THE STORY OF STUFF

Home > Other > THE STORY OF STUFF > Page 7
THE STORY OF STUFF Page 7

by Annie Leonard


  Meanwhile, professionals in regional planning, industrial ecology, urban design, and architecture are redesigning our built environment—from individual homes to factory complexes to entire cities—to mimic rather than disrupt natural water systems or “watersheds.” Replacing lawns with native plants that demand less water; replacing solid surfaces with permeable ones that allow more rainwater to seep into the soil; removing industrial tie-ins that allow factories to dispose of hazardous waste in the municipal sewers; and many other shifts can help protect water supplies. Not to mention (again) the composting toilet.

  In addition to market-based and technological solutions—which are ready to be implemented as soon as we decide to do so—we also need changes in our cultural approach to water that would prioritize sustainable usage and access for all. Like the oxygen we breathe, water is absolutely essential to survival, and there’s no substitute waiting in the wings.

  Rocks

  The most elusive ingredients needed to make our Stuff are underground. Metals, gems, and minerals—and their organic cousins petroleum and coal—are basically nonrenewable, unlike trees (renewable, as long as our rate of replanting is faster than our rate of use) or water (replenishable, which means a resource at risk of being depleted, but which can be restored in a healthy ecosystem over time). They’re also harder to reach. That’s where mining comes in.

  You’re unlikely to hear someone wax sentimental about rocks. They’re not grand, awe-inspiring living creatures like trees or a serene, healing, cleansing substance like water. You don’t hear appeals from nonprofits to save the poor silver or uranium from being removed from its native habitat. You are likely to run in to people who are emotionally attached to their rock-based Stuff, though. Threaten someone’s wedding ring, cell phone, and car, and you’re likely to wind up underground yourself.

  So what’s the big deal about removing these inanimate and uncharismatic resources from the earth in the name of our most cherished possessions? Well, for starters, there’s the issue of availability of these materials for future generations. What we use up today isn’t going to grow back. The fact that our primary economic model is based on using up nonrenewable resources, like minerals, is one of the main blind spots of the GDP as a viable measure of progress.

  And then there’s the whole story of how we get at those materials— mining. No matter how you slice it, mining is a serious drag—for people and the planet. Open-pit, strip, shaft, above the surface, below it, it doesn’t matter: these are energy-and water-intensive, waste-spewing, often poisonous, and all-around dirty processes. Communities are evicted, workers’ rights are violated, and the toxic by-products endanger everyone’s health, all in the name of mining. And the trauma doesn’t stop when a mine gets shut down—it continues for years afterward.

  Underground, or subsurface, mining involves tunnels dug deep down into the earth. Although this is probably the image—along with headlamps and canaries—that most people have in their heads when they think of mining, most mining today occurs in gigantic open-air pits. In the United States, open-pit mining provides the bulk of the minerals extracted; globally, two-thirds of all metals are from open pits.70 Diamonds, iron, copper, gold, and coal are all commonly extracted from open pits, which can be huge. The Bingham Canyon copper mine in Utah, for instance, covers about 3 square miles (7.7 square kilometers) and the Chuquicamata copper mine in northern Chile covers about 4.5 square miles (12 square kilometers).71 There’s also mountaintop removal, usually used to get at deposits of coal found deep inside mountains (see the box on coal on page 35). Particularly in developing countries there are also still small-scale “artisanal” operations that employ workers in mining accessible surface deposits using their hands and basic tools.

  Creating an open pit means chopping down trees (more trees!) and clearing off the land’s inhabitants, whether they walk on four or two legs. A report on the mining industry in India compared the mineral and forest maps, only to find that the highest concentrations of coal, bauxite (used for aluminum), and iron ore are all located in forest areas that are home to most of the country’s biodiversity and indigenous people as well.72

  And the living things atop a mine only make up the first layer of what gets scraped off. All the stone and soil covering up the valuable ores—what the mining industry terms “overburden”—also have to be removed using heavy duty tools like bulldozers, drills, explosives, and trucks (all of which require their own long lists of ingredients to create and operate). This rubble gets piled up, sometimes skyscraper high. In fact, open-pit mines produce eight to ten times as much waste rubble as underground mines.73

