NEW DELHI, India, December 2, 2008 (ENS) – A few years ago I wrote about a textile town called Pali, in the state of Rajasthan, which had completely toxified its seasonal river Bandi with industrial discharge. Then, I said the real story was not about pollution but about the anger of farmers whose agricultural lands were destroyed because of effluents, whose well water had turned poisonous, and whose fight led the town to set up the country’s first common effluent treatment plant.

Sunita Narain (Photo courtesy UNL)

The question I raised was – did we know how to clean chemical pollution in water scarce areas?

The answer still is, no. But the persistence of pollution-affected farmers is ensuring the search for ways out is still on.

In 2006, with three common effluent treatment plants in place and a city-wide system to charge cess on every bale of cloth to pay for treatment, the River Bandi was still contaminated.

That year, my colleagues at the Centre for Science and Environment went to Pali, travelled downstream of the dry river and collected water samples. They tested the samples at our pollution monitoring laboratory in Delhi and found high levels of toxins, even in the water of wells 50 kilometers (30 miles) downstream of the town.

Their analysis also showed the common effluent treatment plants were not meeting stipulated standards; there was a high concentration of heavy metals in the wastewater.

My colleagues also found there existed ingenious ways to “beat” the system – the treatment plants had bypass channels, allowing effluents to flow without check.

Unacceptable, said the farmers for whom we prepared the report.

So government agreed the effluent treatment plants would be upgraded, at a cost of Rs 19 crore, or 190 million rupees (US$3.824 million).

Partly, the problem was not the doing of industry, but changing market preferences. When the plants were set up, cottons were in demand. Then synthetic cloth came into demand and the dying units shifted from alkaline to acidic processes. The treatment could not keep pace. The investment would now improve treatment, by changing the retention time, chemical dosing and aeration of effluents.

But the pollution did not go away. Farmers reported the water was as bad as ever.

In 2007, at their request, my colleagues returned. More samples were collected, checked and analyzed. The pollutants remained, as did the bypass system.

Worse, since the town’s drainage had not kept up with its industrial growth, much of the waste did not make it to the plants for treatment.

The River Bandi at Pali, India (Photo
courtesy Government of India)

The furious farmers took the matter to court. In April 2008, the high court ruled in their favor. It asked government to set up water flow meters in every industry to measure discharge; to shut down illegal units not connected to the effluent plants; to set up another common effluent plant for the waste for the new industries and, in all, to ensure all waste was treated completely. It was no small victory.

But pollution continues. The problem is more complex than current pollution textbooks can fathom or explain.

This is a region where the river has no water for most of the year. Even partially treated effluents – assuming the upgraded treatment plants meet discharge standards and no waste is bypassed – lead to pollution, because there is no water to flush it with or to clean it.

The farmers’ association called us again. This time, my colleagues used a testing kit in the presence of farmers and industry representatives. The bypass was found. The samples showed toxins. All hell broke loose.

At a public meeting, held in Pali town hall, politicians, administrators, industry and affected farmers came together to say, “Industry is important but not at the cost of the pollution of our river and the suffering of farmers. Enough is enough. The answers will have to be found differently.”

The farmers do not want industry to discharge effluents into the river. They want them to treat, reuse and recycle the effluents. The court has upheld this plea, directing “the treated water may not flow into the Bandi River.”

This is not an isolated instance. We have found at least three more court decisions insisting on “zero discharge or complete recovery and reuse of water discharged from factories.”

Colorful Indian textiles (Photo credit unknown)

One is in a town neighboring Pali itself, called Balotra, where a similar case was fought and won.

The second is in the famous textile town of Tiruppur, in the state of Tamil Nadu, where affected farmers took the issue to court which directed, in no uncertain terms, that no treated water would be discharged into the river.

The third is in the industrial town of Ludhiana, in the state of Punjab, where the court has issued notices that “all electroplating, textile dying and bleaching units have to set up individual or collective treatment plants to achieve zero-discharge.”

The question now is to determine the next step in this pollution ladder, and if that, at all, leads to results.

