EarthTalk: paints and coal

Dear EarthTalk: Do insulating paints actually insulate and save energy? If they do, are they environmentally friendly to use?
-- Bob Dibrindisi, Easthampton, Mass.

Paint additives that claim insulating qualities have been marketed since the late 1990s, but energy research organizations have not confirmed their insulating value. For its part, the U.S. Environmental Protection Agency (EPA) does not recommend using paints or coatings in place of traditional bulk insulation. “We haven’t seen any independent studies that can verify their insulating qualities,” the agency reports. The federal government does rate roofing paint for its energy efficiency, but such findings only take into account a substance’s ability to reflect heat off the roof—not its insulating properties per se—to keep the building cooler.

According to the Department of Energy’s Oak Ridge National Laboratory, the use of so-called insulated paints is in most cases “difficult to justify on the basis of savings in energy costs alone.” Meanwhile, the non-profit EnergyIdeas Clearinghouse, a partnership between Washington State University and the nonprofit Northwest Energy Efficiency Alliance, found that under ideal circumstances insulating paints can achieve a “reduction in heat gain” of around 20 percent on freshly-painted sun-exposed walls, but notes that such walls will only face direct sunlight for a limited part of even the clearest summer day. Also, the clearinghouse reports that “heat gain reductions…are significant only for sun-bathed surfaces” and that the “reflectivity of the painted surface generally declines considerably with time.”

Alex Wilson of the website BuildingGreen.com is not a fan of insulating paints: "To say that there is a lot of hype about insulating paints … is an understatement,” he tells the website Treehugger.com. “The Internet is rife with claims of paints that dramatically reduce heat transfer—usually based on some technological magic spun off from NASA. While these products may have some relevance in the extreme conditions of outer space, manufacturers of paints containing [insulating additives] are making claims that defy the laws of physics…when they claim they can save significant energy in buildings."

Nevertheless, for certain applications, especially in concert with traditional forms of insulation underneath, insulating paint can help reduce energy expenditures and air conditioning bills accordingly. For those who want to forge ahead with insulating paint despite the limited benefits, some of the leading brands to look for include Insuladd, Hy-Tech, Therma-Guard and Eagle Coatings’ SuperTherm.

Adding insulating paint should merely be the icing on the cake of an otherwise well-conceived plan to cut heating and cooling costs. Installing a traditional form of insulation would be the first defense. A reflective, radiant barrier on the roof structure in the attic also could offer significant help, according to the Florida Solar Energy Center. Thermal-pane windows and energy-conscious practices will contribute to the effort. Finally, consider trees and other landscape shading, which the U.S. Department of Energy recommends as an effective way of passively cooling your home. For more ideas, visit the “do-it-yourself energy audit tool” on the Lawrence Berkeley National Laboratory’s Home Energy Saver website.

CONTACTS: U.S. EPA, www.epa.gov; EnergyIdeas Clearinghouse, www.energyideas.org; Insuladd, www.insuladd.com, Hy-Tech, www.hytechsales.com; Eagle Coatings, www.eaglecoatings.net; Therma-Guard, www.befreetech.com/thermaguard.htm; Home Energy Saver, www.hes.lbl.gov.

Dear EarthTalk: As I understand it, “clean” coal really isn’t—yet the Bush Administration gushed strongly for it. What is Obama’s take on it?
-- John Zippert, Eutaw, Ala.

Barack Obama and George W. Bush differ in many ways, but both have embraced so-called “clean coal” for providing an ongoing supply of cheap and readily available energy for electricity generation.

The term “clean coal” is loosely defined as coal that is washed or processed to remove pollutants, so as to reduce emissions of carbon dioxide (CO2), the leading greenhouse gas, when the coal is burned. Coal-burning plants emit 40 percent of U.S. CO2 pollution—half of our electricity comes from coal—so reducing the industry’s carbon footprint in any way possible would be a big win for the environment.

Luckily for clean coal advocates, the White House has been and continues to push for its development. George W. Bush’s support for clean coal dates back to his first term in office, when he stated that such technologies should be encouraged as a means of reducing dependence on foreign oil. And since taking office, the Obama administration has committed $3.4 billion in stimulus dollars to clean coal projects.

But green groups continue to question the wisdom of relying on coal at all. Coal wreaks environmental havoc, from the coal mines that pollute rivers and streams, to the premature deaths of coal miners from accidents and lung diseases, to the release of greenhouse gases, mercury and other toxins at power plants.

According to Greenpeace, burning coal emits 29 percent more CO2 than does burning oil or natural gas. And coal-fired power plants are the world’s largest sources of atmospheric mercury, a known neurotoxin that disperses quickly throughout the environment and into the food chain. Greenpeace says that clean coal technologies will not address this problem, and that there are “no commercially available technologies to prevent mercury emissions from coal-fired power plants.” Also, the group says, clean coal will do nothing to mitigate coal mining’s damage to wildlife habitat and drinking water sources.

“There is no such thing as ‘clean coal’ and there never will be,” Dan Becker of the Sierra Club told the Grist.org website. “It’s an oxymoron.” The Reality Coalition, a group of nonprofits that includes the Sierra Club, has been running TV ads seeking to debunk industry claims that coal can be clean. Green groups also worry that pushing clean coal will only delay the transition to a truly cleaner and greener energy infrastructure based on solar, wind and other emissions-free renewable energy sources.

In April of 2009, environmental lawyer Robert F. Kennedy, Jr. questioned the motivations of Obama and other politicians who back clean coal. “The coal industry and the carbon industry in general are the largest contributors to the political process,” Kennedy told ABC News. “You don’t have politicians representing the American public, but rather the people who finance their campaigns.”

Of course, Obama’s support for clean coal doesn’t negate the fact that he has proposed spending much more on further development of alternative energy sources. He has called for getting 10 percent of U.S. electricity from renewable sources by 2012 and 25 percent by 2025, and has committed upwards of $32 billion of stimulus dollars to the cause, according to an analysis by the nonprofit Environment America.

CONTACTS: Greenpeace, www.greenpeace.org; Reality Coalition, www.thisisreality.org.

Dear EarthTalk: Don’t some scientists point to sunspots and solar wind as having more impact on climate change than human industrial activity?
-- David Noss, California, Md.

Sunspots are storms on the sun’s surface that are marked by intense magnetic activity and play host to solar flares and hot gassy ejections from the sun’s corona. Scientists believe that the number of spots on the sun cycles over time, reaching a peak—the so-called Solar Maximum—every 11 years or so. Some studies indicate that sunspot activity overall has doubled in the last century. The apparent result down here on Earth is that the sun glows brighter by about 0.1 percent now than it did 100 years ago.

