copper and 21 million pounds of molybdenum in 2016.
Cerro Verde is located in a desert environment with rainfall averaging 1.5 inches per year and is in an active seismic zone. The highest bench elevation is 2,750 meters above sea level, and the ultimate pit bottom is expected to be 1,553 meters above sea level. The Peruvian general mining law and Cerro Verde’s mining stability agreement grant the surface rights of mining concessions located on government land. Additional government land, if obtained after 1997, must be leased or purchased. Cerro Verde has a mining concession covering approximately 182,000 acres, including access to 14,600 acres granted through an easement from the Regional Government of Arequipa, plus 144 acres of owned property, and 367 acres of rights-of-way outside the mining concession area.
Cerro Verde receives electrical power, including hydro-generated power, under long-term contracts with Kallpa Generación SA, ElectroPeru and Engie Energia Peru S.A.
Water for our Cerro Verde processing operations comes from renewable sources through a series of storage reservoirs on the Rio Chili watershed that collect water primarily from seasonal precipitation. We believe the Cerro Verde operation has sufficient water resources to support current operations. For further discussion of risks associated with the availability of water, see Item 1A. “Risk Factors.”
El Abra

We own a 51 percent interest in El Abra, and the remaining 49 percent interest is held by the state-owned copper enterprise Corporación Nacional del Cobre de Chile (CODELCO).
El Abra is an open-pit copper mining complex that has been in operation since 1996 and is located 47 miles north of Calama in Chile’s El Loa province, Region II. The site is accessible by paved highway and by rail.
The El Abra mine is a porphyry copper deposit that has sulfide and oxide mineralization. The predominant primary sulfide copper minerals are bornite and chalcopyrite. There is a minor amount of secondary sulfide mineralization
as chalcocite. The oxide copper minerals are chrysocolla and pseudomalachite. There are lesser amounts of copper-bearing clays and tenorite.
The El Abra operation consists of an open-pit copper mine and a SX/EW facility with a capacity of 500 million pounds of copper cathode per year from a 125,000 metric ton-per-day crushed leach circuit and a similar-sized ROM leaching operation. The available fleet consists of twenty-two 266-metric ton haul trucks loaded by four shovels with buckets ranging in size from 29 to 41 cubic meters, which are capable of moving an average of 214,000 metric tons of material per day.
El Abra’s copper production totaled 200 million pounds in 2018, 173 million pounds in 2017 and 220 million pounds in 2016. Beginning in the second half of 2015, El Abra operated at reduced rates to achieve lower operating and labor costs, defer capital expenditures and extend the life of the existing operations. El Abra resumed operating at full capacity during 2018.
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We continue to evaluate a large-scale expansion at El Abra to process additional sulfide material and to achieve higher recoveries. El Abra’s large sulfide resource could potentially support a major mill project similar to facilities constructed at Cerro Verde. Technical and economic studies are being advanced to determine the optimal scope and timing for the project.
El Abra is located in a desert environment with rainfall averaging less than one inch per year and is in an active seismic zone. Refer to MD&A and Item 1A. “Risk Factors” for discussion of recent weather-related events at El Abra that are expected to impact its production volumes and costs. The highest bench elevation is 4,195 meters above sea level, and the ultimate pit bottom is expected to be 3,415 meters above sea level. El Abra controls a total of approximately 169,400 acres of mining claims covering the ore deposit, stockpiles, process plant, and water wellfield and pipeline. In addition, El Abra has land surface rights for the road between the processing plant and the mine, the water wellfield, power transmission lines and for the water pipeline from the Salar de Ascotán aquifer.
El Abra currently receives electrical power under a long-term contract with Engie Energia Chile S.A. Water for our El Abra processing operations comes from the continued pumping of groundwater from the Salar de Ascotán aquifer pursuant to regulatory approval. We believe El Abra has sufficient water rights and regulatory approvals to support current operations. For a discussion of risks associated with the availability of water, refer to Item 1A. “Risk Factors.”
Indonesia

Ownership. PT-FI is a limited liability company organized under the laws of the Republic of Indonesia. On December 21, 2018, we completed the transaction with the Indonesian government regarding PT-FI’s long-term mining rights and share ownership (refer to Note 2 for further discussion). Following the transaction, we have a 48.76 percent share ownership in PT-FI and the remaining 51.24 percent share ownership is collectively held by PT Inalum (an Indonesian state-owned enterprise) and PTI (which is expected to be owned by PT Inalum and the provincial/regional government in Papua, Indonesia). The arrangements related to the transaction also provide for us and the other pre-transaction PT-FI shareholders to retain the economics of the revenue and cost sharing arrangements under the former Rio Tinto Joint Venture. As a result, our economic interest in PT-FI is expected to approximate 81 percent from 2019 through 2022.
IUPK. Concurrent with closing the transaction, the Indonesian government granted PT-FI an IUPK to replace its former COW, enabling PT-FI to conduct operations in the Grasberg minerals district through 2041. Under the terms of the IUPK, PT-FI has been granted an extension of mining rights through 2031, with rights to extend mining rights through 2041, subject to PT-FI completing the construction of a new smelter in Indonesia within five years of closing the transaction and fulfilling its defined fiscal obligations to the Indonesian government. The IUPK, and related documentation, contains legal and fiscal terms and is legally enforceable through 2041. In addition, we, as a foreign investor, have rights to resolve investment disputes with the Indonesian government through international
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arbitration. Refer to Note 13 and Item 1A. “Risk Factors” for discussion of PT-FI’s IUPK and risks associated with our Indonesia mining operations.
PT-FI has applied for a one-year extension of its export license, which currently expires on February 16, 2019. Export licenses are valid for one year periods, subject to review and approval by the Indonesian government every six months, depending on smelter construction progress.
Grasberg Minerals District. PT-FI operates in the remote highlands of the Sudirman Mountain Range in the province of Papua, Indonesia, which is on the western half of the island of New Guinea. Since 1967, we and our predecessors have been the only operator of exploration and mining activities in the approximately 24,600-acre operating area.
The Grasberg minerals district has three operating mines, the Grasberg open pit, the Deep Ore Zone (DOZ) underground mine and the Big Gossan underground mine. In September 2015, PT-FI initiated pre-commercial production, which represents ore extracted during the development phase for the purpose of obtaining access to the ore body, at the Deep Mill Level Zone (DMLZ) underground mine.
As further discussed in MD&A, PT-FI continues to advance several projects in the Grasberg minerals district related to the development of its large-scale, long-lived, high-grade underground ore bodies located beneath and nearby the Grasberg open pit. In aggregate, these underground ore bodies are expected to produce large-scale quantities of copper and gold following the transition from the Grasberg open pit operations where PT-FI is currently mining the final phase. Refer to Item 1A. “Risk Factors” for discussion of risks associated with development projects and underground mines.
Substantial progress has been made to prepare for the transition to mining of the Grasberg Block Cave (GBC) underground mine. First undercut blasting occurred in September 2018, first drawbell blasting occurred in December 2018 and cave production is scheduled for the first half of 2019. All underground mining levels and the ore flow system are being commissioned. As PT-FI transitions mining from the open pit to underground, its production is expected to be significantly lower in 2019 and 2020, compared to 2018. Metal production is expected to improve significantly by 2021 following a ramp-up period. GBC production rates over the next five years are expected to ramp up to 130,000 metric tons of ore per day.
PT-FI’s production, including the former Rio Tinto Joint Venture share, totaled 1.2 billion pounds of copper and 2.7 million ounces of gold in 2018, 1.0 billion pounds of copper and 1.6 million ounces of gold in 2017, and 1.1 billion pounds of copper and 1.1 million ounces of gold in 2016.
Our principal source of power for all of our Indonesia operations is a coal-fired power plant that we built in 1998. Diesel generators supply peaking and backup electrical power generating capacity. A combination of naturally occurring mountain streams and water derived from our underground operations provides water for our operations. Our Indonesian operations are in an active seismic zone and experience average annual rainfall of approximately 200 inches.
Grasberg Open Pit
PT-FI began open-pit mining of the Grasberg ore body in 1990. PT-FI is currently mining the final phase of the Grasberg open pit and expects to transition to the GBC in the first half of 2019.
Production from the ore stockpiles, which are located outside of the pit limits, is expected to continue through the end of 2019. Production in the open pit is currently at the 3,265- to 3,055-meter elevation level and totaled 49 million metric tons of ore in 2018, which provided 75 percent of PT-FI’s 2018 mill feed.
The current open-pit equipment fleet consists of over 500 units. The larger mining equipment directly associated with production includes an available fleet of 99 haul trucks with payloads of 200 metric tons and 15 shovels with bucket sizes ranging from 17 to 42 cubic meters, which are capable of moving an average of 275,000 metric tons of material per day.
Ore milled from the Grasberg open pit averaged 133,300 metric tons per day in 2018, 101,800 metric tons per day in 2017 and 119,700 metric tons per day in 2016.
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DOZ Underground Mine
The DOZ ore body lies vertically below the now depleted Intermediate Ore Zone. PT-FI began production from the DOZ ore body in 1989 using open-stope mining methods, but suspended production in 1991 in favor of production from the Grasberg open pit. Production resumed in 2000 using the block-cave method and is at the 3,110-meter elevation level.
The DOZ is a mature block-cave mine that previously operated at 80,000 metric tons of ore per day. Current operating rates from the DOZ underground mine are driven by the value of the incremental DOZ ore grade compared to the ore from the Grasberg open pit and ore grade material from the development of the DMLZ and GBC underground mines. Ore milled from the DOZ underground mine averaged 33,800 metric tons of ore per day in 2018, 31,200 metric tons of ore per day in 2017 and 38,000 metric tons of ore per day in 2016. Production at the DOZ underground mine is expected to continue through 2022.
The DOZ mine fleet consists of 154 pieces of mobile equipment. The primary mining equipment directly associated with production and development includes an available fleet of 44 LHD units and 20 haul trucks. Each production LHD unit typically carries approximately 11 metric tons of ore. Using ore passes and chutes, the LHD units transfer ore into 55 to 60 metric ton capacity haul trucks. The trucks dump into two gyratory crushers, and the ore is then conveyed to the surface stockpiles for processing.
Big Gossan Underground Mine
The Big Gossan mine lies underground and adjacent to the current mill site. It is a tabular, near vertical ore body with approximate dimensions of 1,200 meters along strike and 800 meters down dip with varying thicknesses from 20 meters to 120 meters. The mine utilizes a blasthole stoping method with delayed paste backfill. Stopes of varying sizes are mined and the ore dropped down passes to a truck haulage level. Trucks are chute loaded and transport the ore to a jaw crusher. The crushed ore is then hoisted vertically via a two-skip production shaft to a level where it is loaded onto a conveyor belt. The belt carries the ore to one of the main underground conveyors where the ore is transferred and conveyed to the surface stockpiles for processing.
