Bonneville Environmental Foundation

The lights of the school came on at 1 a.m. and the Norway Town’s people began chanting and singing their praises for a job well done.  The solar panel installation on the school was complete and the super LED bulbs chosen for the project were lighting the whole building up.  The group of us representing Volunteers for International Development and Aid (VIDA) breathed a sigh of relief knowing that the intense planning put into preparing for the trip to eastern Sierra Leone had paid off.  The school can now be used twice as long each day, allowing for additional classes at night and further use as a meeting space for community leaders.

Norway Town was established six years ago to provide support to amputees of the civil war that raged from 1991 to 2002.  At the request of the community Engineers without Borders (EWB-SE) stepped in to build a school for the local children in the Hanga region while VIDA provided funding for the construction of the building and the addition of a solar array for lighting and phone charging.

Sierra Leone is a safe place to travel, but there is still a ways to go to get power to its 5.5 million inhabitants.  The major cities are without consistent power and beyond city limits there is no power at all.  Norway Town is like so many small towns and villages in the country where socializing ends when darkness comes.  Flashlights are common but most exist as built-in components of cell phones that are difficult and expensive to maintain.

The Norway Town School’s solar panels address both lighting and phone issues for the community.  The extended use of the building added new capabilities for the facility and the phone charging station saves folks money that they would otherwise need to charge their phone at a vendor downtown.  The money will be set aside for maintenance of the system of the solar array over time as well as for school material needs.

Many of the children had never seen light bulbs before let alone an LED bulb that uses only 7 watts but produces the lumens equivalent to a 100-watt incandescent.    They were mesmerized buy the technology, as too were many chiefs from around the region who paid visits to this one-of-a-kind installation in the region.  Perhaps the greatest power provided by these solar panels is the optimism and inspiration they offer to a nation just beginning to conceive of its energize future. Here in a place where just 120 watts can light an entire school and keep a community connected.

The famous Goo Goo Cluster candy bar will turn 100 years old in 2012, but instead of reminiscing about the past, the company is looking forward to its future and the future of the planet.

Earlier this year, Standard Candy Company partnered with BEF to purchase green energy to power its Goo Goo Cluster manufacturing line in Nashville, TN. With the purchase, Goo Goo Clusters became the first candy bar to buy BEF Renewable Energy Credits.

“This was an important thing to do,” said Executive Vice President of Goo Goo Cluster, LLC, Lance Paine. “It helps move us into the 21^st century.”

Long known as the premier candy bar in the south, Goo Goo Clusters are welcoming their upcoming 100-year anniversary with updated packaging graphics, a new website and several sustainability measures including compostable packaging and the purchase of green energy through BEF.

The company also looked at its ingredients. It improved the quality of its chocolate and removed vanillin, partially hydrogenated oils and wheat germ to create what they call a “clean” label product. Goo Goo Clusters come in three flavors – original, supreme and peanut butter. Visit www.googoo.com for more information.

The Bonneville Environmental Foundation is extremely pleased to have recently entered into a 10-year Model Watershed Project agreement with the Methow Salmon Recovery Foundation.  The Methow Salmon Recovery Foundation is a member of the Methow Restoration Council, a unique collaboration of locally operating state and federal agencies, nongovernmental organizations, and private citizens committed to the common goal of restoring healthy populations of native fish in the Methow River watershed.

The Methow River is a tributary of the upper Columbia River.  It drains a 1.1 million acre watershed that lies on the eastern slopes of the North Cascades mountain range in north-central Washington.  Historically, the Methow River supported prolific runs of ocean-going Chinook and coho salmon, steelhead trout, and Pacific lamprey.  The watershed also held abundant populations of native westslope cutthroat trout, redband rainbow trout, and bull trout.  However, soon after Euro-American settlement of the greater Columbia Basin, many of these native fish experienced considerable declines from their once prodigious numbers.  The members of the Methow Restoration Council now collaborate to implement a multi-species recovery plan that was completed in 2007 and is coordinated by the Upper Columbia Salmon Recovery Funding Board.

As a Model Watershed partner, the Methow Salmon Recovery Foundation will receive BEF funding of up to $300,000 and technical support over a ten-year period.  This partnership will increase the capacity of the Methow Restoration Council to implement the salmon recovery plan, manage the implementation of monitoring programs, and provide a community-based forum to facilitate outreach and education programs of a restoration program that supports and values community participation and stewardship.

For more information, visit  Methow Salmon Recovery Foundation: http://www.methowsalmon.org/index.html and  Upper Columbia Salmon Recovery Board: http://www.ucsrb.com/.

The National Hockey League scored two goals for the planet this winter with an assist from the Bonneville Environmental Foundation and the Natural Resources Defense Council.

As part of a larger sustainability initiative, called NHL Green, the league purchased BEF RECs to offset the electricity usage of all activities associated with the 2011 Winter Classic at Heinz Field in Pittsburgh, PA and the 2011 All-star Game at the RBC Center in Raleigh, NC.