Solar wind, according to NASA’s Marshall Space Flight Center, consists of magnetized plasma flares and in some cases is linked to sunspots. It emanates from the sun and influences galactic rays that may in turn affect atmospheric phenomena on Earth, such as cloud cover. But scientists are the first to admit that they have a lot to learn about phenomena like sunspots and solar wind, some of which is visible to humans on Earth in the form of Aurora Borealis and other far flung interplanetary light shows.

Some skeptics of human-induced climate change blame global warming on natural variations in the sun’s output due to sunspots and/or solar wind. They say it’s no coincidence that an increase in sunspot activity and a run-up of global temperatures on Earth are happening concurrently, and view regulation of carbon emissions as folly with negative ramifications for our economy and tried-and-true energy infrastructure.

“[V]ariations in solar energy output have far more effect on Earth’s climate than soccer moms driving SUVs,” Southwestern Law School professor Joerg Knipprath, writes in his ‘Token Conservative’ blog. “A rational thinker would understand that, especially if he or she has some understanding of the limits of human influence. But the global warming boosters have this unbounded hubris that it is humans who control nature, and that human activity can terminally despoil the planet as well as cause its salvation.”

Many climate scientists agree that sunspots and solar wind could be playing a role in climate change, but the vast majority view it as very minimal and attribute Earth’s warming primarily to emissions from industrial activity—and they have thousands of peer-reviewed studies available to back up that claim.

Peter Foukal of the Massachusetts-based firm Heliophysics, Inc., who has tracked sunspot intensities from different spots around the globe dating back four centuries, also concludes that such solar disturbances have little or no impact on global warming. Nevertheless, he adds, most up-to-date climate models—including those used by the United Nations’ prestigious Intergovernmental Panel on Climate Change (IPCC)—incorporate the effects of the sun’s variable degree of brightness in their overall calculations.

Ironically, the only way to really find out if phenomena like sunspots and solar wind are playing a larger role in climate change than most scientists now believe would be to significantly reduce our carbon emissions. Only in the absence of that potential driver will researchers be able to tell for sure how much impact natural influences have on the Earth’s climate.

CONTACTS:  NASA’s Marshall Space Flight Center, www.solarscience.msfc.nasa.gov; Token Conservative Blog, www.tokenconservative.com  IPCC, www.ipcc.ch.

Dear EarthTalk: Are the United States’ vast oil shale resources a potential source of energy?
-- Larry LeDoux, Honolulu, Hawaii

Oil shale is a fine-grained sedimentary rock that contains significant amounts of kerogen, a solid mixture of organic chemical compounds that can be converted into synthetic liquid fuel similar to oil, or into shale gas similar to petroleum-derived natural gas. Geologists believe there is more oil shale out there in the rocks of the world—three trillion barrels worth of fuel—than there is oil in existing reserves globally.

Oil shale has been mined extensively in Brazil, China, Estonia, Germany, Israel and Russia, but up to two-thirds of the world’s supply lies in the Green River basin of the western United States, including parts of Wyoming, Utah and Colorado. To date, these American oil shale resources remain virtually untapped, but an 11th hour executive order by the Bush administration in 2008 put two million acres of Bureau of Land Management (BLM) land across Wyoming, Utah and Colorado up for lease to oil shale extractors.

Other nations with oil shale reserves have been mining them for decades for power generation and other uses, but American enthusiasm has run hot and cold, depending on oil prices. The U.S. was bullish on oil shale during the 1970’s oil shocks, but when gas prices fell again, so did the enthusiasm for oil shale.

American companies didn’t look into mining domestic oil shale again until 2003—again, thanks to spiking oil prices. George W. Bush’s Energy Policy Act of 2005 officially opened federal lands to oil shale extraction. But then once again lowered oil prices, along with environmental concerns and growing enthusiasm for renewable energy sources left oil shale’s future in the U.S. again uncertain.

For their part, environmental groups are unequivocally against oil shale extraction. For one, extracting operations destroy affected landscapes, forcing plants and animals out, with regeneration unlikely for decades. Another big issue with oil shale extraction is water usage. The process requires as much as five barrels of water—for dust control, cooling and other purposes—for every barrel of shale oil produced.

Oil shale extraction is also very energy-intensive, and as such is no solution to our global warming woes. Researchers have found that a gallon of shale oil can emit as much as 50 percent more carbon dioxide than a gallon of conventional oil would over its given lifecycle from extraction to tailpipe.

Due to these concerns and others, 13 environmental groups, including the Wilderness Society, Sierra Club and Natural Resources Defense Council, teamed up in January 2009 to file suit against the federal government for opening up all that western U.S. land to oil shale development. The suit contends that the BLM failed to properly consider air quality and endangered species impacts in the region. The groups also contend that the development would require the construction of 10 new coal-fired power plants in order to get at and process the oil shale, significantly upping the carbon footprint of the entire region.

Green groups hope that the Obama administration will overturn Bush’s decision to lease development rights on the land, which is near three national parks in one of the least developed parts of the U.S.

CONTACTS: Bureau of Land Management, www.blm.gov; Wilderness Society, www.wilderness.org; Sierra Club, www.sierraclub.org; Natural Resources Defense Council, www.nrdc.org.

Dear EarthTalk: Has the recent violence in the Democratic Republic of Congo threatened the populations of lowland gorillas? How many are left?
-- Glenn Hammond, San Francisco, Calif.

The short answer is yes, dramatically. Not to be confused with Western Lowland Gorillas, which are thriving in significant numbers in neighboring Congo (a recent census counted 125,000), today fewer than 5,000 Eastern Lowland Gorillas are estimated to remain in the Democratic Republic of Congo (DRC), formerly known as Zaire. Some 17,000 inhabited the region as recently as 1994, but today habitat loss, hunting, and war and violence are combining to push them over the edge.

Following the 1994 genocide in Rwanda, an influx of refugees, along with bloodthirsty militias, moved across the border into the neighboring DRC. These militias set up training grounds in the very forests the gorillas call home, making conservation work impractical to say the least. Park rangers, game wardens and wildlife researchers either fled their wooded beats or were removed at gunpoint.

In the wake of this, civilian populations in the affected areas still had to make ends meet somehow. So hunting for so-called “bushmeat,” and cutting down the forest for firewood, charcoal and space for agricultural plots became the means for day-to-day survival, and continue to this day. Some 91 percent of the human population in the region practice subsistence agriculture. This means that large swaths of gorilla habitat throughout the region have been converted to farms. At the same time, 96 percent of the locals rely on firewood as their main supply of energy for warmth and cooking. “Forested parks are for many of them the last remaining source of fuel,” reports the Year of the Gorilla website.

Because the violence has been so persistent and the research areas so vulnerable, scientists don’t really know how badly Eastern Lowland Gorilla populations have been affected. The Year of the Gorilla Project, in conjunction with the Worldwide Fund for Nature (WWF), the Wildlife Conservation Society (WCS) and other groups, is working to reinstate regular monitoring and effective surveillance of the remaining Eastern Lowland Gorilla population throughout Kahuzi-Biega National Park, where armed factions have proliferated.