Ore milled from the Big Gossan underground mine averaged 3,800 metric tons per day in 2018, 600 metric tons per day in 2017 and 900 metric tons per day in 2016. Production at the Big Gossan underground mine is expected to continue through 2041.
The Big Gossan mine fleet consists of over 78 pieces of mobile equipment, which includes 13 LHD units and 10 haul trucks used in development and production activities.
DMLZ Underground Mine
The DMLZ ore body lies below the DOZ underground mine at the 2,590-meter elevation and represents the downward continuation of mineralization in the Ertsberg East Skarn system and neighboring Ertsberg porphyry.
During third-quarter 2018, PT-FI commenced hydraulic fracturing activities to manage rock stresses and
pre-condition the DMLZ underground mine for large-scale production following mining induced seismic activity experienced in 2017 and 2018. Results to date have been effective in managing rock stresses and pre-conditioning the cave. PT-FI expects to commence the ramp-up of production in the DMLZ underground mine by mid-2019 and to reach full production rates of 80,000 metric tons per day in 2022. Estimates of timing of future production continue to be reviewed and may be modified as additional information becomes available. Production at the DMLZ underground mine is expected to continue through 2041.
Ore milled from the DMLZ underground mine averaged 3,200 metric tons of ore per day in both 2018 and 2017, and 4,400 metric tons per day in 2016.
The DMLZ mine fleet consists of over 240 pieces of mobile equipment, which includes 25 LHD units and 14 haul trucks used in production and development activities.
Description of Indonesia Ore Bodies. Our Indonesia ore bodies are located within and around two main igneous intrusions, the Grasberg monzodiorite and the Ertsberg diorite. The host rocks of these ore bodies include both carbonate and clastic rocks that form the ridge crests and upper flanks of the Sudirman Range, and the igneous rocks of monzonitic to dioritic composition that intrude them. The igneous-hosted ore bodies (the Grasberg open pit and GBC, and portions of the DOZ) occur as vein stockworks and disseminations of copper sulfides, dominated by chalcopyrite and, to a lesser extent, bornite. The sedimentary-rock hosted ore bodies (portions of the DOZ and all of
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the Big Gossan) occur as “magnetite-rich, calcium/magnesian skarn” replacements, whose location and orientation are strongly influenced by major faults and by the chemistry of the carbonate rocks along the margins of the intrusions.
The copper mineralization in these skarn deposits is dominated by chalcopyrite, but higher bornite concentrations are common. Moreover, gold occurs in significant concentrations in all of the district’s ore bodies, though rarely visible to the naked eye. These gold concentrations usually occur as inclusions within the copper sulfide minerals, though, in some deposits, these concentrations can also be strongly associated with pyrite.
The following diagram indicates the relative elevations (in meters) of our reported Indonesia ore bodies.


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Smelting Facilities and Other Mining Properties
Atlantic Copper. Our wholly owned Atlantic Copper smelter and refinery is located on land concessions from the Huelva, Spain, port authorities, which are scheduled to expire in 2039.
The design capacity of the smelter is approximately 300,000 metric tons of copper per year, and the refinery has a capacity of 286,000 metric tons of copper per year. Atlantic Copper produced 295,300 metric tons of copper anode from its smelter and 283,100 metric tons of copper cathode from its refinery in 2018; 283,100 metric tons of copper anode from its smelter and 271,400 metric tons of copper cathode from its refinery in 2017; and 296,900 metric tons of copper anode from its smelter and 285,800 metric tons of copper cathode from its refinery in 2016.
Following is a summary of Atlantic Copper’s concentrate purchases from unaffiliated third parties and our copper mining operations for the years ended December 31:
2018 | 2017 | 2016 | |||||||
Third parties | 77 | % | 67 | % | 77 | % | |||
North America copper mines | 14 | 18 | 13 | ||||||
South America mining | 5 | 15 | 7 | ||||||
Indonesia mining | 4 | — | 3 | ||||||
100 | % | 100 | % | 100 | % |
Atlantic Copper’s major maintenance turnarounds typically occur approximately every eight years, with shorter-term maintenance turnarounds in the interim. Atlantic Copper completed a 79-day major maintenance turnaround in 2013, a 16-day maintenance turnaround in 2015 and a 27-day maintenance turnaround in 2017. A 15-day maintenance turnaround is scheduled for third-quarter 2019.
PT Smelting. PT-FI’s former COW required us to construct, or cause to be constructed, a smelter in Indonesia if we and the Indonesian government determined that such a project would be economically viable. In 1995, following the completion of a feasibility study, we entered into agreements relating to the formation of PT Smelting, an Indonesian company, and the construction of the copper smelter and refinery in Gresik, Indonesia. PT Smelting owns and operates the smelter and refinery. PT-FI owns 25 percent of PT Smelting, with the remainder owned by Mitsubishi Materials Corporation (60.5 percent), Mitsubishi Corporation RtM Japan Ltd. (9.5 percent) and JX Nippon Mining & Metals Corporation (5 percent).
PT-FI’s contract with PT Smelting requires PT-FI to supply 100 percent of the copper concentrate requirements (at market rates subject to a minimum or maximum treatment charge rate) necessary for PT Smelting to produce 205,000 metric tons of copper annually on a priority basis. PT-FI may also sell copper concentrate to PT Smelting at market rates for quantities in excess of 205,000 metric tons of copper annually. PT-FI supplied 90 percent of PT Smelting’s concentrate requirements in 2018, 93 percent in 2017 and 88 percent in 2016.
In early 2017, the Indonesian government issued new regulations to address exports of unrefined metals, including copper concentrate and anode slimes, and other matters related to the mining sector. These regulations permit the export of anode slimes, which is necessary for PT Smelting to continue operating. As a result of labor disturbances and a delay in the renewal of its export license for anode slimes, PT Smelting’s operations were shut down from mid-January 2017 until early March 2017. PT Smelting has applied for a one-year extension of its anode slimes export license, which currently expires February 26, 2019.
PT Smelting produced 258,800 metric tons of copper anode from its smelter and 257,600 metric tons of copper cathode from its refinery in 2018; 245,800 metric tons of copper anode from its smelter and 247,800 metric tons of copper cathode from its refinery in 2017; and 255,700 metric tons of copper anode from its smelter and 241,700 metric tons of copper cathode from its refinery in 2016.
PT Smelting’s maintenance turnarounds (which range from two weeks to a month to complete) typically are expected to occur approximately every two years, with short-term maintenance turnarounds in the interim. The next major maintenance turnaround is scheduled for 2020. PT Smelting completed a 25-day maintenance turnaround during 2016, and a 30-day maintenance turnaround during 2018. In addition to PT Smelting’s scheduled annual maintenance in November 2018, PT Smelting also experienced downtime in December 2018 caused by unscheduled maintenance at its sole-source oxygen supplier. This resulted in a temporary shutdown of PT Smelting’s operations in December 2018.
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Miami Smelter. We own and operate a smelter at our Miami mining operation in Arizona. The smelter has been operating for approximately 100 years and has been upgraded numerous times during that period to implement new technologies, improve production and comply with air quality requirements. In 2018, the Miami smelter completed the installation of emission control equipment that allows it to operate in compliance with current air quality standards. Refer to Item 1A. “Risk Factors” for further discussion.
The Miami smelter processes copper concentrate primarily from our North America copper mines. Concentrate processed through the smelter totaled 729,900 metric tons in 2018, 612,600 metric tons in 2017 and 673,300 metric tons in 2016. In addition, because sulphuric acid is a by-product of smelting concentrate, the Miami smelter is also the most significant source of sulphuric acid for our North America leaching operations.
Major maintenance turnarounds (which take approximately three weeks to complete) are anticipated to occur approximately every three years for the Miami smelter, with short-term maintenance turnarounds in the interim. The Miami smelter completed a major maintenance turnaround in second-quarter 2017, and the next major maintenance turnaround is scheduled for 2020.
Rod & Refining Operations. Our Rod & Refining operations consist of conversion facilities located in North America, including a refinery in El Paso, Texas; rod mills in El Paso, Texas, Norwich, Connecticut, and Miami, Arizona; and a specialty copper products facility in Bayway, New Jersey. We refine our copper anode production from our Miami smelter at our El Paso refinery. The El Paso refinery has the potential to operate at an annual production capacity of about 900 million pounds of copper cathode, which is sufficient to refine all of the copper anode we produce at our Miami smelter. Our El Paso refinery also produces nickel carbonate, copper telluride and autoclaved slimes material containing gold, silver, platinum and palladium.
Molybdenum Conversion Facilities. We process molybdenum concentrate at our conversion plants in the U.S. and Europe into such products as technical-grade molybdic oxide, ferromolybdenum, pure molybdic oxide, ammonium molybdates and molybdenum disulfide. We operate molybdenum roasters in Sierrita, Arizona; Fort Madison, Iowa; and Rotterdam, the Netherlands, and we operate a molybdenum pressure-leach plant in Bagdad, Arizona. We also produce ferromolybdenum for customers worldwide at our conversion plant located in Stowmarket, United Kingdom.
Freeport Cobalt. In March 2013, we acquired a cobalt chemical refinery in Kokkola, Finland, and the related sales and marketing business which provided direct end-market access for the cobalt hydroxide production at the Tenke Fungurume (Tenke) mine in the Democratic Republic of Congo, in which we held an interest prior to our sale of TF Holdings Limited (TFHL) in 2016. We are the operator of Freeport Cobalt with an effective 56 percent ownership interest. The remaining effective ownership interest is held by Lundin Mining Corporation (24 percent) and La Générale des Carrières et des Mines (20 percent). The Kokkola refinery has an annual refining capacity of approximately 15,000 metric tons of cobalt.
As further discussed in Note 2, we continue to market the Freeport Cobalt assets.
Other North America Copper Mines. We also have five non-operating copper mines – Ajo, Bisbee, Tohono, Twin Buttes and Christmas, which are located in Arizona – that have been on care-and-maintenance status for several years and would require new or updated environmental studies, new permits, and additional capital investment, which could be significant, to return them to operating status.