The fact is re-use technologies like reverse osmosis are expensive, they need high quality water as their input and, most importantly, leave behind a high amount of ‘reject,’ which then has to be disposed off, somehow. In Tiruppur, the government is currently coming up with bizarre proposals to deal with the tedious reject problem.

But the quest continues.

The fact is that, today, public pressure is driving industry and government to innovate, faster than they would like to find solutions. Also, we have not even scratched the surface in finding appropriate and cost-effective technology solutions that will fit our size.

But let me not rush that way. The search is on. The farmers of Pali, Balotra, Tiruppur, and other pollution warriors will ensure we get answers.

By Sunita Narain

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NATCHEZ, Mississippi, February 7, 2008 (ENS) – Dennie Eugene Pridemore had been paid to take millions of pounds of hazardous waste containing the toxic heavy metals cadmium, chromium and lead and recycle it into marketable products at his facility in Yazoo City, Mississippi.

But instead he buried the wastes in trenches and produced products that leached heavy metals into the surrounding soil and groundwater, Pridemore admitted in court.

Today, he was sentenced in U.S. District Court in Natchez to 41 months in prison and three years probation for illegally storing and disposing hazardous waste.

Pridemore pleaded guilty on November 15, 2007 to a six-count federal indictment charging him with operating a sham hazardous waste recycling facility under the name Hydromex, Inc., in Yazoo City.

He admitted illegally storing and disposing of hazardous waste at the Yazoo City site, and making false statements to state and federal regulatory officials and investigators in an effort to conceal his illegal disposal of the waste.

Federal prosecutors alleged that the products produced at the Hydromex plant were useless and made only to create the illusion that the company was legitimately recycling hazardous waste in accordance with federal and state environmental laws.

In a further effort to conceal his failure to properly recycle hazardous waste, Pridemore created false documents making it appear to regulators that he had customers for the products he claimed to be making and selling, they alleged.

“The defendant attempted to deceive regulators into believing that he was legitimately and safely recycling hazardous waste into useful products when, in fact, he was illegally disposing of the waste and contaminating the environment,” said Ronald Tenpas, assistant attorney general for the Justice Department’s Environment and Natural Resources Division.

“The defendant’s conviction illustrates how deceit and concealment often accompany environmental violations,” Tenpas observed.

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OLYMPIA, Washington, December 10, 2007 (ENS) – The Washington State Department of Ecology Friday announced an agreement with Alcoa that has the aluminum giant cleaning up more than 95 percent of polluted sediments from the Columbia River next fall.

The agreement will be finalized when the cleanup action plan, being developed this winter, is complete.

The agreement calls for Alcoa to dredge up to 95 percent of known polychlorinated biphenyls, PCBs, that are contaminating the river bed at its former aluminum smelter site near Vancouver, Washington.

When the dredging is finished and the ecosystem has had time to restore itself, the residual contamination should not exceed 98 parts per billion (ppb) PCBs.

Current sampling indicates most of the contamination in the top layers of the riverbed generally ranges from 100 to 1,000 ppb PCBs. There is a hot spot with a concentration as high as 300,000 ppb, with some contamination as deep as three feet, according to the Department of Ecology.

The state agency and Alcoa agree that dredging is the best option for reducing the level of contamination. The cleanup goal represents the residual level of contamination that will remain after dredging is complete, sand is brought in to fill holes and the site returns to equilibrium.

“This will be a very aggressive cleanup to remove as much contamination as physically possible,” said Carol Kraege, whose Ecology team oversees the Alcoa site. “Unfortunately, the Columbia River is besieged with contamination from many sources. This cleanup is just one of many important steps in the long-term efforts to restore the river’s health.”

Alcoa started operating a primary aluminum smelter in 1940 on a site of several hundred acres adjacent to the Columbia River in Vancouver. About 56,000 tons of waste potlinings containing cyanide, fluoride, and heavy metals were piled on bare ground on the site during 1973-80.

PCBs can cause a variety of health effects and have been linked to cancer. The dredging will lessen the risk to human health and will be protective of wildlife.

High levels of PCBs were found in clam tissue collected around the Alcoa property and throughout the river. Alcoa recently announced its intention to dig and dispose of all clams on its site as soon as feasible.

While harvesting freshwater clams in the Columbia is illegal, some have expressed concern that people may ignore the prohibition and dig for clams.