“The last reliable data on population size and distribution were recorded in 1995, and it is suspected that the population has shrunk dramatically since,” reports the Year of the Gorilla website. “New, precise information will be one outcome of this project, enabling intelligent and effective approaches to the conservation of this rare species.”

Biologists, environmentalists and wildlife fans the world over are certainly hoping for the best, and will no doubt continue to watch what happens as the fate of some of our closest relatives on the planet hangs in the balance.

CONTACTS: Year of the Gorilla, www.yog2009.org ; WWF, www.panda.org ; WCS, www.wcs.org; Congolese Institute for the Conservation of Nature, www.fieldmuseum.org/congo/insticcn.html

Dear EarthTalk: I know of solar power systems that people can put on their roofs to generate electricity or heat water. Are there systems that serve whole neighborhoods?
-- Lee Helscel, via email

Collective bargaining is a good strategy when looking to get the best price on a given product or service. Solar power is no exception, and dozens of neighborhood-wide installations in the U.S. and Canada have created a new model whereby going solar can actually start to pencil out for individual homeowners.

One of the first neighborhood-wide solar installations in the world was at the master-planned community of Drake Landing in the town of Okotoks in Alberta, Canada. The entire community, now with more than 50 homes built and occupied, is heated by a neighborhood-wide “borehole thermal energy” system designed to store abundant solar energy underground during the summer and distribute it to each home as needed for space heating throughout the winter. The system, which launched in June 2007, now fulfills some 90 percent of each home’s space heating needs, with any slack taken up by fossil fuels.

While some planned communities like Drake Landing incorporated neighborhood solar power from the get-go, others decided it made sense after they were first built. One example is the deal that homeowners in Marin County, California can get in on, thanks to the hard work of the nonprofit GoSolarMarin. The group negotiated discounted group rates with several photovoltaic solar panel providers, and eventually signed on with SolarCity, a Silicon Valley based solar provider that operates some 30 different “community solar programs” across California, Arizona and Oregon.

GoSolarMarin was able to negotiate a rate some 25 percent lower than what a typical solar installation would cost for Marin County residents willing to participate. And best of all, homeowners can lease from SolarCity instead of having to pay tens of thousands of dollars out of pocket to buy equipment that may become obsolete in a few years. SolarCity monitors all clients’ installations online to ensure that they are running at peak performance, and also makes house calls for maintenance as needed.

While California is no doubt a leader in residential solar power, the concept is spreading. Neighborhood Solar, for instance, is a Colorado-based nonprofit formed to accelerate the adoption of residential solar power in the Denver Metro area. The group organizes homeowners into collective solar purchasing groups, and negotiates significant discounts accordingly. “We act as an independent buyer’s agent,” the group reports on its website, “with the goal of providing the best value to residential solar purchasers while helping installers put up more solar at reduced overhead costs.”

Community-based groups like GoSolarMarin and Neighborhood Solar are springing up all over the country, and dozens of solar companies have now adopted the community installation model. Community leaders interested in neighborhood-scope solar programs should shop around for the best prices and service guarantees before signing with any one solar provider. There’s a lot individuals can do to be part of clean energy solutions; there’s even more a group working in concert can accomplish, and community-based solar is but one bright and shining example.

CONTACTS: Drake Landing Solar Community, www.dlsc.ca; GoSolarMarin, www.gosolarmarin.com; SolarCity, www.solarcity.com  Neighborhood Solar, www.neighborlysolar.com.

Dear EarthTalk: How can I recycle my old mattress if the place I buy a new one from doesn’t take it? What do mattress companies do with old mattresses when they do take them? Do they recycle any of the material?
-- J. Belli, Bridgeport, Conn.

A typical mattress is a 23 cubic foot assembly of steel, wood, cotton and polyurethane foam. Given this wide range of materials, mattresses have typically been difficult to recycle—and still most municipal recycling facilities won’t offer to do it for you. But along with increasing public concerns about the environment—and a greater desire to recycle everything we can—has come a handful of private companies and nonprofit groups that want to make sure your old bed doesn’t end up in a landfill.

The Lane County, Oregon chapter of the charity St. Vincent de Paul Society, for example, has spearheaded one of the nation’s most successful mattress recycling initiatives via its DR3 (“Divert, Reduce, Reuse, Recycle”) program. “Keeping [mattresses] out of landfills is a matter of efficiently recycling them so their core materials can be reincarnated into any number of new products,” reports the group, which opened a large mattress recycling center in Oakland, California in 2001. (Why hundreds of miles away in Oakland? To “go where the mattresses are,” says Chance Fitzpatrick of the group.) The facility has been processing upwards of 300 mattresses and box springs per week ever since.

During the recycling process, each mattress or box spring is pushed onto a conveyor belt, where specially designed saws cut away soft materials on the top and bottom, separating the polyurethane foam and cotton fiber from the framework. The metal pieces are magnetically removed, and the remaining fiber materials are then shredded and baled. The whole process takes one worker just three to four minutes per mattress.

On a slow day, the DR3 facility recycles some 1,500 pounds of polyurethane foam, which totals a half million or more pounds over the course of a year. “A well-oiled recycling factory can reuse 90 percent of the mattress,” reports Josh Peterson of Discovery’s Planet Green website. “The cotton and cloth get turned into clothes. The springs and the foam get recycled, and the wood gets turned into chips.”

While the DR3 facility only takes mattresses from a small group of waste haulers and individuals around the San Francisco Bay Area, other mattress recyclers are popping up around the U.S. and beyond. Some examples include Nine Lives Mattress Recycling in Pamplico, South Carolina; Conigliaro Industries in Framingham, Massachusetts; MattCanada in Montreal, Québec; and Dreamsafe in Moorabbin, Australia. To find a mattress recycler near you, consult the free online database at Earth911.org.

Those who aren’t near a recycling facility might consider giving their old mattress away. But many health departments prohibit donating mattresses to charities like the Salvation Army or Goodwill. So what’s an upgraded sleeper with a perfectly good old mattress to do? The web-based Freecycle Network allows people to post stuff to give away to anyone willing to come pick it up; likewise, chances are your local version of Craigslist also has a “free” section where you can post that it as available.

CONTACTS: DR3 Mattress Recycling, www.svdp.us/dr3-mattress-recycling.php5; Nine Lives Mattress Recycling, www.geocities.com/ninelives29577; Conigliaro Industries, www.conigliaro.com; MattCanada, www.mattcanada.com; Dreamsafe, www.dreamsafe.com.au; Freecycle Network, www.freecycle.org.