These renewable energy resources meet rigorous environmental criteria developed by leading environmental organizations, including the Natural Resources Defense Council.

Besides purchasing BEF RECs, the NHL teamed up with local groups on a wide assortment of environmental initiatives. At the All-Star Game, the NHL partnered with the RBC Center to divert up to 40 tons of waste from landfills through recycling. At the All-Star Wide Open Street Fair, North Carolina State University and corporate sponsor Honda hosted sustainability booths. And another booth, by Raleigh’s Scrap Exchange, allowed fans to make arts and crafts entirely from recycled materials.

At the Winter Classic at Heinz Field, the NHL focused on parking lot recycling and partnered with the Pennsylvania Resources Council to collect aluminum cans, glass containers and plastic bottles and cups in six designated stadium parking lots.

“Sporting events provide a great opportunity to reinforce the importance of recycling, and education is a key component of this campaign,” said Dave Mazza, Regional Director of the Pennsylvania Resources Council. “PRC and its campaign partners are encouraging people to recycle when they’re away from home by making the activity easy and convenient.”

BEF Renewable Energy Certificates (RECs) represent renewable energy from sources such as wind, solar, or biogas projects where clean energy has been delivered into the North American power grid to reduce carbon emissions from existing fossil fueled power plants. One REC represents the environmental benefits of 1-megawatt hour (MWh) of renewable electricity generated and delivered to the power grid.

As an organization with a long history in watershed restoration work, BEF is continually looking for innovative ways to solve one of the most pressing water crises we face today — scarcity.
BEF’s latest innovation — Water Restoration Certificates — are an entrepreneurial solution to the environmental problem of water scarcity.
One of the creators of BEF’s WRC program was asked to speak at TEDx. Check out his brief, 7 minute, illuminating talk about the history of water rights in the West.

De-Watered? In Oregon?

The conventional thinking about the Pacific Northwest is that it rains here – and rains a lot. Oregon, for instance, is famously rainy. Its residents are more accustomed to donning rain slickers than sunhats. It is not surprising, then, that many people scratch their head when they hear the Bonneville Environmental Foundation is working to restore de-watered streams in Oregon. How can a stream run dry in Oregon with all that water?

Answers became apparent during a recent BEF trip to the Deschutes Watershed in Central, Oregon. Four BEF employees and a special guest visited the region with the Deschutes River Conservancy, a non-profit partner in BEF’s Model Watershed Program and its Water Restoration Certificate (WRC) program.

As you crest over the pass near Mount Hood, you quickly notice a change in foliage and a drop in humidity. Giant Douglas Firs give way to Pine trees. Lush, green undergrowth changes to scrub brush and brown grasses. The air is dryer, the elevation is higher and the clouds that managed to survive their journey from the Pacific have travelled through the Willamette Valley, up and over the Cascade Range, and en route lost much of their rain-making gusto.

At times, Central Oregon seems a state apart from the Willamette Valley and its large cities and Gore-Tex jackets. Central Oregon is a high desert with an arid climate. And water there is a scarce commodity.

High Demand in the High Dessert

Most of the small towns that sprung up in Central Oregon did so on or around the Deschutes River.

Bend, Oregon – Central Oregon’s largest city at just over 80,000 residents – was named after a bend in the river. And the river runs right through downtown. The Deschutes River Conservancy’s motto, — “It’s why we’re all here.”  — is a statement that holds true both historically and in modern times. What once was an attractive outpost for hunters and ranchers has also become a rafting, fishing and golfing paradise.

All of those activities require water, however. And as the region was promoted as an amazing outdoors playground, population exploded, and residents realized that the water supply had become stressed.

As we visited the Deschutes, our trip took on the feel of a sort of Charles Dickens tale about watershed restoration. With stories of the past, present and future health of the river told by our friends at DRC.

The Past

On the Upper Deschutes, home to some great rafting waters, the flow is regulated at its outlet at Wickiup Reservoir. Stream flows are actually higher than normal in the summer due to this management, and this altered stream-flow pattern erodes river banks and stresses riparian ecosystems. But as we navigated some class 3 rapids, including the 3+ Big Eddy, it was easy to imagine this river looking something very close to its natural state.

A massive lava flow runs along one bank, while native pine forests envelop the other. To birds, deer and other wildlife, the river provides valuable habitat. And the only signs of man could be found in raft pullouts and well-worn biking trails along the river’s bank. One can imagine settlers traveling over the desert and gathering along this river to hunt and fish in a once-bountiful wildlife corridor.

The Present

As the river tumbles further toward Bend it eventually slows and widens near the Old Mill shopping district before cascading over a man-made damn near McKay Park. Further downriver, just past popular downtown Drake Park, stands an irrigation diversion that cuts the river’s flow dramatically.  What water makes it past the diversion is halved again in another irrigation diversion just upstream from The Riverhouse Hotel.

This section of the Middle Deschutes visually represents how past and present demands for water have stretched the resource thin. Historically this portion of the river would run dry, effectively creating a dry swath in the river between the Upper Deschutes, famous for it’s rafting and recreation, and the Lower Deschutes, home to blue ribbon trout and steelhead fishing.