The Alcoa Vancouver site is located in Clark County on the north bank of the Columbia River three miles northwest of downtown Vancouver. Alcoa constructed an aluminum smelter on the western portion of the site in 1940.

Between 1944 and 1970, a number of fabrication operations were added to the facility to form aluminum into finished goods such as wire, rod, and extrusions. Alcoa operated the entire facility for 45 years, until its closure in 1985.

To date, Alcoa has spent approximately $42 million on cleanup at the Vancouver site, including $34 million on cleanup of PCBs.

Alcoa will complete the remedial investigation and a feasibility study report for the entire site by the end of December. In early January, Alcoa is expected to submit the sediment cleanup engineering plans for Ecology review and approval. Ecology will also begin work on a cleanup action plan for the site, including the sediments. The public will have an opportunity to comment on the cleanup action plan when the draft is published in early spring.

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In order to lighten your load of holiday shopping, we organized some green [www.sundancechannel.com] gift-giving ideas.

Designer Spotlights

For the Kids:
Q Collection Junior [www.sundancechannel.com]

Q Collection Junior provides a cute line of children’s furniture, bedding and accessories, while using sustainable [www.sundancechannel.com] materials and manufacturing. All of Q Collection Junior’s cotton is 100% organic [www.sundancechannel.com]. They don’t use formaldehyde, polyurethane, toxic [www.sundancechannel.com] flame retardants or heavy metals in their products.

Home Furnishing:
Ohio Design [www.sundancechannel.com]

Ohio Design uses graphic overlays to enhance the look of their furniture, while producing the pieces using reclaimed wood, recyclable steel and non-toxic [www.sundancechannel.com] finishes.

Accessories:
ply Design [www.sundancechannel.com]

Ply Design demonstrates that even the smallest scrap can be reused. They offer products with recycled felt and/or recycled leather.

Online Gifts

For your Pet:
Worldwise [worldwise.stores.yahoo.net]
Worldwise is a leader in green [www.sundancechannel.com] toy making for pets. All of their products are made of natural [www.sundancechannel.com], recycled, reclaimed or certified organic [www.sundancechannel.com] materials.

An Assortment of Gifts:
EcoExpress [www.ecoexpress.com]

EcoExpress provides natural [www.sundancechannel.com] and organic [www.sundancechannel.com] gifts for any special occasion. Making it easy to support the environment [www.sundancechannel.com], you can buy great gifts from their wide assortment of “earth friendly gourmet, spa and rainforest baskets”.

Something Pretty:
Organic Bouquet [www.organicbouquet.com]

These beautiful arrangements are a great gift for the holidays, and they send the right message. Organic Bouquet’s lovely flower arrangements are all organic [www.sundancechannel.com], promoting a healthy environment [www.sundancechannel.com].

Do-It-Yourself Holiday Ideas
Holiday Recipe:
Glogg Recipe [www.organicvalley.coop]
Going to a holiday party? Don’t bring the regular egg nog. Spice things up a bit and impress your friends with your own homemade Swedish glogg.

Homemade Gifts:
Garden and Hearth: Homemade Gifts from the Heart [www.gardenandhearth.com]
Don’t know what to buy someone this holiday? Try making a gift from items you already have. It’s personal, creative and ecological [www.sundancechannel.com]
. Garden and Hearth has great homemade gift projects for you to get your hands on.

Kids furniture is one of those things where going green really makes sense; you want the best for your child, and you want you kids to be healthy, right? You never know what kids are going to get their hands on, or what they’ll put in their mouths and chew on, so it follows that you wouldn’t want anything that might, say, leach heavy metals or other toxins into their systems at such a developmentally-important time, right? For these reasons (and more), we like Germany’s Hase Weiss [www.haseweiss.de] kids’ furniture.

Particularly timely in the wake of the difficulties in the Chinese toy manufacturing industry [www.treehugger.com] (and related fall-out [www.treehugger.com]), the Berlin-based company specializes in wooden toys and children’s furniture that’ll give molded plastic a run for its money. Made up of modular boxes that come as shelves, drawers and benches, the toys and furniture can be put together as you like, ad nauseum; the colorways are simple, distinct and vibrant, and simplicity is key throughout the collection, allowing the imagination to take over, be inspired by your kids, and create a healthy, fun, livable space for them.