  Getting at the ore is only the beginning. Because even high-grade ore only contains a little bit of the pure metal or mineral being sought, it has to be processed, which involves more machinery as well as loads of water and chemicals. Most of the ore—and an ever-increasing amount, as high-grade sources disappear—ends up as waste. According to a report by Earthworks and Oxfam America called Dirty Metals, in the United States, “the copper ore mined at the beginning of the 20th century consisted of about 2.5 percent usable metal by weight; today that proportion has dropped to 0.51 percent. In gold mining, it is estimated that only 0.00001 percent [that’s one hundred thousandth of 1 percent] of the ore is actually refined into gold.”74 Chemicals used in processing contaminate at least 90 billion tons of waste ore per year globally, equivalent in weight to almost nine times as much trash produced annually by all U.S. cities combined.75

  Of course mine workers suffer disproportionately from the toxins, as well as from injuries caused by using dangerous heavy equipment and from events like explosions, fires, mudslides, etc. The International Labour Organization reports that although mining accounts for only 0.4 percent of the global workforce, it is responsible for more than 3 percent of fatal accidents at work (about eleven thousand per year, about thirty each day).76

  In Rajasthan, India, for example, miners—many of them women and children—toil long days to extract the marble and sandstone that furnishes fancy bathrooms and kitchens worldwide. GRAVIS, a nongovernmental organization inspired by Gandhi that works with Rajasthani miners, reports that about half of the mineworkers in the state have developed lung disease, such as silicosis. “The mineworkers work in deep open pits where the air is thick with dust from dry drilling, and safety equipment is nonexistent. There is no drinking water provided, no shade to rest in, no toilets, no first aid kits, and no worker’s compensation for accidents. Accidents occur frequently and often mineworkers have no extra money to pay for medical treatment.”77

  You would think, given all the costs, from contamination of water, air, and soil to the health care of workers, that mining companies would be hard-pressed to turn a profit. But only a smidgen of the true costs is borne by those companies; their balance sheets rarely factor in things like water or air quality. In fact, get this: it is virtually free to mine on U.S. federal lands. Under the General Mining Act, passed in 1872, any U.S. citizen eighteen years or older has the right to prospect and mine for minerals, such as gold, silver, platinum, copper, lead, and zinc, on federal lands. For free. The argument of the day was that miners and prospectors were performing valuable services by promoting commerce and settling new territory, particularly out west.78

  Since the passage of the act, it is estimated the federal government has given away minerals worth more than $245 billion.79 This not only deprives the government of revenue, it also encourages use of virgin materials instead of recycled. One study found that in the United States fifteen federal subsidies—averaging $2.6 billion each—annually benefit resource extractive industries,80 again guiding them toward virgin rather than recycled metals. When minerals are basically free, there is little incentive to conserve them or to go to the effort to recover the gold, silver, lead, and other metals in all the electronics and other Stuff we throw out.

  Thankfully, efforts are underway to update the antiquated mining law. In early 2009, the Hardrock Mining
and Reclamation Act was reintroduced, after the 2007 version failed to pass the U.S. Senate. The new law would impose a royalty of 4 percent of gross revenues on existing mining from unclaimed mines and place an 8 percent royalty on new mining operations. Seventy percent of the royalty money would go to a cleanup fund for past abandoned mining operations, and 30 percent would go to communities impacted by mining.81 While a step in the right direction, that law only pertains to mining on U.S. public lands. Meanwhile, the subsidies encouraging the use of virgin materials still exist; they need to go!

  If I wanted to examine every kind of metal and mineral that gets extracted to make our Stuff, it would take several books’ worth of stories. So let’s look at a select handful of rocks that get dug up or blasted out of the ground. They’re pretty representative of the way all the metals and minerals needed for our Stuff are extracted.

