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EPA Aims to Strengthen Drinking Water Regulations

Obviously, EPA chief Lisa Jackson has been reading the Risk Management Monitor.

Because yesterday, just on the heels of some extensive coverage by us on water quality concerns (this one last week from Emily and this post yesterday from me), the EPA announced a major shift in how it will regulate the nation’s drinking water, focusing specifically on protecting people from the potentially harmful chemicals that have become increasingly prevalent in recent decades.

EPA’s current approach to protecting drinking water involves assessing each individual contaminant, which can take many years, according to the agency. The new strategy seeks to achieve protections more quickly and cost-effectively with strategies like advanced treatment technologies that address several pollutants at once.

Additionally, Jackson said, the agency plans to use programs in tandem to address water pollution, rather than view them in so-called silos. Jackson said EPA can use the Federal Insecticide, Fungicide and Rodenticide Act, which regulates pesticides, as well as the Toxic Substances Control Act to assess the risk of chemicals and stop contaminants before they get into drinking water.

Jackson broke down the new strategy at the Association of Metropolitan Water Agencies’ annual conference.

The strategy, Jackson said, contains four key components: addressing contaminants in groups rather than individually, fostering the development of new treatment technologies, using multiple statutes to safeguard water supplies, and enhancing state and local partnerships.

In its official release, the EPA went into even more depth, identifying several substances that would now be put under more scrutiny through regulations.

In the newly finalized review of existing drinking water standards, EPA determined that scientific advances allow for stricter regulations for the carcinogenic compounds tetrachloroethylene, trichloroethylene, acrylamide and epichlorohydrin. Tetrachloroethylene and trichloroethylene are used in industrial and/or textile processing and can be introduced into drinking water from contaminated ground or surface water sources. Acrylamide and epichlorohydrin are impurities that can be introduced into drinking water during the water treatment process. Within the next year, EPA will initiate rulemaking efforts to revise the tetrachloroethylene and trichloroethylene standards using the strategy’s framework.

Of course, nothing has changed yet legally and until the environmental watchdog actually does “initiate rulemaking efforts,” the status quo will remain the status quo.

Notes the New York Times:

Until new policies and rules are unveiled, it is difficult to say precisely how these shifts will affect Americans. Some within the E.P.A. and Congress remain skeptical.

“There is a history of this agency making big announcements, and then changing very little,” said an agency regulator who was not authorized to speak to the media. “The real test will be to see how many new chemicals have been regulated six months from now.”

Currently, only 91 contaminants are regulated by the Safe Drinking Water Act, though more than 60,000 chemicals are used within the United States. No chemicals have been added to that list since 2000.

Rhetorically, it’s a good start. We will see how long it takes to actually make any difference.

And, as evidenced by the graphic below (found at I Love Charts), there isn’t a lot of time — or water — left to waste.

global water supply

Greater Global Risks of Water Pollution and Scarcity

In discussing the risks of water scarcity and quality over the past year (here, here and here), our attention has mostly focused on the developed world. By and large, we have talked about the risks that companies will have to deal with as these realities become more dire in the future.

The United Nations, however, naturally sees water risks through a different prism, particularly during its World Water Week, which started yesterday with a mission to increase awareness of a growing global water crisis affecting billions of people. Much of its advocacy and fundraising to provide better — and just more — water to children who lack access is being done by its UNICEF Tap Project.

In 2007, the UNICEF Tap Project was born in New York City based on a simple concept: restaurants would ask their patrons to donate $1 or more for the tap water they usually enjoy for free, and all funds raised would support UNICEF’s efforts to bring clean and accessible water to millions of children around the world.

Growing from just 300 New York City restaurants in 2007 to thousands across the country today, the UNICEF Tap Project has quickly become a powerful national movement.

During World Water Week, March 21-27, 2010, the UNICEF Tap Project will once again raise awareness of the world water crisis and vital funds to help the millions of children it impacts daily. All funds raised support UNICEF’s water, sanitation and hygiene programs, and the effort to bring clean and accessible water to millions of children around the world.

For more on the Tap Project, check out his video, which manages to be both very depressing and very uplifting all in the span of five minutes.

Another great video comes to us from National Geographic and details the trek that many Africans must make just to find water. Better still, this is just one small piece of Nat Geo’s new issue dedicated to water, which offers stories about the Jordan River, the Tibetan Plateau and desalination technology, among others.

The whole thing is a must read.

In other news, IRIN highlights the lowlights of a new UN report in an article called “Unsafe Water, the Silent Killer.”

Every 20 seconds a child dies from a water-related disease – 1.8 million children younger than five years each year. This alarming figure is from a new report by the UN Environment Programme (UNEP), which says millions of tonnes of solid waste are being flushed into water systems every day, spreading disease.

“More than two billion tonnes of wastewater are being flushed into our fresh water and oceans every day, every year,” Christian Nelleman, the lead author of the report, Sick Water?, told IRIN.