Mining Development Projects and Exploration Activities
Capital expenditures for mining operations totaled $2.0 billion (including $1.2 billion for major projects) in 2018, $1.4 billion (including $0.9 billion for major projects) in 2017 and $1.6 billion (including $1.2 billion for major projects) in 2016. Capital expenditures for major projects during 2018 were primarily associated with underground development activities in the Grasberg minerals district and development of the Lone Star oxide project. Capital expenditures for major projects during 2017 and 2016 were primarily associated with the Cerro Verde expansion project and ongoing underground development activities in the Grasberg minerals district. Refer to MD&A for projected capital expenditures for the year 2019.
PT-FI has also committed to construct a new smelter in Indonesia by December 21, 2023. PT-FI is initiating front-end engineering and design and intends to pursue financing, commercial and potential partner arrangements for this project, which has a preliminary estimated capital cost in the $3 billion range. The economics of the new smelter will be borne by PT-FI’s shareholders according to their respective long-term share ownership percentages.
21
We have several projects and potential opportunities to expand production volumes, extend mine lives and develop large-scale underground ore bodies. As further discussed in MD&A, our near-term major development projects primarily include the underground development activities in the Grasberg minerals district and development of the Lone Star oxide project. Considering the long-term nature and large size of our development projects, actual costs and timing could vary from estimates. Additionally, in response to market conditions, the timing of our expenditures will continue to be reviewed. We continue to review our mine development and processing plans to maximize the value of our mineral reserves.
We also have an additional long-term underground mine development project in the Grasberg minerals district for the Kucing Liar ore body, which lies on the southern flank of and underneath the southern portion of the Grasberg open pit at the 2,605-meter elevation level. We expect to mine the Kucing Liar ore body using the block-cave method; aggregate capital cost estimates for development of the Kucing Liar ore body are projected to approximate $3.8 billion (which are expected to be made between 2020 and 2032). Additionally, our current mine development plans include approximately $6.0 billion of capital expenditures at our processing facilities to optimize the handling of underground ore types once the Grasberg open-pit operations cease. We expect substantially all of these expenditures to be made between 2019 and 2034. The timing and development of this project is currently being reviewed.
Our mining exploration activities are generally associated with our existing mines focusing on opportunities to expand reserves and resources to support development of additional future production capacity. Exploration results continue to indicate opportunities for significant future potential reserve additions in North America and South America. Exploration spending associated with mining operations totaled $78 million in 2018, $72 million in 2017 and $44 million in 2016. Refer to MD&A for projected exploration expenditures for the year 2019.
Refer to Item 1A. “Risk Factors” for further discussion of risks associated with mine development projects and exploration activities and of risks associated with PT-FI’s IUPK.
Sources and Availability of Energy, Natural Resources and Raw Materials
Our copper mining operations require significant energy, principally diesel, electricity, coal and natural gas, most of which is obtained from third parties under long-term contracts. Energy represented approximately 20 percent of our copper mine site operating costs in 2018, including purchases of approximately 220 million gallons of diesel fuel; 8,150 gigawatt hours of electricity at our North America and South America copper mining operations (we generate all of our power at our Indonesia mining operation); 740 thousand metric tons of coal for our coal power plant in Indonesia; and 1 million MMBtu (million British thermal units) of natural gas at certain of our North America mines. Based on current cost estimates, energy will approximate 20 percent of our copper mine site operating costs in 2019.
Our mining operations also require significant quantities of water for mining, ore processing and related support facilities. The loss of water rights for any of our mines, in whole or in part, or shortages of water to which we have rights, could require us to curtail or shut down mining operations. For a further discussion of risks and legal proceedings associated with the availability of water, refer to Item 1A. “Risk Factors” and Item 3. “Legal Proceedings.”
Sulphuric acid is used in the SX/EW process and is produced as a by-product of the smelting process at our smelters and from our sulfur burners at the Safford mine. Sulphuric acid needs in excess of the sulphuric acid produced by our operations are purchased from third parties.
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Community and Human Rights
We have adopted policies that govern our working relationships with the communities where we operate and are designed to guide our practices and programs in a manner that respects human rights and the culture of the local people impacted by our operations. We continue to make significant expenditures on community development, education, training and cultural programs, which include:
• | comprehensive job training programs |
• | clean water and sanitation projects |
• | public health programs, including malaria control and human immunodeficiency virus |
• | agricultural assistance programs |
• | small and medium enterprise development programs |
• | basic education programs |
• | cultural promotion and preservation programs |
• | community infrastructure development |
• | charitable donations |
In December 2000, we endorsed the joint U.S. State Department-British Foreign Office Voluntary Principles on Human Rights and Security (Voluntary Principles). We participated in developing these Voluntary Principles with other major natural resource companies and international human rights organizations and they are incorporated into our human rights policy. The Voluntary Principles provide guidelines for our security programs, including interaction with host-government security personnel, private security contractors and our internal security employees.
Our human rights policy, most recently updated in August 2017, reflects our full commitment to the United Nations Guiding Principles on Business and Human Rights. We have embarked on a program to plan and conduct site-level human rights impact assessments (HRIA) at our global operations.
HRIAs help us to embed human rights considerations into our business practices, including site-level sustainable development risk registers. We completed a HRIA at our Cerro Verde operation in Peru in 2017 and at our New Mexico mining operations in 2018. We also participate in a multi-industry human rights working group to gain insight from peer companies. We believe that our social and economic development programs are responsive to the issues raised by the local communities near our areas of operation and help us maintain good relations with the surrounding communities and avoid disruptions of mining operations. As part of our ongoing commitment to sustainable community development, we make significant investments in social programs, including in-kind support and administration, across our global operations. Over the last three years, these investments have averaged $150 million per year. Nevertheless, social and political instability in the areas of our operations may adversely impact our mining operations. Refer to Item 1A. “Risk Factors” for further discussion.
South America. Cerro Verde has provided a variety of community support projects over the years. Following engagements with regional and local governments, civic leaders and development agencies, in 2006, Cerro Verde committed to support the costs for a new potable water treatment plant to serve Arequipa. In addition, an agreement was reached with the Peruvian government for development of a water storage network that was financed by Cerro Verde and a distribution network that was financed by the Cerro Verde Civil Association.
Cerro Verde reached an agreement with the Regional Government of Arequipa, the National Government, the local water utility company and other local institutions to allow it to finance, engineer and construct a wastewater treatment plant for the city of Arequipa, which was completed in 2015. The wastewater treatment plant supplements existing water supplies to support Cerro Verde’s concentrator expansion and also improves the local water quality, enhances agriculture products grown in the area and reduces the risk of waterborne illnesses. In addition to these projects, Cerro Verde annually makes significant community development investments in the Arequipa region.
Security Matters. Consistent with our operating permits in Peru and our commitment to protect our employees and property, we have taken steps to provide a safe and secure working environment. As part of its security program, Cerro Verde maintains its own internal security department. Both employees and contractors perform functions such as protecting company facilities, monitoring shipments of supplies and products, assisting in traffic control and aiding in emergency response operations. The security department receives human rights and Voluntary Principles training annually. Some contractors assigned to protection of expatriate personnel are armed. These contractors also receive training in defensive driving and firearms handling. Cerro Verde’s costs for its internal civilian security department totaled $8 million in both 2018 and 2017 and $6 million in 2016.
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Cerro Verde, like all businesses and residents of Peru, relies on the Peruvian government for the maintenance of public order, upholding the rule of law and the protection of personnel and property. The Peruvian government is responsible for employing police personnel and directing their operations. Cerro Verde has limited public security forces in support of its operation, with the arrangement defined through a memorandum of understanding with the Peruvian National Police. Cerro Verde’s share of support costs for government-provided security approximated $1 million in each of the years 2018, 2017 and 2016.
Indonesia. In 1996, PT-FI established the Freeport Partnership Fund for Community Development (the Partnership Fund) through which PT-FI has made available funding and technical assistance to support community development initiatives in the areas of health, education, economic development and local infrastructure. PT-FI has committed through June 2019 to provide one percent of its annual revenue for the development of the local communities in its area of operations through the Partnership Fund. PT-FI recorded costs of $55 million in 2018, $44 million in 2017 and $33 million in 2016 for this commitment.
The Amungme and Kamoro Community Development Organization (Lembaga Pengembangan Masyarakat Amungme dan Kamoro or LPMAK) oversees disbursement of the program funds we contribute to the Partnership Fund. LPMAK is governed by a board of commissioners and a board of directors, which are comprised of representatives from the local Amungme and Kamoro tribal communities, government leaders, church leaders, and one representative of PT-FI on each board. The Amungme and Kamoro people are original inhabitants of the land in our area of operations. In addition to the Partnership Fund, PT-FI makes significant annual investments in public health, education, community infrastructure and local economic development.
Security Matters. Consistent with our ongoing commitment to protect our employees and property, we have taken steps to provide a safe and secure working environment. As part of its security program, PT-FI maintains its own internal civilian security department. Both employees and contractors are unarmed and perform functions such as protecting company facilities, monitoring shipments of supplies and products, assisting in traffic control and aiding in emergency response operations. The security department receives human rights training annually.
PT-FI’s costs for its internal civilian security department totaled $59 million in 2018, $54 million in 2017 and $58 million in 2016.
PT-FI, like all businesses and residents of Indonesia, relies on the Indonesian government for the maintenance of public order, upholding the rule of law and protection of personnel and property. The Grasberg minerals district has been designated by the Indonesian government as one of Indonesia’s vital national assets. This designation results in the police, and to a lesser extent, the military, playing a significant role in protecting the area of our operations. The Indonesian government is responsible for employing police and military personnel and directing their operations.
From the outset of PT-FI’s operations, the Indonesian government has looked to PT-FI to provide logistical and infrastructure support and assistance for these necessary services because of the limited resources of the Indonesian government and the remote location of and lack of development in Papua. PT-FI’s financial support of the Indonesian government security institutions assigned to PT-FI’s operations area represents a prudent response to PT-FI’s requirements and commitments to protect its workforce and property, and better ensuring that personnel are properly fed and lodged and have the logistical resources to patrol PT-FI’s roads and secure its area of operations. In addition, the provision of such support is consistent with our philosophy of responsible corporate citizenship, and reflects our commitment to pursue practices that promote human rights.
PT-FI’s support costs for the government-provided security totaled $27 million in 2018, $23 million in 2017 and $20 million in 2016. This supplemental support consists of various infrastructure and other costs, including food, housing, fuel, travel, vehicle repairs, allowances to cover incidental and administrative costs, and community assistance programs conducted by the military and police.
Refer to Item 1A. “Risk Factors” for further discussion of security risks in Indonesia.