Dear EarthTalk: Is there any truth to the rumor about high levels of birth control chemicals being found in some cities’ drinking water? If so can these be filtered out?
-- Elizabeth Yerkes, via email

It is true that trace amounts of birth control and other medications—as well as household and industrial chemicals of every stripe—are present in many urban and suburban water supplies around the country, but there is considerable debate about whether their levels are high enough to warrant concern.

In 2008 the U.S. Geological Survey (USGS) tested water in nine states across the country and found that 85 man-made chemicals, including some medications, were commonly slipping through municipal treatment systems and ending up in our tap water. Another report by the Associated Press found trace amounts of dozens of pharmaceuticals in the drinking water supplies of some 46 million Americans.

But according to USGS, such chemicals and medications are so diluted—at levels equal to a thimble full of water in an Olympic-sized swimming pool—that they do not pose a health threat. But others aren’t so sure. Researchers have found evidence that even extremely diluted concentrations of drug residues harm fish, frogs and other aquatic species, and have been shown to labs to impair human cell function.

One of the common culprits is estrogen, much of which is inadvertently released into sewers through the urine of women taking birth control. Studies have shown that estrogen can wreak reproductive havoc on some fish, which spawn infertile offspring sporting a mixture of male and female parts. Researchers at the University of Pittsburgh found that human breast cancer cells grew twice as fast when exposed to estrogen taken from catfish caught near untreated sewage overflows. “There is the potential for an increased risk for those people who are prone to estrogenic cancer,” said Conrad Volz, lead researcher on the study.

What may be more troubling is the mixture of contaminants and how they might interact to cause health problems. “The biggest concern is the stew effect,” says Scott Dye of the Sierra Club’s Water Sentinels program. “Trace amounts of this mixed with trace amounts of that can equal what? We don’t know.”

With such contaminants proving elusive to municipal filtration systems, the burden of protection often lies with the end user. But getting traces of birth control and other drugs out of your tap water isn’t so easy. Of the many different kinds of in-home water filtration systems available today, only those employing reverse osmosis have been shown to filter out some drugs. Some makers of activated carbon water filters claim their products catch pharmaceuticals, but independent research has not verified such claims.

“The best choice,” says Cathy Sherman of the natural health website Natural News, “would probably be a combination of a reverse osmosis filter augmented by pre- and post-activated carbon filters.” Installing such a system just for drinking water is sufficient, she says, given that water used for cleaning and plumbing doesn’t typically get ingested. As to prevention, the non-profit public health and safety agency, NSF International, urges individuals to not use their toilets or sinks to dispose of unused medications and to opt for the garbage instead; most modern landfills are lined to keep such contaminants inside.

CONTACTS:  USGS Water Resources, water.usgs.gov; Sierra Club, www.sierraclub.org/watersentinels; NSF International, www.nsf.org; Natural News, www.naturalnews.com.

Dear EarthTalk: What is "nanotechnology?" I’ve heard that nanoparticles are already in consumer products, yet we haven't really studied their potential health impacts.
-- Dan Zeff, San Francisco, Calif.

Nanotechnology makes use of minuscule objects—whose width can be 10,000 times narrower than a human hair—known as nanoparticles. Upwards of 600 products on store shelves today contain them, including transparent sunscreen, lipsticks, anti-aging creams and even food products.

Global nanotechnology sales have grown substantially in recent years, to $50 billion in 2007, according to Lux Research, author of the annual Nanotech Report. And the final tally isn’t in yet, but analysts had predicted 2008 sales to be $150 billion. The National Science Foundation says the industry could be worth $1 trillion by 2015, when it would employ two million workers directly.

What makes nanoparticles so useful is their tiny size, which allows for manipulation of color, solubility, strength, magnetic behavior and electrical conductivity. Nanoparticles do exist in nature, and they’re also created inadvertently through some industrial processes. What’s new—and potentially hazardous—is the widespread engineering of these particles for commercial purposes.

While there is no conclusive evidence that nanomaterials are either unsafe or not, health advocates worry that we’re already putting them on our bodies and ingesting them as if they’d been thoroughly tested and proven safe. Animal studies, including one with rats at the University of Rochester, have shown that some nanoparticles can cross the blood-brain barrier, which protects the brain from toxins in the bloodstream. And inhaled nanoparticles have also harmed the lungs of animal test subjects.

Despite these and other studies, nanomaterials are virtually unregulated in the U.S. And of $1.3 billion budgeted for research in 2006, only $38 million went to examining risks to health and to the environment.

“While the benefits of nanotechnology are widely publicized, the discussion of the potential effects of their widespread use in consumer and industrial products is just beginning to emerge,” reports the Journal of Nanobiotechnology. “Both pioneers of nanotechnology and its opponents are finding it extremely hard to argue their case as there is limited information available to support one side or the other.”

Europe’s regulators are far more wary about nanotechnology than their American counterparts. Britain’s Royal Society recommended in 2004 that nanoparticles be viewed as brand new substances, and the European Commission is examining them on a case-by-case basis. The U.S. Environmental Protection Agency is loosely charged with regulating nanotechnology here, but has barely dipped its toe in the water.

Taken together, the evidence suggests considerable uncertainty about the use of nano-ingredients in consumer products. It’s just not known if they’re safe, which begs the question: Why have we gone ahead and approved them for commercial use? Indeed, we may look back at our current decade and see it, for better or worse, as a time when tiny things caused big and momentous changes in our lives.

CONTACTS: EU’s REACH Law, www.ec.europa.eu/environment/chemicals/reach/reach_intro.htm; U.S. Environmental Protection Agency Nanotechnology Page, www.epa.gov/ncer/nano.

Dear EarthTalk: How is the fur industry doing these days? Has it been impacted by activism from PETA and similar groups?
-- Clara Andrews, Edmonds, Wash.

An accurate source of up-to-date numbers is hard to come by, but it’s safe to say that the fur industry has been hurt by the ongoing and very visible anti-fur campaign—sometimes featuring top supermodels—by People for the Ethical Treatment of Animals (PETA) and other animal rights groups.

Whether or not activist efforts are the cause, the governments of the United Kingdom and Austria have banned fur farming in their countries altogether, while The Netherlands has phased out fox and chinchilla farming. The U.S. has not taken any action against the industry, but the number of mink farms in the U.S. has plummeted from 1,027 in 1988 to less than 300 today, according to Weekly International Fur News.

But while the fur industry’s sales numbers may have trailed off through the 1990s, resurgence in the popularity of fur—especially among newly affluent high-fliers in Russia and China—has meant that business is booming for those furriers serving such far-flung markets.

By 2004 the industry was reporting banner sales—some $11.7 billion worldwide—despite the slumping post-9/11 economy. “Fur remains big with international designers and is set to continue as an integral part of fashion,” International Fur Trade Federation (IFTF) chairman, Andreas Lenhart, told reporters.