Though based in Germany, Hase Weiss’s furniture recently hopped the pond, and is available at New York’s Pomme [www.pommenyc.com]. In Brooklyn’s DUMBO neighborhood, the store is totally devoted to little ones under six, so we’re glad to see that getting your hands on Hase Weiss doesn’t require an international vacation (or at least a special shipping trip). If you speak German, you can learn more at their website [www.haseweiss.de]; if not, admire the simple beauty and wait for them to catch on elsewhere; we don’t think this will be the last time you’ll see their designs.

E-waste is a problem that is as pervasive as the electronics that cause it. For every cell phone, PDA, iPod and laptop or desktop computer, there are hunks of heavy metals and carcinogenic toxins that don’t belong in a landfill (where they can leach into the groundwater, soil or air) or in contact with people (where they can do the same, and to our bodies, too) as they wait in a “to-be-recycled” heap. While the best way to avoid e-waste may be to cut the nasties out of the production all together — something that the WEEE and RoHS Directives aim to do — this is an evolving (and slow) process, and is something we’ll address further later this week. Until then, have a look at some of the things — good and bad — being done to address this problem, from the national/international scale all the way down to you at home.

1) The Electronic Industries Alliance (EIA) has released a document [www.treehugger.com] that has the potential to pave the way for federal legislation on recycling television- and computer-related e-waste. TV collection and recycling would be conducted by a (to be named) third party organization and be supported by a consumer fee when you purchase a new set. Once a significant number of so-called “legacy” sets are recovered, the fee would expire. Producers of IT equipment would fall under a different shell; they would have to implement a program to collect and recycle their own products at no cost to the consumer. Read more about this interesting program here [www.eia.org] [PDF].
2) On an even larger scale, the United Nations is moving forward on developing a worldwide standard for safe recycling and disposal of e-waste that they’re calling Solving the E-waste Problem [www.treehugger.com], or StEP. The UN’s efforts will also help put the kabosh on the illegal trade and backroom deals where countries, such as Japan, are trying to dump their E-waste in other countries as part of international business deals.
3) There’s been a slew of ideas recently on how to address the growing, global e-waste problem, from national legislation to a bargaining chip in international trade agreements [www.treehugger.com]. Here in the US, Mike Thompson (D-Calif) has proposed a national ‘e-Fee’ on electronic devices. This model is called the Advance Recovery Fee (ARF), and it will cost consumers about $10 per device that they will pay up front to recycle the equipment. States and cities have been going in the opposite direction, most preferring the manufacturer responsibility model, where the vendor is billed for the processing fees. Obviously, this is a difference of opinion, and some states like Montana are already going the extra yard, with proposed legislation to get the e-Fee back that you pay to the Feds. Elsewhere, Japan has its own solution as well: to use junk to barter in international trade agreements. Think something along the lines of, “You want that new Honda plant? Take 50 tons of old computers…”
4) Closer to home, there are several organizations and lots of considerations [www.treehugger.com] to ponder before recycling your computer yourself. One of the best ways to get clean recycling is simple: just ask questions. A reputable recycler should be able to tell you where hardware is sent, and if the company exports or uses prison labor. The recycler should also be able to tell you how it handles data destruction; you’ll want the recycler or reuse organization to wipe the hard drive for you so any personal information doesn’t end up where it doesn’t belong. If you are donating your equipment to a reuse organization, ask if equipment is tested before it is passed on for donation and if the company only ships working equipment. Ask who their recipient organizations are. If the answer to any of these questions is, “We don’t know,” or, “We can’t tell you,” it may be time to send your equipment elsewhere.
5) Recognizing that there may come a time when you will have an extra computer or two lying around (since 75 percent of used computers are currently stockpiled in storage — read, your basement), we came up with two ways to responsibly dispose of your old gear: for joy and for profit [www.treehugger.com]. Turns out they’re both satisfying and even kinda fun.
6) Individual companies are also getting in the game: Dell will phase out brominated fire retardants and PVC by 2009 [www.treehugger.com] and will recycle any Dell-branded product for free [www.treehugger.com]; Hewlett Packard’s goal [www.treehugger.com] is to have recycled 1 billion pounds (cumulatively) of electronic products by the end of this year (and have also agreed to nix the nasty fire retardants, too [www.treehugger.com]); Apple will recycle any potential e-waste [www.treehugger.com] and has a specific iPod recycling program [www.treehugger.com], but lags behind in recycling and toxicity [www.treehugger.com] according to some.
7) Want to learn more? We recommend checking out High Tech Trash [www.treehugger.com], a book that gives a thorough overview to the full range of product life cycle issues for consumer electronics, with a focus on the human toxicity issues. Though the book is a bit light on new solutions, leaving the reader without examples of design principles, products, or business models that take us in a better direction, it serves as a good introductory overview for us citizen activists.