24
Mining Production and Sales Data
Years Ended December 31, | |||||||||||||||||||||
Production | Sales | ||||||||||||||||||||
COPPER (millions of recoverable pounds) | 2018 | 2017 | 2016 | 2018 | 2017 | 2016 | |||||||||||||||
(FCX’s net interest in %) | |||||||||||||||||||||
North America | |||||||||||||||||||||
Morenci (72%)a | 684 | 737 | 848 | 700 | 713 | 855 | |||||||||||||||
Bagdad (100%) | 199 | 173 | 177 | 197 | 164 | 180 | |||||||||||||||
Safford (100%) | 123 | 150 | 230 | 127 | 154 | 229 | |||||||||||||||
Sierrita (100%) | 152 | 160 | 162 | 154 | 154 | 162 | |||||||||||||||
Miami (100%) | 16 | 19 | 25 | 16 | 18 | 27 | |||||||||||||||
Chino (100%) | 173 | 215 | 308 | 176 | 217 | 308 | |||||||||||||||
Tyrone (100%) | 55 | 61 | 76 | 56 | 61 | 75 | |||||||||||||||
Other (100%) | 2 | 3 | 5 | 2 | 3 | 5 | |||||||||||||||
Total North America | 1,404 | 1,518 | 1,831 | 1,428 | 1,484 | 1,841 | |||||||||||||||
South America | |||||||||||||||||||||
Cerro Verde (53.56%) | 1,049 | 1,062 | 1,108 | 1,051 | 1,062 | 1,105 | |||||||||||||||
El Abra (51%) | 200 | 173 | 220 | 202 | 173 | 227 | |||||||||||||||
Total South America | 1,249 | 1,235 | 1,328 | 1,253 | 1,235 | 1,332 | |||||||||||||||
Indonesia | |||||||||||||||||||||
Grasberg minerals districtb | 1,160 | 984 | 1,063 | 1,130 | 981 | 1,054 | |||||||||||||||
Consolidated - continuing operations | 3,813 | 3,737 | 4,222 | c | 3,811 | d | 3,700 | d | 4,227 | c,d | |||||||||||
Less noncontrolling interests | 695 | 670 | 722 | 694 | 670 | 723 | |||||||||||||||
Net | 3,118 | 3,067 | 3,500 | 3,117 | 3,030 | 3,504 | |||||||||||||||
Average realized price per pound (continuing operations) | $ | 2.91 | $ | 2.93 | $ | 2.28 | |||||||||||||||
GOLD (thousands of recoverable ounces) | |||||||||||||||||||||
North America (100%) | 23 | 23 | 27 | 23 | 22 | 25 | |||||||||||||||
Indonesiab | 2,416 | 1,554 | 1,061 | 2,366 | 1,540 | 1,054 | |||||||||||||||
Consolidated | 2,439 | 1,577 | 1,088 | 2,389 | 1,562 | 1,079 | |||||||||||||||
Less noncontrolling interests | 228 | 145 | 99 | 223 | 144 | 99 | |||||||||||||||
Net | 2,211 | 1,432 | 989 | 2,166 | 1,418 | 980 | |||||||||||||||
Average realized price per ounce | $ | 1,254 | $ | 1,268 | $ | 1,238 | |||||||||||||||
MOLYBDENUM (millions of recoverable pounds) | |||||||||||||||||||||
Henderson (100%) | 14 | 12 | 10 | N/A | N/A | N/A | |||||||||||||||
Climax (100%) | 21 | 20 | 16 | N/A | N/A | N/A | |||||||||||||||
North America copper mines (100%)a | 32 | 33 | 33 | N/A | N/A | N/A | |||||||||||||||
Cerro Verde (53.56%) | 28 | 27 | 21 | N/A | N/A | N/A | |||||||||||||||
Consolidated | 95 | 92 | 80 | 94 | 95 | 74 | |||||||||||||||
Less noncontrolling interest | 13 | 13 | 9 | 13 | 12 | 6 | |||||||||||||||
Net | 82 | 79 | 71 | 81 | 83 | 68 | |||||||||||||||
Average realized price per pound | $ | 12.50 | $ | 9.33 | $ | 8.33 |
a. | Amounts are net of Morenci’s undivided joint venture partners’ interest; effective May 31, 2016, our undivided interest in Morenci was prospectively reduced from 85 percent to 72 percent (refer to Note 2 for further discussion). |
b. | Amounts are net of the former Rio Tinto Joint Venture interest. On December 21, 2018, we completed the transaction with the Indonesian government regarding PT-FI’s long-term mining rights and share ownership, resulting in a reduction of our share ownership in PT-FI from 90.64 percent to 48.76 percent (refer to Note 2 for further discussion). Our economic interest in PT-FI is expected to approximate 81 percent from 2019 through 2022. |
c. | Excludes 425 million pounds of copper production and 424 million pounds of copper sales associated with discontinued operations. In November 2016, we completed the sale of our interest in TFHL, through which we held an interest in the Tenke mine (refer to Note 2 for further discussion). |
d. | Excludes purchased copper of 356 million pounds in 2018, 273 million pounds in 2017 and 188 million pounds in 2016. |
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Mineral Reserves
Proven and probable reserves were determined by the use of mapping, drilling, sampling, assaying and evaluation methods generally applied in the mining industry, as more fully discussed below. The term “reserve,” as used in the reserve data presented here, means that part of a mineral deposit that can be economically and legally extracted or produced at the time of the reserve determination. The term “proven reserves” means reserves for which (i) quantity is computed from dimensions revealed in outcrops, trenches, workings or drill holes; (ii) grade and/or quality are computed from the results of detailed sampling; and (iii) the sites for inspection, sampling and measurements are spaced so closely and the geologic character is sufficiently defined that size, shape, depth and mineral content of reserves are well established. The term “probable reserves” means reserves for which quantity and grade are computed from information similar to that used for proven reserves but the sites for sampling are farther apart or are otherwise less adequately spaced. The degree of assurance, although lower than that for proven reserves, is high enough to assume continuity between points of observation.
Our mineral reserve estimates are based on the latest available geological and geotechnical studies. We conduct ongoing studies of our ore bodies to optimize economic values and to manage risk. We revise our mine plans and estimates of recoverable proven and probable mineral reserves as required in accordance with the latest available studies. Refer to Item 1A. “Risk Factors” for discussion of risks associated with our estimates of proven and probable reserves.
Estimated recoverable proven and probable reserves at December 31, 2018, were determined using $2.50 per pound for copper in North America and South America and $2.00 per pound for copper in Indonesia, $1,000 per ounce for gold and $10 per pound for molybdenum. Reserves for Indonesia would not significantly change if assessed under a long-term price of $2.50 per pound of copper as PT-FI’s reserve plan is mill-constrained by the term of its IUPK, which contains rights to extend mining rights through 2041.
For the three-year period ended December 31, 2018, LME copper settlement prices averaged $2.65 per pound, London PM gold prices averaged $1,259 per ounce and the weekly average price for molybdenum quoted by Metals Week averaged $8.85 per pound. In late 2015, we incorporated changes in the commercial pricing structure for our molybdenum-based chemical products to enable continuation of chemical-grade production.
The estimated recoverable proven and probable reserves presented in the table below represent the estimated metal quantities from which we expect to be paid after application of estimated metallurgical recovery rates and smelter recovery rates, where applicable. Recoverable reserves are that part of a mineral deposit that we estimate can be economically and legally extracted or produced at the time of the reserve determination.
Estimated Recoverable Proven and Probable Mineral Reserves at December 31, 2018 | |||||||||
Coppera (billion pounds) | Gold (million ounces) | Molybdenum (billion pounds) | |||||||
North America | 49.9 | 0.6 | 3.06 | ||||||
South America | 33.5 | — | 0.72 | ||||||
Indonesia | 36.2 | b | 30.2 | b | — | ||||
Consolidated basisc | 119.6 | 30.8 | 3.78 | ||||||
Net equity interestd | 86.8 | 17.0 | 3.44 |
a. | Estimated consolidated recoverable copper reserves include 2.0 billion pounds in leach stockpiles and 0.6 billion pounds in mill stockpiles (refer to “Mill and Leach Stockpiles” for further discussion). |
b. | Includes 13.0 billion pounds of copper and 10.1 million ounces of gold associated with PT-FI's acquisition of the Rio Tinto Joint Venture interest. Preliminary estimated recoverable proven and probable reserves from Indonesia reflect estimates of minerals that can be recovered through 2041. Refer to Item 1A. “Risk Factors.” |
c. | Consolidated reserves represent estimated metal quantities after reduction for joint venture partner interests at the Morenci mine in North America (refer to Note 3 for further discussion of our Morenci joint venture). Excluded from the table above are our estimated recoverable proven and probable reserves of 393.1 million ounces of silver, which were determined using $15 per ounce and include 55.7 million ounces associated with PT-FI's acquisition of the Rio Tinto Joint Venture interest. |
d. | Net equity interest reserves represent estimated consolidated metal quantities further reduced for noncontrolling interest ownership (refer to Note 3 for further discussion of our ownership in subsidiaries). Excluded from the table above are our estimated recoverable proven and probable reserves of 269.3 million ounces of silver. Our net equity interest for estimated metal quantities in Indonesia reflects approximately 81 percent from 2019 through 2022 and 48.76 percent from 2023 through 2041. |
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Estimated Recoverable Proven and Probable Mineral Reserves | |||||||||||||||||||||||||||||||||
at December 31, 2018 | |||||||||||||||||||||||||||||||||
Proven Reserves | Probable Reserves | ||||||||||||||||||||||||||||||||
Average Ore Grade | Average Ore Grade | ||||||||||||||||||||||||||||||||
Processing | Million | Copper | Gold | Moly | Silver | Million | Copper | Gold | Moly | Silver | |||||||||||||||||||||||
Method | metric tons | % | g/t | % | g/t | metric tons | % | g/t | % | g/t | |||||||||||||||||||||||
North America | |||||||||||||||||||||||||||||||||
Morenci | Mill | 665 | 0.34 | — | 0.02 | — | 245 | 0.32 | — | 0.02 | — | ||||||||||||||||||||||
Crushed leach | 446 | 0.52 | — | — | — | 110 | 0.47 | — | — | — | |||||||||||||||||||||||
ROM leach | 2,222 | 0.17 | — | — | — | 931 | 0.16 | — | — | — | |||||||||||||||||||||||
Bagdad | Mill | 1,721 | 0.34 | — | a | 0.02 | 1.43 | 625 | 0.30 | — | a | 0.02 | 1.26 | ||||||||||||||||||||