The wastewater, a cocktail of agricultural and industrial runoffs and sewage, was seeping into groundwater and polluting drinking sources, like wells, in low-lying areas where the bulk of the world’s population live.

Countries should not only invest in infrastructure to manage wastewater but also in ecosystems, for instance by replanting mangroves, which acted as natural filters in coastal areas, said Nelleman.

And IPS reports on another study showing that more people die from water-related issues than from war.

The devastating earthquake in Haiti last January claimed the lives of more than 200,000 people, making it one of the biggest single natural disasters this year.

But in contrast, some 3.6 million people — including 1.5 million children — are estimated to die each year from water-related diseases, including diarrhoea, typhoid, cholera and dysentery.

As the United Nations commemorates World Water Day next week, Secretary-General Ban Ki-moon says clean water has become scarce and will become even scarcer with the onset of climate change.

“More people die from unsafe water than all forms of violence, including war,” he said in a statement released Thursday.

Troubling stuff.

And something we all need to work to remedy — both for the sake of our economy and our humanity. (h/t to Ideas for Africa for the links. Follow them for more interesting water stories throughout the week.)

Water Woes: A Toxic (and Dwindling) Water Supply

The nation’s vast network of underground water pipes is hitting its retirement, and in some areas sooner than others.

In Washington, D.C., alone, there is a water pipe break every day on average, according to a recent article in the New York Times. But it’s not just the nation’s capital that struggles with the infrastructure of a aging sewer system that was built around the time of the Civil War — cities such as Los Angeles, Indianapolis, Sacramento and many others are also facing an uphill sewer system battle.

This weekend’s heavy rains in Washington “overwhelmed the city’s system, causing untreated sewage to flow into the Potomac and Rivers.” Unfortunately, it’s not only untreated sewage that sometimes pollutes the nation’s drinking water — there’s also pharmaceuticals, lead, nickel, arsenic and a slew of other dangerous heavy metals.

In fact, the Environmental Working Group (EWG) found 315 pollutants in the tap water American’s drink.

More than half of the chemicals detected are not subject to health or safety regulations and can legally be present in any amount. The federal government does have health guidelines for others, but 49 of these contaminants have been found in one place or another at levels above those guidelines, polluting the tap water for 53.6 million Americans. The government has not set a single new drinking water standard since 2001.

In response to the government’s failure to set new safety standards and priorities for pollution prevention, the EWG launched a three-year project “to create the largest drinking water quality database in existence.” They rated water from big cities (those with a population more than 250,000) based on three factors:

(1) total number of chemicals detected since 2004
(2) percentage of chemicals found of those tested
(3) highest average level for an individual pollutant

And the group’s research found the following results, broken down here in an infographic from Good magazine (via I Love Charts):

dirtiest-municipal-water-systems

And in looking at the number of people served by this polluted water, we see that the clean water in the Boston area is enjoyed by millions while any negative health effects of the dirty water in Las Vegas could be widespread:

dirtiest_water_systems_2

But it is not only the issue of water quality that has been making headlines in recent years. Communities and corporations are using (and also wasting) massive amounts of water every year.

I tackled the topic of water scarcity for Risk Management last June:

In the United States, several of the fastest-growing cities are already struggling to manage water use. Years of drought in the Southeast have severely drained Lake Lanier, one of the largest lakes in the region and the major freshwater source for the majority of those living in the urban sprawl surrounding Atlanta. Las Vegas has long faced water shortage problems due to the fact that it is a city within a desert and years of astounding urbanization and population growth have placed unprecedented strain on the already-low water availability in the region. In California, Governor Arnold Schwarzenegger declared a state of emergency in March and threatened, not for the first time, to implement statewide water rationing.
Globally, the problem is even more dire. The world population has already surpassed 6.6 billion and is expected to reach nearly 9 billion by 2050. With this unbridled growth, demand for freshwater is increasing by 64 billion cubic meters per year, according to the United Nations Educational, Scientific and Cultural Organization. Looking back, the World Health Organization (WHO) reports that global freshwater consumption rose six-fold-more than twice the rate of population growth-between 1900 and 1995. A similar rate of increased water consumption over the next half century would be unsustainable, meaning that the current path of overuse and mismanagement cannot continue.

In the United States, several of the fastest-growing cities are already struggling to manage water use. Years of drought in the Southeast have severely drained Lake Lanier, one of the largest lakes in the region and the major freshwater source for the majority of those living in the urban sprawl surrounding Atlanta. Las Vegas has long faced water shortage problems due to the fact that it is a city within a desert and years of astounding urbanization and population growth have placed unprecedented strain on the already-low water availability in the region. In California, Governor Arnold Schwarzenegger declared a state of emergency in March and threatened, not for the first time, to implement statewide water rationing.