For 231 years, the United States has celebrated the nation’s independence (and its birthday) on July 4. For many of those years, many of us have celebrated by shooting off fireworks or otherwise blowing stuff up. Put in those terms, it seems like an odd way to celebrate, so we got to wondering: how green are fireworks, and should they be something to worry about?

When it comes to the environmental issue at the top of our list — that’s global warming – Grist’s Umbra Fisk notes [www.grist.org] that, “Although fireworks do give off carbon dioxide, they aren’t known for their greenhouse-gas impacts.” Whew. However, “They do have other potentially toxic components, and pollute air and water.” Hmm. Further, TreeHugger also noted that [www.treehugger.com] “fireworks are often propelled by gunpowder, and the accelerants and heavy metals used for coloration can leave traces in the air and water for days or even weeks after the party is over. The effects are worsened by muggy summer weather and its accompanying poor air quality.” Add to that a new report from Environmental Science & Technology [dx.doi.org] which states that “fireworks heavily contribute to perchlorate contamination of surrounding water bodies. Perchlorate is well-known to pose risks for both human health and wildlife.” Oh dear; are we eco-nerds going to have to rain on this parade, too?

Thankfully, there are a few newer developments that have us hopeful that fireworks will not be universally panned by the enviro-set. A Japanese company [www.asahi.com] has developed a new type of casing which creates a perfect sphere when it explodes, is biodegradable and is cheaper to produce. By mixing sawdust and rice chaff with biodegradable plastic, they’ve developed a product which is cheaper and greener than it’s predecessors. Even better, pyrotechnics experts at Disney announced in 2004 [corporate.disney.go.com] that they had devised a fireworks firing mechanism based on compressed air, which is safer, quieter, and much less polluting than black powder. At the time, plans were afoot to donate the patents to a non-profit company so that they could be licensed around the world, though we can’t find any further information about whether this actually happened. So, the final verdict: there are worse things you could do on the 4th, and bigger fish to fry when it comes to the scourge of the green world, but, as our recent reader survey noted [www.treehugger.com], it sure would be nice if they were greener. Enjoy the 4th and the fireworks, and look forward to a time when we won’t have to discuss whether or not it’s okay to engage in a traditional celebration.

With green fashion firmly in the rear view mirror, we wanted to take a closer look at something used in apparel (and furniture, luggage, accessories and more) that’s always generated controversy: leather. Whether it’s animal right’s activists who think we shouldn’t harvest the hides of our bovine friends, or those who think we should use them all and make the most of the bi-product of the food industry, or hardcore greenies who don’t want to mess with the heavy metals and other nasties used to tan leather, there’s no shortage of opinions when it comes to what part leather can play in an eco-friendly lifestyle.