According to IFTF data, the vast majority of the fur industry's pelts—upwards of 85 percent—now come from farm-raised animals. (This does mean, though, that 15 percent are still caught in the wild, often by trapping methods that are painful as well as indiscriminate, catching unintended quarry, including endangered species and domestic pets.) The most farmed such animal is the mink, followed by the fox. Chinchilla, lynx, muskrats and coyotes are also farmed for their fur. PETA reports that 73 percent of the world’s remaining fur farms are in Europe, while about 12 percent are in North America.

IFTF argues that fur farming has environmental benefits, such as providing good use for 647,000 tons of animal by-products each year from Europe’s fish and meat industries alone (they are fed to the captive animals), and generating a lot of manure, sold as organic fertilizer. Mink farming also provides fat for soaps and hair products, says IFTF.

Of course, anti-fur activists don’t see it this way. “The amount of energy needed to produce a real fur coat from ranch-raised animal skins is approximately 15 times that needed to produce a fake fur garment,” says PETA. “Nor is fur biodegradable, thanks to the chemical treatment applied to stop the fur from rotting.” PETA adds that these same chemicals contaminate groundwater near fur farms if not handled responsibly.

Activists are also concerned, of course, about the conditions animals endure on fur farms. “The animals—who are housed in unbearably small cages—live with fear, stress, disease, parasites and other physical and psychological hardships...” reports PETA. The group adds that the animals are killed in very inhumane ways—such as by electrocution, gassing or poisoning—to preserve the quality of the pelts above all else.

CONTACTS: PETA, peta.org; IFTF, iftf.org.

Dear EarthTalk: Is it true that the loss of the world’s peatlands is a major factor in the build-up of greenhouse gases in the atmosphere. If so, what can be done about it?
-- Larissa S., Las Vegas, Nev.

Peatlands are wetland ecosystems that accumulate plant material to form layers of peat soil up to 60 feet thick. They can store, on average, 10 times more carbon dioxide (CO2), the leading greenhouse gas, than other ecosystems. As such, the world’s peat bogs represent an important “carbon sink”—a place where CO2 is stored below ground and can’t escape into the atmosphere and exacerbate global warming. When drained or burned, however, peat decomposes and the stored carbon gets released into the atmosphere.

A 2007 United Nations Environment Programme (UNEP) study of the role peatlands play in human-induced climate change found that the world’s estimated 988 million acres of peatland (which represent about three percent of the world’s land and freshwater surface) are capable of storing some two trillion tons of CO2—equivalent to about 100 years worth of fossil fuel emissions.

As such, the widespread conversion of peat bogs into commercial uses around the world is serious cause for alarm. In Finland, Scotland and Ireland, peat is harvested on an industrial scale for use in power stations and for heating, cooking and use in domestic fireplaces.

But the problem is most urgent in countries like Indonesia and Malaysia, where economic hardships force people to drain peatlands to create farms and plantations. Marcel Silvius of the Dutch non-profit Wetlands International says that “annual peatland emissions from Southeast Asia far exceed fossil fuel contributions from major polluting countries.” He adds that Indonesia, now ranked 21st in the world in greenhouse gas emissions, would move to third place (behind the U.S. and China) if peatland losses were factored in.

Wetlands International estimates that CO2 emissions from drained or burnt Indonesian peatlands alone total some two billion tons annually, equal to about 10 percent of the emissions resulting from burning coal, oil and natural gas. Similar amounts of CO2 are likely coming out of Malaysian peatlands as well.

The problem has worsened in recent years as surging global demand for timber, pulp and biofuel speeds up the conversion of otherwise-ignored peatlands to intensively managed tree farms and palm oil plantations. Silvius says that a ton of palm oil—Indonesia’s top export and the key ingredient in biodiesel fuel—grown on drained peatlands emits 20 times more CO2 than a ton of gasoline. Yet, he says, protection of peatlands may actually be one of the least costly ways to mitigate global warming, as it would cost less than seven cents ($US) per ton of avoided CO2.

“Just like a global phase out of old, energy guzzling light bulbs or a switch to hybrid cars,” says UNEP head Achim Steiner, “protecting and restoring peatlands is perhaps another key ‘low hanging fruit’ and among the most cost-effective options for climate change mitigation.” For its part, UNEP is stressing that countries should be allowed to count protecting peatlands as among their creditable efforts to reduce their carbon footprints as the world braces for global warming.

CONTACTS: UNEP, www.unep.org; Wetlands International, www.wetlands.org.

Dear EarthTalk: Has anyone been tracking whether climate change is causing more loss of human life as it gets more pronounced?
-- Gordon Gould, Compton, Calif.

Researchers believe that global warming is already responsible for some 150,000 deaths each year around the world, and fear that the number may well double by 2030 even if we start getting serious about emissions reductions today.

A team of health and climate scientists from the World Health Organization (WHO) and the University of Wisconsin at Madison published these findings last year in the prestigious, peer-reviewed science journal Nature. Besides killing people, global warming also contributes to some five million human illnesses every year, the researchers found. Some of the ways global warming negatively affects human health—especially in developing nations—include: speeding the spread of infectious diseases such as malaria and dengue fever; creating conditions that lead to potentially fatal malnutrition and diarrhea; and increasing the frequency and severity of heat waves, floods and other weather-related disasters.

Backing up WHO’s findings is a study by Stanford civil and environmental engineer, Mark Jacobson, showing a direct link between rising levels of carbon dioxide (CO2) in the atmosphere and increased human mortality. He found that the added air pollution caused by each degree Celsius increase in temperature caused by CO2 leads to about 1,000 additional deaths in the U.S. and many more cases of respiratory illness and asthma. Jacobson estimates as many as 20,000 air-pollution related deaths may occur worldwide each year with each one degree Celsius increase.

“This is a cause and effect relationship, not just a correlation,” relates Jacobson. “The study was the first to specifically isolate CO2’s effect from that of other global-warming agents and to find quantitatively that chemical and meteorological changes due to CO2 itself increase mortality due to increased ozone, particles and carcinogens in the air.”

For their part, though, global warming skeptics such as atmospheric physicist Fred Singer maintain that cold weather snaps are responsible for more human deaths than warm temperatures and heat waves. “The elderly die in inadequately heated homes. People get skull fractures from falls on the ice. Men die of heart attacks while shoveling snow. People get colds, flu, pneumonia and other respiratory diseases. Infectious diseases proliferate. Hospital admissions rise.” Singer, founder of the Science and Environmental Policy Project, concludes that since global warming would raise maximum summer temperatures modestly while raising winter minimum temperatures significantly, it “should help reduce human death rates.”

A team of Harvard researchers found otherwise. Their July 2007 study, published in the peer-reviewed Occupational and Environment Medicine, found that global warming is likely to cause more deaths in summer because of higher temperatures, but not fewer deaths in milder winters. In analyzing weather data related to the deaths of 6.5 million people in 50 American cities between 1989 and 2000, the researchers found that during two-day cold snaps there was a 1.59 percent increase in deaths because of the extreme temperatures. But in similar periods of extremely hot weather, mortality rates increased 5.74 percent.