ROM leach | 13 | 0.27 | — | — | — | 67 | 0.17 | — | — | — | |||||||||||||||||||||||
Safford, including Lone Star | Crushed leach | 665 | 0.45 | — | — | — | 174 | 0.41 | — | — | — | ||||||||||||||||||||||
Sierrita | Mill | 2,972 | 0.23 | — | a | 0.02 | 1.36 | 397 | 0.20 | — | a | 0.02 | 1.16 | ||||||||||||||||||||
Chino, including Cobre | Mill | 168 | 0.54 | 0.05 | 0.01 | 0.93 | 106 | 0.54 | 0.04 | 0.01 | 0.92 | ||||||||||||||||||||||
ROM leach | 112 | 0.29 | — | — | — | 9 | 0.26 | — | — | — | |||||||||||||||||||||||
Tyrone | ROM leach | 49 | 0.26 | — | — | — | 6 | 0.21 | — | — | — | ||||||||||||||||||||||
Henderson | Mill | 58 | — | — | 0.18 | — | 13 | — | — | 0.13 | — | ||||||||||||||||||||||
Climax | Mill | 158 | — | — | 0.15 | — | 10 | — | — | 0.09 | — | ||||||||||||||||||||||
9,249 | 2,693 | ||||||||||||||||||||||||||||||||
South America | |||||||||||||||||||||||||||||||||
Cerro Verde | Mill | 830 | 0.36 | — | 0.01 | 1.90 | 3,361 | 0.36 | — | 0.01 | 1.89 | ||||||||||||||||||||||
Crushed leach | 26 | 0.40 | — | — | — | 37 | 0.27 | — | — | — | |||||||||||||||||||||||
ROM leach | 18 | 0.21 | — | — | — | 52 | 0.15 | — | — | — | |||||||||||||||||||||||
El Abra | Crushed leach | 488 | 0.44 | — | — | — | 200 | 0.40 | — | — | — | ||||||||||||||||||||||
ROM leach | 9 | 0.17 | — | — | — | 8 | 0.18 | — | — | — | |||||||||||||||||||||||
1,371 | 3,658 | ||||||||||||||||||||||||||||||||
Indonesia | |||||||||||||||||||||||||||||||||
DMLZ | Mill | 78 | 0.99 | 0.83 | — | 4.64 | 354 | 0.91 | 0.75 | — | 4.36 | ||||||||||||||||||||||
Grasberg open pit | Mill | 1 | 2.65 | 5.70 | — | 7.97 | 4 | 1.08 | 1.51 | — | 3.12 | ||||||||||||||||||||||
DOZ | Mill | 14 | 0.54 | 0.67 | — | 2.29 | 37 | 0.48 | 0.53 | — | 2.23 | ||||||||||||||||||||||
Big Gossan | Mill | 18 | 2.42 | 1.03 | — | 15.15 | 39 | 2.24 | 1.02 | — | 13.50 | ||||||||||||||||||||||
GBC | Mill | 316 | 1.11 | 0.86 | — | 3.86 | 647 | 0.89 | 0.66 | — | 3.54 | ||||||||||||||||||||||
Kucing Liarb | Mill | 131 | 1.31 | 1.09 | — | 6.60 | 218 | 1.19 | 0.99 | — | 5.59 | ||||||||||||||||||||||
558 | 1,299 | ||||||||||||||||||||||||||||||||
Total FCX - 100% Basis | 11,178 | 7,650 | |||||||||||||||||||||||||||||||
a. | Grade rounds to less than 0.01 g/t. |
b. | Would require additional capital investment, which could be significant, to bring into production. |
The reserve table above and the tables on the following pages utilize the abbreviations described below:
• | g/t – grams per metric ton |
• | Moly – Molybdenum |
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Estimated Recoverable Proven and Probable Mineral Reserves | |||||||||||||||||||||||||||||
at December 31, 2018 | |||||||||||||||||||||||||||||
(continued) | |||||||||||||||||||||||||||||
Proven and | |||||||||||||||||||||||||||||
Probable | Average Ore Grade | Recoveriesa | |||||||||||||||||||||||||||
Processing | Million | Copper | Gold | Moly | Silver | Copper | Gold | Moly | Silver | ||||||||||||||||||||
Method | metric tons | % | g/t | % | g/t | % | % | % | % | ||||||||||||||||||||
North America | |||||||||||||||||||||||||||||
Morenci | Mill | 910 | 0.33 | — | 0.02 | — | 79.8 | — | 49.4 | — | |||||||||||||||||||
Crushed leach | 556 | 0.51 | — | — | — | 78.3 | — | — | — | ||||||||||||||||||||
ROM leach | 3,153 | 0.16 | — | — | — | 42.4 | — | — | — | ||||||||||||||||||||
Bagdad | Mill | 2,346 | 0.33 | — | b | 0.02 | 1.39 | 86.2 | 59.1 | 70.8 | 49.3 | ||||||||||||||||||
ROM leach | 80 | 0.19 | — | — | — | 24.7 | — | — | — | ||||||||||||||||||||
Safford, including Lone Star | Crushed leach | 839 | 0.44 | — | — | — | 71.4 | — | — | — | |||||||||||||||||||
Sierrita | Mill | 3,369 | 0.23 | — | b | 0.02 | 1.34 | 82.1 | 60.0 | 78.1 | 49.3 | ||||||||||||||||||
Chino, including Cobre | Mill | 274 | 0.54 | 0.04 | 0.01 | 0.93 | 80.4 | 74.6 | 26.0 | 75.2 | |||||||||||||||||||
ROM leach | 121 | 0.29 | — | — | — | 44.4 | — | — | — | ||||||||||||||||||||
Tyrone | ROM leach | 55 | 0.25 | — | — | — | 52.5 | — | — | — | |||||||||||||||||||
Henderson | Mill | 71 | — | — | 0.17 | — | — | — | 89.9 | — | |||||||||||||||||||
Climax | Mill | 168 | — | — | 0.15 | — | — | — | 89.6 | — | |||||||||||||||||||
11,942 | |||||||||||||||||||||||||||||
South America | |||||||||||||||||||||||||||||
Cerro Verde | Mill | 4,191 | 0.36 | — | 0.01 | 1.89 | 86.2 | — | 54.2 | 44.7 | |||||||||||||||||||
Crushed leach | 63 | 0.33 | — | — | — | 81.1 | — | — | — | ||||||||||||||||||||
ROM leach | 70 | 0.17 | — | — | — | 47.9 | — | — | — | ||||||||||||||||||||
El Abra | Crushed leach | 688 | 0.43 | — | — | — | 54.5 | — | — | — | |||||||||||||||||||
ROM leach | 17 | 0.18 | — | — | — | 41.6 | — | — | — | ||||||||||||||||||||
5,029 | |||||||||||||||||||||||||||||
Indonesia | |||||||||||||||||||||||||||||
DMLZ | Mill | 432 | 0.92 | 0.76 | — | 4.41 | 86.8 | 79.2 | — | 64.4 | |||||||||||||||||||
Grasberg open pit | Mill | 5 | 1.26 | 1.98 | — | 3.66 | 91.8 | 89.1 | — | 43.2 | |||||||||||||||||||
DOZ | Mill | 51 | 0.50 | 0.57 | — | 2.25 | 90.1 | 85.3 | — | 67.9 | |||||||||||||||||||
Big Gossan | Mill | 57 | 2.30 | 1.02 | — | 14.02 | 91.4 | 67.8 | — | 63.7 | |||||||||||||||||||
GBC | Mill | 963 | 0.96 | 0.72 | — | 3.64 | 84.0 | 63.2 | — | 55.7 | |||||||||||||||||||
Kucing Liarc | Mill | 349 | 1.24 | 1.03 | — | 5.97 | 85.2 | 45.7 | — | 40.4 | |||||||||||||||||||
1,857 | |||||||||||||||||||||||||||||
Total FCX - 100% Basis | 18,828 | ||||||||||||||||||||||||||||
a. | Recoveries are net of estimated mill and smelter losses. |
b. | Grade rounds to less than 0.01 g/t. |
c. | Would require additional capital investment, which could be significant, to bring into production. |
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Estimated Recoverable Proven and Probable Mineral Reserves | ||||||||||||||||
at December 31, 2018 | ||||||||||||||||
(continued) | ||||||||||||||||
Recoverable Reserves | ||||||||||||||||
Copper | Gold | Moly | Silver | |||||||||||||
FCX’s | Processing | billion | million | billion | million | |||||||||||
Interest | Method | lbs. | ozs. | lbs. | ozs. | |||||||||||
North America | ||||||||||||||||
Morenci | 72% | Mill | 5.3 | — | 0.18 | — | ||||||||||
Crushed leach | 4.9 | — | — | — | ||||||||||||
ROM leach | 4.9 | — | — | — | ||||||||||||
Bagdad | 100% | Mill | 14.6 | 0.1 | 0.74 | 51.5 | ||||||||||
ROM leach | 0.1 | — | — | — | ||||||||||||
Safford, including Lone Star | 100% | Crushed leach | 5.9 | — | — | — | ||||||||||
Sierrita | 100% | Mill | 13.8 | 0.2 | 1.42 | 71.3 | ||||||||||
Chino, including Cobre | 100% | Mill | 2.6 | 0.3 | 0.01 | 6.2 | ||||||||||
ROM leach | 0.4 | — | — | — | ||||||||||||
Tyrone | 100% | ROM leach | 0.2 | — | — | — | ||||||||||
Henderson | 100% | Mill | — | — | 0.24 | — | ||||||||||
Climax | 100% | Mill | — | — | 0.50 | — | ||||||||||
52.7 | 0.6 | 3.09 | 129.0 | |||||||||||||
Recoverable metal in stockpilesa | 1.6 | — | 0.02 | — | ||||||||||||
100% operations | 54.3 | 0.6 | 3.11 | 129.0 | ||||||||||||
Consolidated | 49.9 | 0.6 | 3.06 | 129.0 | ||||||||||||
Net equity interest | 49.9 | 0.6 | 3.06 | 129.0 | ||||||||||||
South America | ||||||||||||||||
Cerro Verde | 53.56% | Mill | 28.4 | — | 0.71 | 113.7 | ||||||||||
Crushed leach | 0.4 | — | — | — | ||||||||||||
ROM leach | 0.1 | — | — | — | ||||||||||||
El Abra | 51% | Crushed leach | 3.6 | — | — | — | ||||||||||
ROM leach | — | b | — | — | — | |||||||||||
32.5 | — | 0.71 | 113.7 | |||||||||||||
Recoverable metal in stockpilesa | 1.0 | — | 0.01 | 1.8 | ||||||||||||
100% operations | 33.5 | — | 0.72 | 115.5 | ||||||||||||
Consolidated | 33.5 | — | 0.72 | 115.5 | ||||||||||||
Net equity interest | 17.8 | — | 0.38 | 61.9 | ||||||||||||
Indonesia | ||||||||||||||||
DMLZ | c | Mill | 7.6 | 8.4 | — | 39.5 | ||||||||||
Grasberg open pit | c | Mill | 0.1 | 0.3 | — | 0.3 | ||||||||||
DOZ | c | Mill | 0.5 | 0.8 | — | 2.5 | ||||||||||
Big Gossan | c | Mill | 2.6 | 1.3 | — | 16.3 | ||||||||||
GBC | c | Mill | 17.2 | 14.1 | — | 62.8 | ||||||||||
Kucing Liar | c | Mill | 8.1 | 5.2 | — | 27.0 | ||||||||||
36.1 | 30.1 | — | 148.4 | |||||||||||||
Recoverable metal in stockpilesa | 0.1 | 0.1 | — | 0.2 | ||||||||||||
100% operations | 36.2 | 30.2 | — | 148.6 | ||||||||||||
Consolidated | 36.2 | 30.2 | — | 148.6 | ||||||||||||
Net equity interest | 19.1 | 16.4 | — | 78.4 | ||||||||||||
Total FCX – 100% basis | 124.0 | 30.8 | 3.83 | 393.1 | ||||||||||||
Total FCX – Consolidated basisd | 119.6 | 30.8 | 3.78 | 393.1 | ||||||||||||
Total FCX – Net equity intereste | 86.8 | 17.0 | 3.44 | 269.3 |
a. | Refer to “Mill and Leach Stockpiles” for additional information. |
b. | Pounds round to less than 0.1 billion pounds of copper. |
c. | On December 21, 2018, we completed the transaction with the Indonesian government regarding PT-FI’s long-term mining rights and share ownership, resulting in a reduction of our share ownership in PT-FI from 90.64 percent to 48.76 percent (refer to Note 2 for further discussion). |
d. | Consolidated reserves represent estimated metal quantities after reduction for Morenci’s joint venture partner interests (refer to Note 3 for further discussion). |
e. | Net equity interest represents estimated consolidated metal quantities further reduced for noncontrolling interest ownership (refer to Note 3 for further discussion of our ownership in subsidiaries). Our net equity interest for estimated metal quantities in Indonesia reflects approximately 81 percent from 2019 through 2022 and 48.76 percent from 2023 through 2041. |
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In defining our open-pit reserves, we apply a “variable cutoff grade” strategy. The objective of this strategy is to maximize the net present value of our operations. We use a “break-even cutoff grade” to define the in-situ reserves for our underground ore bodies. The break-even cutoff grade is defined for a metric ton of ore as that equivalent copper grade, once produced and sold, that generates sufficient revenue to cover all operating and administrative costs associated with our production.