Before launching in to this, there’s one thing to keep in mind. It’s true: from a TreeHugger’s standpoint, it’s best if leather is simply avoided; but by the same token, it’s best if beef is avoided, too, and, for a lot of folks, that’s just not going to happen (but that’s another post). So, why should leather be avoided? First of all, it’s dead animal skin, which means that animal has to be raised: fed, watered, pastured, and eventually slaughtered. Most leather (about 66% of it) comes from cows, and it takes 8 acres of land, 12,000 pounds of forage, 125 gallons of gasoline & other petroleum derivatives for fertilizer, 2,500 pounds of corn, 350 pounds of soybeans, 1.2 million gallons of water & 1.5 acres of farmland (to grow the crops for feed), plus various insecticides, herbicides, antibiotics & hormones to grow one cow from an 80 pound calf to its full size, when it can be slaughtered and the hide harvested. Something like bison, on the other hand, takes less land and less water, and they’re primarily pasture-raised, meaning they aren’t stuck in feedlots getting fat for half their natural lives. Since they’re on the pasture, and their hooves are smaller and sharper, they help till and fertilize the soil (with their waste as fertilizer), and though they require more feed per pound, they aren’t picky about where the food comes from; it can be prairie grass or whatever they happen across. Regardless, the point remains: it takes a ton of resources to grow cows.

Once the animal skin becomes available (usually as a byproduct of the beef industry), it doesn’t get much prettier. Before tanning, the skins are unhaired, degreased, desalted and soaked in water over a period of 6 hours to 2 days. To prevent damage of the skin by bacterial growth during the soaking period, biocides, such as pentachlorophenol (a synthetic fungicide that is toxic to humans), are used. Hides are then either vegetable tanned or mineral tanned. Vegetable tanning employs tannin, from which tanning gets it name, which occurs naturally in tree bark; the primary barks used these days are chestnut, oak, tanoak, hemlock, quebracho, mangrove, wattle, and myrobalan. Hides are stretched on frames and immersed for several weeks in vats of increasing concentrations of tannin. Vegetable tanned hide is flexible and is used for luggage and furniture; Q Collection, one of TreeHugger’s favorite sustainable designers [www.treehugger.com] featured here [www.sundancechannel.com] on this blog, uses vegetable-tanned leathers in their furniture (this gorgeous chair [www.qcollection.com] is an example).

This is the tip of the iceberg; later this week, we’ll delve into some of the other ways to tan leather that are more harmful, and come to some more final conclusions about the implications for its use. Stay tuned!

At TreeHugger, we embrace design as part of the solution to a healthier, greener, more livable planet; we all need stuff (though not too much) and all that stuff needs to be designed by someone; the more sustainability in incorporated into design, the better, and the better the design is, the more people will want a little piece for themselves. This is why we’re such fans of the work done by Q Collection [www.qcollection.com], whose chic, modern products are pure sustainable design.

TreeHugger first noticed the work of Q Collection back in 2004 [www.treehugger.com]; since then, they’ve added more furniture [www.treehugger.com], along with fabrics and accessories, to a lineup of home furnishings that are a true triple threat: better for you, your home and the planet. Combining a refined, timeless modern sensibility with carefully-selected materials that reduce or eliminate risks to human health and the environment, their products are constructed without toxic chemicals, carcinogens and the leading components of poor indoor air quality. You won’t find nasties like polyurethane, formaldehyde and brominated fire retardants, which are all either known or suspected carcinogens and not good for anyone, along with chemicals like dioxins and volatile organic compounds (VOCs), in any of Q Collection’s work. This commitment extends to their fabrics and leathers; the textiles use zero impact dyes and the excess clippings from the fabric are used as ground cover by farmers near the mill. Their leather uses only vegetable dyes and no heavy metals in the tanning process, which, when it comes to leather, is the healthier, more sustainable way to go. Listing their entire volume of environmental and sustainability concerns addressed by their work isn’t practical for this space, but we’re confident in saying that it’s well-thought out and executed, and quite complete.

The ‘design’ half of’sustainable design’ is what sets Q Collection apart from many others, though — after all, they were named as one of the “Best of TreeHugger: Sustainable Designers” [www.treehugger.com] awhile back, and exhibited last year at HauteGREEN [www.treehugger.com], an exhibition of the best in sustainable design. Furniture like the “James” side chair (above, left) and “Joe” lounge chair with ottoman (above, right), show off their clean, modern sensibility that’s accentuated by accessories like the Moss Dot Pillow (above, center). Whether you’re looking for a single piece or an entire living set, Q Collection can help you be healthier: individually, in your home, and with your entire ecological footprint. There’s a lot to learn and a lot to see, including more details on their materials, products, and where you can find them, at qcollection.com [www.qcollection.com].