CONTACTS: WHO, www.who.int ; Science and Environmental Policy Project, www.sepp.org.

Dear EarthTalk: What is the status of Hawaiian monk seals and how will the new national monument designation in the waters around the Hawaiian Islands affect them?
-- Polly LaBarre, New York, N.Y.

Easily exploited by hunters, whalers and fishermen in the 19th century, Hawaiian monk seals essentially never recovered. As early as 1976, the Hawaiian monk seal was listed as endangered under the U.S. Endangered Species Act. The species is also on the International Union for the Conservation of Nature’s (IUCN’s) Red List of Threatened Species, and trade in the species or its parts is banned under the Convention on International Trade in Endangered Species (CITES).

According to statistics from the U.S. National Marine Fisheries Service, beach counts of  populations of Hawaiian monk seals declined by some 60 percent between 1958 and 1996. Today only 1,300-1,400 of the animals exist in the wild, and their populations have declined about four percent annually in recent years.

What makes marine biologists and environmentalists so sad to see Hawaiian monk seal populations dwindle is the fact that the charismatic mustachioed creatures are one of the few mammals known to science to have evolved very little from their ancestral beginnings some 15 million years ago. In a sense, the monk seals are living fossils, and provide scientists with a window in days long gone by.

In June 2006, the Bush administration created the Papahanaumokuakea Marine National Monument, a 1,200-mile-long, 140,000-square-mile stretch of open ocean northwest of Honolulu. The area is dotted with uninhabited islands and reefs that provide perfect habitat for some 7,000 different species of marine wildlife, a quarter of which, like the monk seal, are found nowhere else on the planet. The establishment of the monument ensures that no development or resource extraction will take place in the area, which is roughly the size of California and is the largest protected marine area in the world. Meanwhile, public access is restricted. And commercial and sport fishing will be phased out there within five years.

The establishment of the new national monument is key to saving the monk seals, as habitat loss is currently their chief threat, given that hunting is no longer allowed. Other threats include incidental capture in fishing gear, ingestion of fisheries debris or toxic substances, a decrease in prey availability—monk seals are carnivores—and even intentional kills, in some cases by misguided fishermen thinking that the seals are competing for their catches. These factors, along with an inherently slow reproductive rate, continue to threaten the remaining Hawaiian monk seal population.

While the protection of critical habitat, such as in Papahanaumokuakea, is an important part of an overall strategy to try to save the charismatic species from extinction, other conservation efforts include learning more about the animals’ reproductive habits, the rehabilitation and release of undersized seal pups that would not otherwise make it in the open ocean without help, captive breeding, the removal of marine debris, and the mitigation of other human disturbances—from loud boat engines to oil spills.

CONTACTS: IUCN, www.iucn.org; CITES, www.cites.org; U.S. National Marine Fisheries Service, www.nmfs.noaa.gov; Papahanaumokuakea Marine National Monument, www.hawaiireef.noaa.gov.

Dear EarthTalk: We will need to replace our house gutters soon. What are our best options from an environmental perspective?
-- Jodie Green, Dallas, Texas

First understand clearly why your gutters need to be replaced. Are they rusted or broken? Are the fasteners no longer holding them in place? Or have the gutters leaked and failed to keep water out of your house? Answers to these questions will help you decide which type of gutter to choose.

Use a material that is the most durable for your climate; ultimately the longer your gutters last, the less environmental cost there will be in the product lifecycle, from manufacturing to recycling. A cheaper product that degrades twice as fast as another would not be the best choice, even if it does have a greener production process: The extra cost of having to fix your water-damaged home—and the health problems that could arise from exposure to mold—would make a “cheaper” gutter in reality much more costly.

“Galvanized steel, copper and aluminum are preferred gutter materials,” reports Austin Energy, the Texas capitol’s community-owned electric utility. Copper is a more expensive, high-end gutter material, as are stainless steel and wood, although wood is used mostly in historical restoration.

According to home improvement expert Don Vandervort, who writes for ThisOldHouse.com, steel and aluminum each have big pluses. Steel is sturdy, while aluminum will not rust. Copper and stainless steel are sturdy and lasting, too, says Vandervort, but they can cost three to four times as much as steel or aluminum. “Steel gutters can stand up to ladders and fallen branches better than aluminum,” he says. “But even thick galvanized steel eventually rusts.” He advises buying “the thickest you can afford.” Austin Energy says that gutters should be a minimum of 26 gauge galvanized steel or 0.025 inch aluminum.

Polyvinyl chloride (PVC) is also used for gutters, but “can get brittle with age or in extreme cold,” says Vandervort, and cannot carry as much snow load as metal gutters. PVC is also not a very green-friendly choice. The Center for Health, Environment and Justice (CHEJ) calls PVC plastic “one of the most hazardous consumer products ever created…dangerous to human health and the environment throughout its entire life cycle.” When produced or burned, says CHEJ, PVC plastic releases dioxins, a group of potent synthetic chemicals that can cause cancer and harm the immune and reproductive systems.

Replacing your gutters can be an unfortunate expense, but it can provide an environmental opportunity, because the way you handle your roof’s water is important. Consider linking your gutters to a “rooftop catchment system” that captures rainwater in a cistern or rain barrels and can then be used to water non-edible plantings. Efficient water use is a guideline in the U.S. Green Building Council’s LEED (Leadership in Energy and Environmental Design) for Homes standard for certifying green-built homes.

Finally, if you have a problem with debris, consider a RainTube. This recycled-plastic gutter insert (which won the 2008 Sustainable Product Award from Green Building Pages) keeps gutters clear of debris, preventing overflow into your house. Of course, cleaning your gutters now and then is probably the best environmental option in that it may head off any need for replacement or modification.

CONTACTS: Austin Energy, www.austinenergy.com; U.S. Green Building Council, www.usgbc.org; RainTube, www.raintube.com; Green Building Pages, www.greenbuildingpages.com.

Dear EarthTalk: I don’t understand why there are many European diesel cars with very high mileage ratings that are not available in the U.S. Can you enlighten?
-- John Healy, Fairfield, Conn.

Different countries do have differing standards in regard to how much pollution gasoline and diesel automobile engines are allowed to emit, but the reason you see so fewer diesel cars in the U.S. is more of a choice by automakers than the product of a decree by regulators on either side of the Atlantic.

Since the advent of the automobile age in the U.S., gasoline has been king of the road; today upwards of 95 percent of passenger cars and light trucks on American roads are gas-powered. And the federal government has done its part to keep it that way, taxing diesel at a rate about 25 percent higher than gasoline. A recent assessment by the American Petroleum Institute, an oil industry trade group, found that federal taxes accounted for 24.4 cents per gallon of diesel but only 18.4 cents per gallon of gasoline.