  Gold and Diamonds

  Gold is used for a lot of things, from dentistry to glassblowing to stockpiling wealth. Gold is also used in electronics; virtually every modern electronic device—cell phones, laptops, televisions, GPS systems, MP3 players—has a bit of gold in it. But the biggest use, dwarfing all the rest, is jewelry. Jewelry accounts for more than 75 percent of the total amount of gold consumed today.82

  Maybe you have a piece of gold jewelry that’s very dear to you. You’re not alone. I don’t have much of it, but I do have one little gold ring, given to me by a long-ago love.

  When he wanted to buy me a ring, I insisted on an old one and a small one. I’d seen gold mines in South Africa. I knew that gold mining is horribly polluting, is routinely linked to human rights violations, and that more than three-quarters of the gold mined around the world ends up in jewelry. Since there is a lot of gold in jewelry rattling around in old ladies’ dresser drawers and increasingly in piles of e-waste, why fuel the market for mining more? So he got me an antique ring from the Tiny Jewel Box store in Washington, D.C. It’s inscribed “16 Mai 1896” and has a fleck of sapphire surrounded by tiny pearls not much larger than pencil dots.

  I love that my ring has a past from long before me. Given the spelling of “May,” it was likely presented to someone in France or Germany. And given its tiny size, it seems unlikely to have been an engagement ring: perhaps a sweet-sixteen ring? I’ve often gazed at it and imagined its life on the finger of a young European woman and wondered who gave it to her. And of course the metal had a life before her, before being shaped into a ring.

  Where was the gold for my sweet little ring mined? Maybe South Africa? For years, South Africa has supplied much of the world’s gold and still provides more than a quarter of today’s demand. When I visited South Africa in the mid-1990s, I looked out the window of the car in which I was riding and wondered aloud what geologic processes could have created so many randomly spaced small hills that covered the countryside. “Those aren’t hills,” my South African host explained. “Those are piles of mining waste.”

  Mining enough gold for an average gold wedding ring creates about 20 tons of hazardous mining waste,83 which is sometimes dumped in rivers or the sea, sometimes just left right where it was created, as I saw in South Africa. The reason it’s toxic is that to get the gold from the ore, mining companies use a process called heap leaching, which means piling up the gold-containing ore and pouring cyanide over it to let it slowly drip through, extracting the gold on its way. At the same time, the cyanide also extracts toxic metals, including cadmium, lead, and mercury. The cyanide and toxic metal liquid runoff ends up in a big pool, from which the gold is extracted, leaving behind a heavy metal and cyanide contaminated pond next to a heavy metal and cyanide contaminated hill of leftover ore. Cyanide, I probably don’t need to remind you, is a deadly poison. An amount about the size of a grain of rice is enough to off a human being, and one-millionth of a gram of it in a liter of water kills fish,84 which is a big problem since much mine waste ends up in rivers and lakes.

  But my ring was so tiny! I reassured myself that it must have only created half the average amount of waste. Then I realized that’s still 10 tons.

  I hope my ring wasn’t made by pouring cyanide over heaps of earth. Cyanide wasn’t widely applied to gold ores until 1887.85 And maybe the gold in my ring is American, maybe even Californian, like me. Since early Californian gold miners didn’t use cyanide, this would free my ring from that toxic legacy but would unfortunately bring another equally problematic one.

  Gold was discovered in Northern California forty-eight years before my ring was inscribed. In 1848, a man named James Marshall working on a sawmill in Northern California found the shiny metal in the American River in Coloma. Marshall’s discovery led to the Gold Rush of 1849: hundreds of thousands of people arrived in hopes of striking it rich.86 As a result the white population in California soared from 13,000 to 300,000 by 1854, while California’s native American populations were decimated, declining from a pre-gold rush population of 150,000 to about 30,000 by 1870. Sixty percent of those deaths were linked to diseases introduced by the invading gold miners, while others were hastened by forced relocation onto reservations or happened in outright massacres.87

  In that era, the ore wrested from riverbanks and mountains was soaked with mercury to extract the gold. Mercury, which I’ll discuss more fully in the upcoming chapter on production, is a potent neurotoxin that can affect the brain, spinal cord, kidneys, and liver. (The term “mad hatter” comes from the neurological damage done to those who cleaned felt hats, which used to be done with—you guessed it—mercury.88) During the gold rush, an estimated 7,600 tons of mercury were deposited into the rivers of the central Sierra Nevada alone.89 That mercury remains in the California environment, in rivers and in sediments, much of it being continuously transported to the San Francisco Bay, where people swim and fish.