Globally, the problem is even more dire. The world population has already surpassed 6.6 billion and is expected to reach nearly 9 billion by 2050. With this unbridled growth, demand for freshwater is increasing by 64 billion cubic meters per year, according to the United Nations Educational, Scientific and Cultural Organization. Looking back, the World Health Organization (WHO) reports that global freshwater consumption rose six-fold-more than twice the rate of population growth-between 1900 and 1995. A similar rate of increased water consumption over the next half century would be unsustainable, meaning that the current path of overuse and mismanagement cannot continue.

Not helping the water scarcity issue are water-intensive industries such as agriculture, energy/oil, mining, food and beverage manufacturing, semiconductors and apparel. Agricultural processes alone account for a whopping 70% of all fresh water used.

This water usage has not gone unnoticed. Recent criticisms of such industries has prompted some corporations to initiate new, less water-intensive processes.

One such company is Anheuser-Busch InBev.

By the end of 2012, the company plans to whittle down its worldwide water use by 30% to 3.5 hectoliters for each hectoliter of production compared with 5.03 hectoliters in 2007. Each hectoliter is about 26.4 gallons. Water use last year was roughly 113.6 gallons, or 4.3 hectoliters, for each hectoliter of beer produced. The company’s brewery in Cartersville, Ga., has already reached the 3.1-hectoliter mark.

Reaching the goal would be the equivalent of saving enough water to fill 25,000 Olympic-size swimming pools, Anheuser-Busch InBev said. Since 2000, the brewer has already decreased water use by nearly 37%, it said.

The LA Times coverage naturally focuses on the “green” aspect, lauding the bottling company for its efforts to help Mother Nature and also discussing its plans to cut carbon dioxide emissions. But you have to think that pure altruism isn’t the sole motivation here. The company is certainly aware that, in the future, water will be a scarcer — and more expensive — commodity and is starting to adjust now by increasing its efficiency.

And Anheuser-Busch isn’t the only company working to waste less water. Texas Instruments, who, along with Intel, used more than 11 billion gallons of ultra-pure water for silicon chip production in 2007, has taken steps to reuse and recycle the vast amount of water it uses on a daily basis. But industries are still a far cry away from realizing in full the impact their water usage has on the earth.

And even if for those that do realize it, many times, revenue means more than waste.

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Big Companies Not Managing Water Scarcity Risks

water scarcity

Despite recent scrutiny of some large corporations that rely heavily on water resources, it seems many companies are still falling short in managing and disclosing water scarcity risks. That’s according to a recent report issued by the Ceres investor coalition, the financial services firm UBS and financial data provider Bloomberg.

The report evaluates and ranks water disclosure practices of 100 publicly traded companies in eight key sectors exposed to water-related risks. The report shows that many companies are not including material water risks and performance data in their financial filings, nor are they providing local-level water data, particularly in the context of facilities in water-stressed regions. Moreover, none of the 100 companies are providing comprehensive water data on their supply chains, an especially glaring omission given that the vast majority of many corporations’ water footprint is in the supply chain.

The report uses a scoring scale of 0 to 100 with the three highest scoring companies being UK beverage company Diageo, Swiss mining company Xstrata and U.S. electric power company Pinnacle West (owner of Arizona Public Service).

“Most companies provide basic disclosure on overall water use and water scarcity concerns, but their focus and attention so far is not nearly at the level needed given the enormity of this growing global challenge,” said Mindy S. Lubber, president of Ceres. “Our global economy runs on water and in many parts of the world this finite resource is under threat. Companies must do more to disclose their potential exposure from this issue and their strategies for responding.”

The report assesses companies in eight different sectors: beverage, chemicals, electric power, food, homebuilding, mining, oil and gas and semiconductors. The report found the following:

The mining sector scored highest overall, followed by the beverage industry. Companies in the homebuilding sector had the lowest overall scores.
Only 21 companies disclose targets to reduce water use, and even fewer – just 15 companies – had goals to reduce wastewater discharge.
Only 17 companies report local-level water data and only a handful provide the information in the context of operations in water stressed regions.
  • The mining sector scored highest overall, followed by the beverage industry. Companies in the homebuilding sector had the lowest overall scores.
  • Only 21 companies disclose targets to reduce water use, and even fewer — just 15 companies — had goals to reduce wastewater discharge.
  • Only 17 companies report local-level water data and only a handful provide the information in the context of operations in water stressed regions.
The findings in this report do not bode well for companies with the highest scores. Investors have been increasingly critical of companies that do not disclose environmental, social and governance risks they may face. It is nice to see that this report offers a bit of guidance for those companies wanting to be more transparent with such risks. It recommends companies:
  • include material water risk factors and performance data in their financial filings;
  • provide water performance data broken down to the facility level for operations in water-stressed regions;
  • outline actions and policies for assessing and managing water risks, including quantified targets for reducing wastewater and water use;
  • disclose how they are collaborating with stakeholders and suppliers on water risks, including setting performance goals for key supply chains;
  • outline specific strategies for developing water-related products with strong market potential in a water-constrained world.

For more about water scarcity, check out the cover story we ran in our June 2009 issue. And please, let us know how your company is managing water scarcity risks.