Our copper mines may contain other commercially recoverable metals, such as gold, molybdenum and silver. We value all commercially recoverable metals in terms of a copper equivalent percentage to determine a single cutoff grade. Copper equivalent percentage is used to express the relative value of multi-metal ores in terms of one metal. The calculation expresses the relative value of the ore using estimates of contained metal quantities, metals prices as used for reserve determination, recovery rates, treatment charges and royalties. Our molybdenum properties use a molybdenum cutoff grade.
The table below shows the minimum cutoff grade by process for each of our existing ore bodies as of December 31, 2018:
Copper Equivalent Cutoff Grade (Percent) | Molybdenum Cutoff Grade (Percent) | ||||||
Mill | Crushed Leach | ROM Leach | Mill | ||||
North America | |||||||
Morenci | 0.17 | 0.12 | 0.03 | — | |||
Bagdad | 0.15 | — | 0.08 | — | |||
Safford, including Lone Star | — | 0.08 | — | — | |||
Sierrita | 0.15 | — | — | — | |||
Chino, including Cobre | 0.19 | — | 0.05 | — | |||
Tyrone | — | — | 0.03 | — | |||
Henderson | — | — | — | 0.12 | |||
Climax | — | — | — | 0.05 | |||
South America | |||||||
Cerro Verde | 0.15 | 0.12 | 0.08 | — | |||
El Abra | — | 0.11 | 0.06 | — | |||
Indonesia | |||||||
DMLZ | 0.89 | — | — | — | |||
Grasberg open pit | 0.25 | — | — | — | |||
DOZ | 0.89 | — | — | — | |||
Big Gossan | 1.77 | — | — | — | |||
GBC | 0.80 | — | — | — | |||
Kucing Liar | 0.97 | — | — | — |
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Drill hole spacing data is used by mining professionals, such as geologists and geological engineers, in determining the suitability of data coverage (on a relative basis) in a given deposit type and mining method scenario so as to achieve a given level of confidence in the resource estimate. Drill hole spacing is only one of several criteria necessary to establish resource classification. Drilling programs are typically designed to achieve an optimum sample spacing to support the level of confidence in results that apply to a particular stage of development of a mineral deposit.
The following table sets forth the average drill hole spacing based on average sample distance or drill pattern spacing for proven and probable ore reserves by process type:
Average Drill Hole Spacing (in Meters) | |||||||||
Proven | Probable | ||||||||
Mining Unit | Mill | Leach | Mill | Leach | |||||
North America | |||||||||
Morenci | Open Pit | 86 | 86 | 122 | 122 | ||||
Bagdad | Open Pit | 86 | 86 | 122 | 122 | ||||
Safford, including Lone Star | Open Pit | — | 86 | — | 122 | ||||
Sierrita | Open Pit | 73 | — | 104 | — | ||||
Chino | Open Pit | 43 | 86 | 86 | 122 | ||||
Cobre | Open Pit | 61 | 61 | 91 | 91 | ||||
Tyrone | Open Pit | — | 86 | — | 86 | ||||
Henderson | Block Cave | 47 | — | 96 | — | ||||
Climax | Open Pit | 61 | — | 91 | — | ||||
South America | |||||||||
Cerro Verde | Open Pit | 55 | 55 | 110 | 110 | ||||
El Abra | Open Pit | — | 75 | — | 120 | ||||
Indonesia | |||||||||
DMLZ | Block Cave | 21 | — | 63 | — | ||||
Grasberg open pit | Open Pit | 25 | — | 51 | — | ||||
DOZ | Block Cave | 22 | — | 55 | — | ||||
Big Gossan | Open Stope | 12 | — | 35 | — | ||||
GBC | Block Cave | 28 | — | 66 | — | ||||
Kucing Liar | Block Cave | 39 | — | 96 | — |
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Production Sequencing
The following chart illustrates our current plans for sequencing and producing our proven and probable reserves at each of our ore bodies and the years in which we currently expect production from each ore body and related stockpiles. Our proven and probable ore reserves in Indonesia reflect estimates of minerals that can be recovered through the end of 2041, and our current mine plan and planned operations are based on the assumption that PT-FI will comply with its obligations under the IUPK and receive the second 10-year extension from 2031 through 2041 (refer to Item 1A. “Risk Factors” and Note 13 for further discussion). Production volumes are typically lower in the first few years for each ore body as development activities are ongoing and as the mine ramps up to full production and production volumes may also be lower as the mine reaches the end of its life. The sequencing dates shown in the chart below include development activity that results in metal production. The ultimate timing of the start of production from our undeveloped mines is dependent upon a number of factors, including the results of our exploration and development efforts, and may vary from the dates shown below. In addition, we develop our mine plans based on maximizing the net present value from the ore bodies. Significant additional capital expenditures will be required at many of these mines in order to achieve the life-of-mine plans reflected below.

Mill and Leach Stockpiles
Mill and leach stockpiles generally contain lower grade ores that have been extracted from an ore body and are available for metal recovery. Mill stockpiles contain sulfide ores and recovery of metal is through milling, concentrating, smelting and refining or, alternatively, by concentrate leaching. Leach stockpiles contain oxide ores and certain secondary sulfide ores and recovery of metal is through exposure to acidic solutions that dissolve contained copper and deliver it in solution to extraction processing facilities.
Because it is impracticable to determine copper contained in mill and leach stockpiles by physical count, reasonable estimation methods are employed. The quantity of material delivered to mill and leach stockpiles is based on surveyed volumes of mined material and daily production records. Sampling and assaying of blasthole cuttings determine the estimated copper grades of material delivered to mill and leach stockpiles.
32
Expected copper recovery rates for mill stockpiles are determined by metallurgical testing. The recoverable copper in mill stockpiles, once entered into the production process, can be produced into copper concentrate almost immediately.
Expected copper recovery rates for leach stockpiles are determined using small-scale laboratory tests, small- to large-scale column testing (which simulates the production process), historical trends and other factors, including mineralogy of the ore and rock type. Total copper recovery in leach stockpiles can vary significantly from a low percentage to more than 90 percent depending on several variables, including processing methodology, processing variables, mineralogy and particle size of the rock. For newly placed material on active stockpiles, as much as 80 percent of total copper recovery may be extracted during the first year, and the remaining copper may be recovered over many years. Processes and recovery rates are monitored regularly, and recovery rate estimates are adjusted periodically as additional information becomes available and as related technology changes.
Following are our stockpiles and the estimated recoverable copper contained within those stockpiles as of December 31, 2018:
Recoverable | ||||||||||||
Million | Average | Recovery | Copper | |||||||||
Metric Tons | Ore Grade (%) | Rate (%) | (billion pounds) | |||||||||
Mill stockpiles | ||||||||||||
Cerro Verde | 104 | 0.27 | 74.1 | 0.5 | ||||||||
Grasberg minerals district | 13 | 0.49 | 71.6 | 0.1 | ||||||||
117 | 0.6 | |||||||||||
Leach stockpiles | ||||||||||||
Morenci | 6,596 | 0.24 | 1.6 | 0.5 | ||||||||
Bagdad | 499 | 0.25 | 0.4 | — | a | |||||||
Safford, including Lone Star | 289 | 0.43 | 8.5 | 0.3 | ||||||||
Sierrita | 650 | 0.15 | 9.9 | 0.2 | ||||||||
Miami | 498 | 0.39 | 1.5 | 0.1 | ||||||||
Chino, including Cobre | 1,743 | 0.25 | 3.7 | 0.4 | ||||||||
Tyrone | 1,148 | 0.28 | 2.1 | 0.1 | ||||||||
Cerro Verde | 488 | 0.47 | 5.0 | 0.2 | ||||||||
El Abra | 744 | 0.44 | 4.5 | 0.3 | ||||||||
12,655 | 2.1 | |||||||||||
Total FCX - 100% basis | 2.7 | |||||||||||
Total FCX - Consolidated basisb | 2.6 | |||||||||||
Total FCX - Net equity interestc | 2.1 | |||||||||||
a. | Rounds to less than 0.1 billion pounds of recoverable copper. |
b. | Consolidated stockpiles represent estimated metal quantities after reduction for Morenci’s joint venture partner interests. Refer to Note 3 for further discussion. |
c. | Net equity interest represents estimated consolidated metal quantities further reduced for noncontrolling interest ownership (refer to Note 3 for further discussion of our ownership in subsidiaries). Our net equity interest for estimated metal quantities in Grasberg minerals district reflects approximately 81 percent from 2019 through 2022 and 48.76 percent from 2023 through 2041. |
Mineralized Material
We hold various properties containing mineralized material that we believe could be brought into production should market conditions warrant. However, permitting and significant capital expenditures would be required before operations could commence at these properties. Mineralized material is a mineralized body that has been delineated by appropriately spaced drilling and/or underground sampling to support the reported tonnage and average metal grades. Such a deposit cannot qualify as recoverable proven and probable reserves until legal and economic feasibility are confirmed based upon a comprehensive evaluation of development costs, unit costs, grades, recoveries and other material factors. Estimated mineralized materials as presented on the following page were assessed using prices of $3.00 per pound for copper, $1,200 per ounce for gold, $12 per pound for molybdenum and $20 per ounce for silver. Refer to Item 1A. “Risk Factors” for discussion of risks associated with our estimates of mineralized material.