In Europe, where in many regions about half of the cars on the road run on diesel, these tax incentives are flip-flopped, with diesel drivers reaping the economic benefits accordingly.

But according to Jonathan Welsh, who writes the “Me and My Car” Q&A column for The Wall Street Journal, interest in diesels—which typically offer better fuel efficiency than gas-powered cars—has gained significant momentum in the U.S. in recent years given the uptick in gasoline prices. The popularity of diesels also surged, albeit briefly, in the mid-1970s after the U.S. suffered its first “oil shock” that sent gas prices through the roof. But gas prices settled down and so did American fervor for diesels at that point.

Today, though, with so much emphasis on going green, diesel cars—some of which boast similar fuel efficiency numbers as hybrids—are on the comeback trail in the U.S. Recently passed regulations require diesel fuel sold in the U.S. today to have ultra low emissions, which appeals to those concerned about their carbon footprints and other environmental impacts. Also, the increased availability of carbon-neutral biodiesel—a form of diesel fuel made from agricultural wastes that can be used in place of regular diesel fuel without any engine modifications—is convincing a whole new generation of American drivers to consider diesel-powered cars. Right now only Volkswagen, Mercedes and Jeep sell diesel-powered cars in the U.S., but Ford, Nissan and others plan to launch American versions of diesel models already successful in Europe within the next year.

Meanwhile, the U.S. Coalition for Advanced Diesel Cars, a trade group that represents several automakers as well as parts and fuel suppliers, would like to see the U.S. government increase incentives for American drivers to choose diesel-powered engines by leveling the fuel taxation field—so gasoline and diesel could be competing fairly at the pump—and by boosting tax breaks on the purchase of new, more fuel efficient diesel vehicles. One hurdle is the relative lack of filling stations across the U.S. with diesel pumps, but as such vehicles become more popular, filling stations that don’t already offer them can relatively easily add a diesel pump or two.

CONTACTS: American Petroleum Institute, www.api.org; U.S. Coalition for Advanced Diesel Cars, www.cleandieseldelivers.com.

Dear EarthTalk: What does "carbon neutral" really mean? And is it really possible to live in such a manner without just resorting to buying carbon credits?
--Vera Hoffman, Seattle, Wash.

Carbon neutral is a term that has sprouted many definitions, and how to achieve it has spawned numerous interpretations, too. According to the New Oxford American Dictionary, which made carbon neutral its 2006 “Word of the Year,” it involves “calculating your total climate-damaging carbon emissions, reducing them where possible, and then balancing your remaining emissions, often by purchasing a carbon offset.”

But the term is really so ‘06. Today’s term, “climate neutral,” complicates the issue. Tracking carbon is great, but carbon dioxide (CO2) is only one of several greenhouse gases that contribute to global warming, says the 2008 publication, Kick the Habit: A U.N. Guide to Climate Neutrality, by the United Nations Environment Program. CO2 makes up some 80 percent of the world’s greenhouse gases, but five others—nitrous oxide, hydrofluorocarbons, perfluorocarbons, sulphur hexafluoride and methane—also contribute. Limits on all six gases were called for by the Kyoto Protocol international climate treaty.

Semantics aside, whether a person can live in a climate-neutral manner is a question of lifestyle choices and making improvements over time. Start your climate neutral quest by calculating your energy usage. Type “climate footprint” or “carbon footprint” into Google and try a couple of calculators that track use in different ways. One is Earthlab’s (https://www.earthlab.com/createprofile/reg.aspx); the University of California at Berkeley also offers one at: http://bie.berkeley.edu/files/ConsumerFootprintCalc.swf.

For a calculation, you’ll need information about your home energy use and your travel by car and public transit. Some calculators ask whether you’re vegetarian, how much you recycle and compost, and how much you spend buying goods and dining out. The equation can get involved. Record your information sources, and then revisit the calculator periodically with new numbers to see how you’re doing.

The final element involves a carbon offset, “an emission reduction credit from another organization’s project that results in less carbon dioxide or other greenhouse gases in the atmosphere than would otherwise occur,” says the David Suzuki Foundation, which promotes “ways for society to live in balance with the natural world.” You can purchase credits from a renewable energy company, for instance, to offset the amount of carbon emissions you can’t eliminate through other measures.

Will your efforts make a difference? Kick the Habit says that, for individuals, “less than 50 percent are direct emissions (such as driving a car or using a heater).” About 20 percent are caused by the creation, use and disposal of products we use; 25 percent comes from powering workplaces; and 10 percent from maintaining public infrastructure. You can drive your car less and turn down the heat, but consider ways you can affect business and government policies that could tap into that other 50-plus percent.

“We are all part of the solution,” wrote U.N. Secretary-General Ban Ki-moon in the foreword to Kick the Habit. “Whether you are an individual, a business, an organization or a government, there are many steps you can take to reduce your climate footprint. It is a message we must all take to heart.”

CONTACT: Kick the Habit, www.unep.org/publications/ebooks/kick-the-habit.

Dear EarthTalk: I keep meeting people who say that human-induced global warming is only theory, that just as many scientists doubt it as believe it. Can you settle the score?
-- J. Proctor, London, U.K.

So-called “global warming skeptics” are indeed getting more vocal than ever, and banding together to show their solidarity against the scientific consensus that has concluded that global warming is caused by emissions from human activities.

Upwards of 800 skeptics (most of whom are not scientists) took part in the second annual International Conference on Climate Change—sponsored by the Heartland Institute, a conservative think tank—in March 2009. Keynote speaker and Massachusetts Institute of Technology meteorologist Richard Lindzen told the gathering that “there is no substantive basis for predictions of sizeable global warming due to observed increases in minor greenhouse gases such as carbon dioxide, methane and chlorofluorocarbons.”

Most skeptics attribute global warming—few if any doubt any longer that the warming itself is occurring, given the worldwide rise in surface temperature—to natural cycles, not emissions from power plants, automobiles and other human activity. “The observational evidence…suggests that any warming from the growth of greenhouse gases is likely to be minor, difficult to detect above the natural fluctuations of the climate, and therefore inconsequential,” says atmospheric physicist Fred Singer, an outspoken global warming skeptic and founder of the advocacy-oriented Science and Environmental Policy Project.

But green leaders maintain that even if some warming is consistent with millennial cycles, something is triggering the current change. According to the nonprofit Environmental Defense, some possible (natural) explanations include increased output from the sun, increased absorption of the sun’s heat due to a change in the Earth’s reflectivity, or a change in the internal climate system that transfers heat to the atmosphere.