  The unfortunate fact is, I can’t tell you where the gold in my little ring came from, or who was harmed by its creation. All I know is that when it came to me, it was already secondhand—and that’s a plus. Since the great majority of gold is used for jewelry and since two-thirds of gold in use is newly mined, old gold is a good choice for people who believe that gold is the best way to symbolize love or commitment.

  Buying previously owned or recycled gold, or forgoing it altogether, is the best way to ensure we’re not contributing to the devastation caused by gold mining. However, for those who are stuck on buying new gold, there are still ways to lessen the impact. There are a number of jewelers who have committed to ensuring that the gold in their wares wasn’t produced at the expense of local communities, workers, or the environment. The No Dirty Gold campaign has developed a set of voluntary guidelines called the Golden Rules that jewelry retailers can sign on to in order to promote environmental, worker, and community rights. You can find out which jewelers are on board at www.nodirtygold.org.90

  Conflict Minerals

  Unfortunately the story of gold has a lot in common with the stories of almost all of the minerals or metals needed for our Stuff. Unfortunately, it gets even worse than gold.

  “Conflict minerals” is the term for valuable rocks that fuel violent conflict when the profit from their control, sales, taxation, or protection funds criminal gangs, brutal regimes, and weapons. These minerals and metals are usually mined under oppressive conditions, with workers paid little to nothing. According to Global Witness, a London-and Washington, D.C.-based organization leading the campaign on conflict diamonds, these rocks “have funded brutal conflicts in Africa that have resulted in the death and displacement of millions of people. Diamonds have also been used by terrorist groups such as al-Qaeda to finance their activities and for money-laundering purposes.”91

  The role of “conflict diamonds” or “blood diamonds” in Sierra Leone’s civil war has received global attention, in large part thanks to Global Witness’ Combating Conflict Diamonds campaign, launched in 1998. The situation was also brought to light through the 2006 film Blood Diamond. The film does a pretty good job of illustrating the brutalit
y of both the rebel forces that run the mines (kidnapping villagers to make them into miners and young boys to serve as child soldiers) as well as the government forces, which indiscriminately kill civilians and villagers alongside the rebels.

  In real life, during Sierra Leone’s eleven-year civil war from 1991 to 2002, a vicious rebel army called the Revolutionary United Front (RUF) utilized violence and terror, including rape, the systematic amputation of victims’ limbs, and mass murder. Tens of thousands of Sierra Leoneans were killed.92 In early 2009, three senior commanders of the RUF were convicted of war crimes and crimes against humanity. They had participated in seizing diamond mines, forcing kidnapped citizens to mine diamonds, and then trading the diamonds for money and military support.93 “Trade in diamonds and other natural resources has underwritten some of the worst war crimes of the past two decades,” said Mike Davis, who campaigns for Global Witness, an international nongovernment organization (NGO). “Yet despite cases such as Sierra Leone, there is still no comprehensive international approach to this problem. Natural resources continue to fuel conflict to this day, notably in eastern Democratic Republic of the Congo, where armed groups are financing themselves through the trade in minerals and committing atrocities against the civilian population.”94

  In 2000, the South African government hosted a meeting of major diamond trading and producing countries, diamond industry representatives, and NGOs in Kimberley, South Africa, to launch an international diamond tracking and certification program, which became known as the Kimberley Process. Formally launched in January 2003, it aims to guarantee a “clean” source of diamonds, free of conflict and violence. In order for a country to be a participant, it must ensure that none of its diamonds have financed a rebel group or other entity seeking to overthrow a UN-recognized government, that every diamond has official certification, and that no diamond is imported from or exported to a nonmember country.95 As Sierra Leonean Martin Chungong Ayafor testified to the UN, “ ‘Diamonds are forever,’ it is often said. But lives are not. We must spare people the ordeal of war, mutilations, and death for the sake of conflict diamonds.”96

 

‹ Prev