33
Estimated Mineralized Material | ||||||||||||||||||||||||||||
at December 31, 2018 | ||||||||||||||||||||||||||||
Milling Material | Leaching Material | Total Mineralized Material | ||||||||||||||||||||||||||
Million | Million | Million | ||||||||||||||||||||||||||
FCX’s | metric | Copper | Gold | Moly | Silver | metric | Copper | metric | ||||||||||||||||||||
Interest | tons | % | g/t | % | g/t | tons | % | tons | ||||||||||||||||||||
North America | ||||||||||||||||||||||||||||
Morenci | 72% | 1,192 | 0.28 | — | 0.02 | — | 1,584 | 0.18 | 2,776 | |||||||||||||||||||
Bagdad | 100% | 474 | 0.32 | — | a | 0.02 | 1.4 | 2 | 0.14 | 476 | ||||||||||||||||||
Safford, including Lone Star | 100% | 665 | 0.52 | 0.07 | — | 1.4 | 792 | 0.30 | 1,457 | |||||||||||||||||||
Sierrita | 100% | 1,378 | 0.17 | — | a | 0.02 | 1.0 | — | — | 1,378 | ||||||||||||||||||
Chino, including Cobre | 100% | 236 | 0.41 | 0.02 | 0.01 | 0.7 | 24 | 0.22 | 260 | |||||||||||||||||||
Tyrone | 100% | — | — | — | — | — | 157 | 0.23 | 157 | |||||||||||||||||||
Henderson | 100% | 103 | — | — | 0.14 | — | — | — | 103 | |||||||||||||||||||
Climax | 100% | 357 | — | — | 0.16 | — | — | — | 357 | |||||||||||||||||||
Ajo | 100% | 585 | 0.37 | 0.06 | 0.01 | 0.8 | — | — | 585 | |||||||||||||||||||
Cochise/Bisbee | 100% | — | — | — | — | — | 306 | 0.44 | 306 | |||||||||||||||||||
Sanchez | 100% | — | — | — | — | — | 211 | 0.28 | 211 | |||||||||||||||||||
Tohono | 100% | 279 | 0.68 | — | — | — | 291 | 0.66 | 570 | |||||||||||||||||||
Twin Buttes | 100% | 359 | 0.46 | — | 0.03 | 4.9 | 144 | 0.20 | 503 | |||||||||||||||||||
Christmas | 100% | 398 | 0.37 | 0.05 | — | a | 1.0 | — | — | 398 | ||||||||||||||||||
South America | ||||||||||||||||||||||||||||
Cerro Verde | 53.56% | 1,242 | 0.35 | — | 0.01 | 1.8 | 17 | 0.20 | 1,259 | |||||||||||||||||||
El Abra | 51% | 2,124 | 0.40 | 0.02 | 0.01 | 1.3 | 138 | 0.25 | 2,262 | |||||||||||||||||||
Indonesia | ||||||||||||||||||||||||||||
Grasberg minerals district | 48.76% | 2,613 | 0.68 | 0.60 | — | 3.6 | — | — | — | 2,613 | ||||||||||||||||||
Africa | ||||||||||||||||||||||||||||
Kisanfub | 95% | 77 | 1.83 | — | — | — | 64 | 2.39 | 141 | |||||||||||||||||||
Total FCX - 100% basis | 12,082 | 3,730 | 15,812 | |||||||||||||||||||||||||
Total FCX - Consolidated basisc | 11,748 | 3,285 | 15,033 | |||||||||||||||||||||||||
Total FCX - Net equity interestd | 8,788 | 3,206 | 11,994 | |||||||||||||||||||||||||
a. | Amounts not shown because of rounding. |
b. | Stated tonnage also includes cobalt (0.95 percent for milling material and 0.97 percent for leaching material). |
c. | Consolidated basis represents estimated mineralized materials after reduction for Morenci’s joint venture partner interests. Refer to Note 3 for further discussion. |
d. | Net equity interest represents estimated consolidated mineralized material further reduced for noncontrolling interest ownership. Refer to Note 3 for further discussion of our ownership in subsidiaries. |
34
OIL AND GAS OPERATIONS
As further discussed in Note 2, during the three years ended December 31, 2018, we completed the sales of substantially all of our oil and gas properties. As a result, our portfolio of oil and gas assets at December 31, 2018, included natural gas production onshore in South Louisiana and oil production offshore in California, which had estimated proved developed reserves of 7.2 million barrels of oil equivalents (MMBOE).
Exploration and Development Activities
Capital expenditures associated with oil and gas properties totaled $2 million in 2018, and we have no plans to incur significant capital expenditures associated with oil and gas properties in future periods. Capital expenditures for our oil and gas operations totaled $34 million in 2017 and $1.2 billion in 2016 (including $0.6 billion incurred for Gulf of Mexico and $0.5 billion for changes in capital expenditure accruals).
Production and Sales Data
Oil and gas sales totaled 3.1 MMBOE in 2018 and 4.6 MMBOE in 2017. Oil and gas production and sales for the year 2016 totaled 47.1 MMBOE, including 34.4 million barrels (MMBbls) of oil, 65.1 billion cubic feet of natural gas and 1.8 MMBbls of natural gas liquids.
Productive Wells
At December 31, 2018 and 2017, the total number of active producing oil and gas wells was not significant. At December 31, 2016, we had working interests in 120 gross (94 net) active producing oil wells and 640 gross (100 net) active producing natural gas wells.
Drilling Activities
As of and for the years ended December 31, 2018 and 2017, there were no exploratory or development wells drilled or in progress. During the year ended December 31, 2016, we drilled 3 gross (2 net) exploratory productive wells and 9 gross (5 net) development productive wells.
Item 1A. Risk Factors.
This report contains “forward-looking statements” within the meaning of United States (U.S.) federal securities laws. Forward-looking statements are all statements other than statements of historical facts, such as projections or expectations relating to ore grades and milling rates; production and sales volumes; unit net cash costs; operating cash flows; capital expenditures; our expectations regarding our share of PT Freeport Indonesia’s (PT-FI) future cash flows through 2022; PT-FI’s development, financing, construction and completion of a new smelter in Indonesia; exploration efforts and results; development and production activities, rates and costs; liquidity; tax rates; supply of and demand for, and the impact of, copper, gold and molybdenum price changes; the impact of deferred intercompany profits on earnings; reserve estimates; future dividend payments; and share purchases and sales.
We undertake no obligation to update any forward-looking statements. We caution readers that forward-looking statements are not guarantees of future performance and our actual results may differ materially from those anticipated, expected, projected or assumed in the forward-looking statements. Important factors that can cause our actual results to differ materially from those anticipated in the forward-looking statements include the following:
Financial risks
Fluctuations in the market prices of copper, gold and molybdenum have caused and may continue to cause significant volatility in our financial performance and in the trading prices of our debt and common stock. Extended declines in the market prices of copper, gold and, to a lesser extent, molybdenum could adversely affect our earnings, cash flows and asset values and, if sustained, may adversely affect our ability to repay debt.
Our financial results will vary with fluctuations in the market prices of the commodities we produce, primarily copper and gold, and to a lesser extent molybdenum. An extended decline in market prices of these commodities could have a material adverse effect on our financial results, the value of our assets and/or our ability to repay our debt and meet our other fixed obligations; and may depress the trading prices of our common stock and of our publicly traded debt securities.
35
Additionally, if market prices for our primary commodities decline for a sustained period of time, we may have to revise our operating plans, including curtailing production, reducing operating costs and capital expenditures and discontinuing certain exploration and development programs. We may be unable to decrease our costs in an amount sufficient to offset reductions in revenues, in which case we may incur losses, and those losses may be material.
Fluctuations in commodities prices are caused by varied and complex factors beyond our control, including global supply and demand balances and inventory levels; global economic and political conditions; international regulatory, trade and tax policies, including national tariffs; commodities investment activity and speculation; interest rates; the strength of the U.S. dollar compared to foreign currencies; the price and availability of substitute products; and changes in technology. Volatility in global economic growth, particularly in developing economies, has the potential to adversely affect future demand and prices for commodities. Geopolitical uncertainty and protectionism, including the United Kingdom’s plans to exit from the European Union (commonly referred to as Brexit), have the potential to inhibit international trade and negatively impact business confidence, which creates the risk of constraints on our ability to trade in certain markets and has the potential to increase price volatility.
Copper prices may be affected by demand from China, which has become the largest consumer of refined copper in the world, and by changes in demand for industrial, commercial and residential products containing copper. Rising trade tensions between the U.S. and China and efforts by the Chinese government to reduce debt levels contributed to a recent slowdown in China’s growth. A continued slowing in China’s economic growth and demand and continued trade tensions between the U.S. and China could result in lower copper prices which could have a material adverse impact on our business and results of operations, including cash flow. The adoption and expansion of trade restrictions, changes in the state of China-U.S. relations, including the current trade war, or other governmental action related to tariffs or trade agreements or policies are difficult to predict and could adversely affect demand for our products, our costs, our customers, our suppliers, and the U.S. economy, which in turn could have a material adverse effect on our business, results of operations, or financial condition.