But scientists have not been able to validate any such reasons for the current warming trend, despite exhaustive efforts. And a raft of recent peer reviewed studies—many which take advantage of new satellite data—back up the claim that it is emissions from tailpipes, smokestacks (and now factory farmed food animals, which release methane) that are causing potentially irreparable damage to the environment.

To wit, the U.S. National Academy of Sciences declared in 2005 that “greenhouse gases are accumulating in Earth’s atmosphere as a result of human activities, causing surface air temperatures and subsurface ocean temperatures to rise,” adding that “the scientific understanding of climate change is now sufficiently clear to justify nations taking prompt action.” Other leading U.S. scientific bodies, including the American Meteorological Society, the American Association for the Advancement of Science and the American Geophysical Union have issued concurring statements—placing the blame squarely on humans’ shoulders.

Also, the Intergovernmental Panel on Climate Change (IPCC), a group of 600 leading climate scientists from 40 nations, says it is “very likely” (more than a 90 percent chance) that humans are causing a global temperature change that will reach between 3.2 and 7.2 degrees Fahrenheit by the end of this century.

CONTACTS: Heartland Institute, www.heartland.org; Science and Environmental Policy Project, www.sepp.org; U.S. National Academy of Sciences, www.nas.edu; IPCC, www.ipcc.ch.

Dear EarthTalk: Are elephant populations stable these days?
-- Reuben Perrin, Hartford, Conn.

Far from it. The double whammy of poaching (illegal hunting) and habitat loss has led to a dramatic decline in populations of both African and Asian elephants in recent decades. In 1930, there were between five and 10 million wild African elephants, plying the entire African continent in large bands. Just 60 years later, when they were added to the international list of critically endangered species, only about 600,000 were scattered across a few African countries. Today that number is likely less than 500,000.

While Asian elephants were never as numerous as their African counterparts, their population numbers have also dropped precipitously, from an estimated 200,000 a century ago to less than 40,000 today. Conservationists fear that unless demand dries up for ivory, and people stop moving into prime elephant habitat, the world’s largest land mammal could become just a memory within another hundred years.

Putting an end to habitat loss may be next to impossible as more and more people vie for fewer and fewer resources and move out further into the countryside, so conservationists working to save elephants tend to concentrate on reducing or eliminating poaching. While trophy hunting of elephants may have been big decades ago, today most elephant hunters are after the ivory in the tusks, which have been a hot commodity across Asia for years as raw material for highly prized and often ornate carvings. Despite elephants’ inclusion in Appendix I of the Convention on International Trade in Endangered Species (CITES) in 1990—meaning the sale of tusks and other elephant parts is a violation of international law—poaching is bigger business than ever, with prices for ivory rising more than 16-fold in recent years.

Some countries, such as Tanzania and Kenya, are working hard to hold up their end of the CITES agreement, hiring patrols of young men—some of them former poachers themselves—to monitor local elephant populations and enforce national and international laws against killing these and other endangered species. Conservation groups like the African Wildlife Foundation (AWF) and the Wildlife Conservation Society (WCS) are working hand-in-hand with local officials to improve elephant habitat and keep poachers at bay. These organizations hope that the people in these regions can learn how to bring in revenues from tourism instead of hunting.

But elsewhere governments are not as committed to the ivory ban, let alone to following laws imposed by outsiders. Government officials in Zimbabwe, South Africa and Botswana, for example, argue that trade in ivory should be regulated, not prohibited. They maintain that countries that are managing their elephants well should be allowed to sell ivory in order to pay for conservation measures.

In part to test such waters, the first legal sale of ivory in a decade took place in October 2008, despite protests from conservationists. Buyers, mostly from China and Japan, eagerly snatched up some 100 tons of stockpiled elephant tusks—no elephants were killed recently or illegally for the sale—with the proceeds going to groups working to save the elephant and its habitat. But with the legal ivory sale has come an uptick in elephant poaching, leaving conservationists with that “one step forward, two steps back” feeling.

CONTACTS: CITES, www.cites.org; AWF, www.awf.org; WCS, www.wcs.org.

Dear EarthTalk: I am looking at possibly buying a house that is very close to a gasoline station. Is it safe to live so close to a gas station? What concerns should I have? I have toddler and infant babies.
-- Ranjeeta, Houston, Texas

Despite all the modern health and safety guidelines they must follow, gas stations can still pose significant hazards to neighbors, especially children. Some of the perils include ground-level ozone caused in part by gasoline fumes, groundwater hazards from petroleum products leaking into the ground, and exposure hazards from other chemicals that might be used at the station if it’s also a repair shop.

Ozone pollution is caused by a mixture of volatile organic compounds, some of which are found in gasoline vapors, and others, like carbon monoxide, that come from car exhaust. Most gas pumps today must have government-regulated vapor-recovery boots on their nozzles, which limit the release of gas vapors while you’re refueling your car. A similar system is used by the station when a tanker arrives to refill the underground tanks. But if those boots aren’t working properly, the nearly odorless hydrocarbon fumes, which contain harmful chemicals like benzene, can be released into the air.

Higher ozone levels can lead to respiratory problems and asthma, while benzene is a known cancer-causing chemical, according to the National Institutes of Health (NIH). The quest to reduce ozone levels has led the state of California to implement a more stringent vapor-recovery law, effective April 1, 2009, which requires that all gasoline pumps have a new, more effective vapor-recovery nozzle.

Underground gasoline storage tanks can also be a problem. The U.S. Environmental Protection Agency (EPA) estimates that there are some 660,000 of them from coast-to-coast. Many a lawsuit has been filed against oil firms in communities across the country by people whose soil and groundwater were fouled by a gas station’s leaking underground storage tank. In the past, most tanks were made of uncoated steel, which will rust over time. Also, pipes leading to the tanks can be accidentally ruptured.

When thousands of gallons of gasoline enter the soil, chemicals travel to groundwater, which the EPA says is the source of drinking water for nearly half the U.S. If buying a home, consider its potential loss in value if a nearby underground storage tank were to leak. Gasoline additives such as methyl tertiary-butyl ether (MTBE), which has been outlawed in some states, make the water undrinkable—and that is only one of 150 chemicals in gasoline. Repeated high exposure to gasoline, whether in liquid or vapor form, can cause lung, brain and kidney damage, according to the NIH’s National Library of Medicine.

Spilled or vaporized gasoline is not the only chemical hazard if the station is also a repair shop. Mechanics use solvents, antifreeze and lead products, and may work on vehicles that have asbestos in brakes or clutches. Auto refinishers and paint shops use even more potentially harmful chemicals.

In today’s car-centric world, we can’t escape exposure completely, because these chemicals are in our air just about everywhere. But by choosing where we live, keeping an eye out for spills, and pressuring the oil companies to do the right thing for the communities they occupy, we can minimize our exposures.

CONTACTS: U.S. EPA, www.epa.gov; National Institutes of Health, www.nih.gov.

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