Copper prices have fluctuated historically, with London Metal Exchange (LME) copper settlement prices ranging from $1.96 per pound to $3.29 per pound during the three years ended December 31, 2018. LME copper settlement prices averaged $2.96 per pound in 2018, $2.80 per pound in 2017 and $2.21 per pound in 2016. The LME copper settlement price was $2.71 per pound on December 31, 2018, and $2.79 per pound on January 31, 2019.
Factors affecting gold prices may include the relative strength of the U.S. dollar to other currencies, inflation and interest rate expectations, purchases and sales of gold by governments and central banks, demand from China and India, two of the world’s largest consumers of gold, and global demand for jewelry containing gold. The London PM gold price averaged $1,268 per ounce in 2018, $1,257 per ounce in 2017 and $1,250 per ounce in 2016. The London PM gold price was $1,279 per ounce on December 28, 2018 (there was no London PM gold price quote on December 31, 2018), and $1,323 per ounce on January 31, 2019.
The Metals Week Molybdenum Dealer Oxide weekly average price averaged $11.93 per pound in 2018, $8.21 per pound in 2017 and $6.47 per pound in 2016. The Metals Week Molybdenum Dealer Oxide weekly average price was $11.88 per pound on December 31, 2018, and $10.95 per pound on January 31, 2019.
Declines in prices of commodities we sell could result in metals inventory adjustments and impairment charges for our long-lived assets. Other events that could result in impairment of our long-lived assets include, but are not limited to, decreases in estimated proven and probable mineral reserves and any event that might have a material adverse effect on current and future expected mine production costs.
Our debt and other financial commitments may limit our financial and operating flexibility.
At December 31, 2018, our total consolidated debt was $11.1 billion (see Note 8) and our total consolidated cash was $4.2 billion. We also have various other financial commitments, including reclamation and environmental obligations, take-or-pay contracts and leases. For further information, refer to the risk factor below relating to mine closure and reclamation regulations and plugging and abandonment obligations related to our remaining oil and gas properties.
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Our level of indebtedness and other financial commitments could have important consequences to our business, including the following:
• | Limiting our flexibility in planning for, or reacting to, changes in the industry in which we operate; |
• | Increasing our vulnerability to general adverse economic and industry conditions; |
• | Limiting our ability to fund future working capital, capital expenditures and/or material contingencies, to engage in future development activities, or to otherwise realize the value of our assets and opportunities fully because of the need to dedicate a substantial portion of our cash flows from operations to payments on our debt; |
• | Requiring us to sell assets to reduce debt; or |
• | Placing us at a competitive disadvantage compared to our competitors that have less debt and/or fewer financial commitments. |
Any failure to comply with the financial and other covenants in our debt agreements may result in an event of default that would allow the creditors to accelerate maturities of the related debt, which in turn may trigger cross-acceleration or cross-default provisions in other debt agreements. Our available cash and liquidity may not be sufficient to fully repay borrowings under our debt instruments that are accelerated upon an event of default.
From August 2015 through November 2016, we sold 326.5 million shares of our common stock under registered at-the-market equity programs, which generated $3.5 billion in gross proceeds (refer to Note 10). In addition, during 2016, we issued 48.1 million shares of our common stock in connection with the settlement of two drilling rig contracts (refer to Note 13) and 27.7 million shares of our common stock in exchange for $369 million of FCX senior notes (refer to Note 10). Any additional issuance of equity capital to fund operations, reduce debt, improve our financial position or for other purposes, may have a negative impact on our stock price.
As of January 31, 2019, our senior unsecured debt was rated “BB“ with a stable outlook by Standard & Poor’s (S&P), “BB+” with a negative outlook by Fitch Ratings (Fitch), and “Ba2” with a stable outlook by Moody’s Investors Service (Moody’s). There is no assurance that our credit ratings will not be downgraded in the future.
Certain of our debt agreements, including our revolving credit facility, use the London Interbank Offered Rate (LIBOR) as a reference rate. In July 2017, the United Kingdom’s Financial Conduct Authority, which regulates LIBOR, announced that it intends to phase out LIBOR by the end of 2021. If LIBOR is unavailable after 2021, our debt with interest rates that are indexed to LIBOR will be determined using various alternative methods to the extent provided for in our agreements, which could result in increases in interest rates on such debt. Further, we may need to renegotiate our debt agreements and the loans that utilize LIBOR to replace LIBOR with the new standard that is established by the U.S. Alternative Rate Reference Committee, which is currently expected to be the Secured Overnight Bank Financing Rate.
Mine closure and reclamation regulations impose substantial costs on our operations and include requirements that we provide financial assurance supporting those obligations. We also have plugging and abandonment obligations related to our remaining oil and gas properties, and are required to provide bonds or other forms of financial assurance in connection with those properties. Changes in or the failure to comply with these requirements could have a material adverse effect on us.
We are required by U.S. federal and state laws and regulations to provide financial assurance sufficient to allow a third party to implement approved closure and reclamation plans for our mining properties if we are unable to do so. The U.S. Environmental Protection Agency (EPA) and state agencies may also require financial assurance for investigation and remediation actions that are required under settlements of enforcement actions under the Comprehensive Environmental Response, Compensation and Liability Act of 1980 (CERCLA) or similar state laws. Refer to Note 12 for additional information regarding our financial assurance obligations.
With respect to our mining operations, most of our financial assurance obligations are imposed by state laws that vary significantly by jurisdiction, depending on how each state regulates land use and groundwater quality. Although Section 108(b) of CERCLA has required EPA to identify classes of facilities that must establish evidence of financial responsibility since CERCLA was adopted in 1980, currently, there are no financial assurance requirements for
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active mining operations under CERCLA. In response to litigation initiated by several environmental organizations against EPA and a subsequent settlement, EPA proposed financial assurance regulations for the hard rock mining industry in January 2017, which were vigorously opposed by us and others in the mining industry. As proposed, the rules would have imposed financial responsibility obligations on U.S. hard rock mining operations that are unnecessary, duplicative of existing state and other federal requirements, and unreasonable. Our initial calculations suggested that the financial responsibility amounts would be difficult, if not impossible, for us and others to meet with corporate resources, and would be extremely expensive, if not impossible, to finance with third-party financial instruments such as letters of credit, bonds or insurance. In December 2017, EPA withdrew its proposed rules and in February 2018, EPA published its final decision that additional financial assurance regulations for the hard rock mining industry would not be needed given the existing state and federal regulatory programs that became effective in March 2018. In May 2018, environmental organizations filed a petition for review with the U.S. Court of Appeals for the District of Columbia. We and others in the mining industry intervened in the case. If the court remands the rule back to EPA for reconsideration, a re-proposal of rules similar in nature to EPA’s 2017 proposed rules would severely harm the international competitiveness of the U.S. hard rock mining industry and would materially and adversely affect our cash flows, results of operations and financial condition.
We are also subject to financial assurance requirements in connection with our remaining oil and gas properties under both state and federal laws, including financial responsibility required under the Oil Pollution Act of 1990 to cover containment and cleanup costs resulting from an oil spill. In 2016, the U.S. Bureau of Ocean Energy Management (BOEM) issued revised requirements for lessees operating in federal waters to secure the cost of plugging, abandoning, decommissioning and/or removing wells, platforms and pipelines at the end of production. The revised requirements eliminate previously provided waivers from requirements to post security. In early 2017, the BOEM announced a delay in the implementation of certain aspects of the rules pending further review and in June 2017, BOEM further extended the start date for implementation indefinitely. This extension currently remains in effect. If implemented, the new requirements could require us to post security in the form of bonds or similar assurances. The cost for bonds or other forms of assurances can be substantial, and there is no assurance that they can be obtained in all cases.
As of December 31, 2018, our financial assurance obligations totaled $1.2 billion for closure and reclamation/restoration costs of U.S. mining sites, and $0.5 billion for plugging and abandonment obligations of our remaining oil and gas properties. A substantial portion of our financial assurance obligations are satisfied by FCX and subsidiary guarantees and financial capability demonstrations. Our ability to continue to provide guarantees and financial capability demonstrations depends on state and other regulatory requirements, our financial performance and our financial condition. Other forms of assurance, such as letters of credit and surety bonds, are costly to provide and, depending on our financial condition and market conditions, may be difficult or impossible to obtain. Failure to provide the required financial assurance could result in the closure of the affected properties.
Refer to Notes 1 and 12, for further discussion of our environmental and asset retirement obligations.
Unanticipated litigation or negative developments in pending litigation or with respect to other contingencies could have a material adverse effect on our cash flows, results of operations and financial condition.
We are involved in numerous legal proceedings and subject to other contingencies that have arisen or may arise in the ordinary course of our business or are associated with environmental issues, including those described in Note 12 and in Item 3. “Legal Proceedings” involving matters such as remediation, restoration and reclamation of environmental contamination, claims of personal injury or property damage arising from such contamination or from exposure to substances such as lead, arsenic, asbestos, talc and other allegedly toxic substances, disputes over water rights, and disputes with foreign governments or regulatory authorities over royalties, taxes, rights and obligations under concession or other agreements, or other matters. We are also involved periodically in other reviews, inquiries, investigations and other proceedings initiated by or involving government agencies, some of which may result in adverse judgments, settlements, fines, penalties, injunctions or other relief. In addition, from time to time we are involved in disputes over the allocation of environmental remediation obligations at Superfund and other sites. The outcome of litigation is inherently uncertain and adverse developments or outcomes can result in significant monetary damages, penalties, other sanctions or injunctive relief against us, limitations on our property rights, or regulatory interpretations that increase our operating costs. Management does not believe, based on currently available information, that the outcome of any individual legal proceeding will have a material adverse effect on our financial condition, although individual or cumulative outcomes could be material to our operating
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results for a particular period, depending on the nature and magnitude of the outcome and the operating results for the period.
With respect to the asbestos and talc exposure cases described in Note 12, there has been a recent significant increase in the number of cases alleging the presence of asbestos contamination in talc-based personal care products and in cases alleging exposure to talc products that are not alleged to be contaminated with asbestos. In these cases, plaintiffs allege serious health risks and often fatal diseases, including mesothelioma and ovarian cancer, allegedly caused by long-term use of talc-based cosmetic and personal care products. Nationwide trial results in these cases have ranged from outright dismissals to very large jury awards of both compensatory and punitive damages. The primary targets have been the producers of those products, but defendants in many of these cases also include talc miners. Cyprus Amax Minerals Company (CAMC), an indirect wholly owned subsidiary of FCX is one of those targets. One of CAMC’s wholly owned subsidiaries, Cyprus Mines Corporation, was involved in talc mining until 1992 when it exited that business. CAMC has contractual indemnification rights, subject to limited reservations, against the ultimate successor to the business, which has a