The Future

As we sat on a deck at the Riverhouse Hotel, overlooking the Middle Deschutes, we watched as two teenaged kids inner-tubed past the big rocks and through pools. It was the end of July, yet the water flowed clear and cold in a stream that had run nearly dry during many previous summers.

About 80 percent of the water in the stream was there because of the efforts of BEF and other’s work through the DRC in building partnerships between several, often competing, interest groups.  The Deschutes is one of BEF’s Model Watershed Programs that began in 2006. BEF has pledged to fund $300,000 worth of restoration work in the area over the life of the 10-year project. Through a series of water purchases, water conservation programs, water leasing and participation in BEF’s WRC program, DRC has increased the flow in the Middle Deschutes dramatically, from approximately zero Cubic Feet Per Second (CFS) to 100 cfs. DRCs goal is to eventually reach 250 cfs. And what once seemed an impossible goal, seems attainable today.

Restoration progress on area tributaries is also inspiring. On Whychus Creek, DRC is working with the Deschutes Basin Land Trust, the Upper Deschutes Watershed Council, and many other stakeholders to conserve water by piping large stretches of irrigation canals. These large piping projects help to reduce the approximately 50 percent flow loss that occurs because the water in these canals seeps into the ground through the porous, volcanic soil.

Further downstream, DRC and its partners are also restoring a critical habitat area known as Camp Polk Meadow outside of Sisters, Oregon.

The group is returning a straight, riffled stretch of stream back to its natural winding route and bringing back healthy steelhead and redband trout populations with it.

As with any effective watershed improvement approach, there are many pieces to the Deschutes puzzle. Thankfully, Central Oregon has many hard-working water stewards like the DRC.

Through their efforts, and their partnership with BEF,  the Deschutes Watershed will once again be filled with habitat that enriches the lives of all the creatures who call the region home.

To celebrate the 40^th Anniversary of Earth Day, the Seattle Mariners Major League Baseball team offset the electricity use and CO2 emissions of its April 21 home game against the Baltimore Orioles by purchasing Green-e certified BEF renewable energy certificates (RECs) and BEF Carbon Offsets.

The purchase was part of the Mariners’ second annual “Strive for Zero Waste” campaign.  The Mariners purchased RECs to offset the electricity used at Safeco Field on game day and the electricity used at local hotels by the visiting team and umpires.

The Mariners also purchased enough BEF Carbon Offsets to match the CO2 emissions from Safeco Field’s natural gas use, the non-recyclable garbage created during the game, 180,000 car miles from fans driving to the game and the Orioles’ team charter flight to and from Seattle.

“Our April 21, 2010 game against the Baltimore Orioles was a perfect opportunity to celebrate the 40th anniversary of Earth Day and encourage the public to help do their part to protect the environment,” said Scott Jenkins, V.P. Ballpark Operations for the Mariners.   “In addition to the zero waste theme, we were happy to work with BEF to offset carbon emissions for this game from electricity, natural gas, waste, and travel for fans, the visiting team and umpires. We have been working hard to minimize our environmental impacts while at the same time improving our bottom line.  We are excited about our recycling rate of over 70% through the first two series of games and the more than $1,000,000 in utility costs we have saved since 2007. BEF has been a great resource and partner as look for further opportunities to green our operations.”

The Mariners “Strive for Zero Waste” campaign is just one of several initiatives by Major League Baseball (MLB) to raise awareness for environmental issues. MLB is currently working with the Natural Resources Defense Council (NRDC) to develop a comprehensive software system to collect and analyze data from all 30 MLB stadiums in order to create league-wide environmental best practices. The MLB is the first professional sports league to develop this type of software.

“Major League Baseball has responsibilities to our fans and society at large that go beyond the playing field,” said Baseball Commissioner, Allan H. (Bud) Selig in a MLB press release.  “Our Clubs have made a commitment to sustainability and are leaders in their communities raising awareness and educating fans not just on Earth Day, but everyday about environmental stewardship.”

Visit MLB.com for more information about the league’s initiatives.

BEF has worked with several professional teams and leagues to reduce their environmental impact. They include the Boston Red Sox, Tampa Bay Rays, Cleveland Indians, MLB at the league level, Minnesota Timberwolves and the NBA All-Star game. BEF also worked with Major League Soccer for last year’s final cup game and for MLS games this April in Seattle, Chicago, Columbus, Dallas and San Jose.

Visit b-e-f.org/business to learn about carbon solutions for your business.

In May, BEF finalized agreements formally committing to support 10-year watershed restoration partnerships with seven watershed groups located throughout Oregon’s Willamette River Basin.  Working with the Meyer Memorial Trust (MMT), BEF officially established long-term restoration partnerships with the Long Tom, Marys River, Middle Fork Willamette, Luckiamute, Calapooia, and North and South Santiam Watershed Councils.  In signing memorandums of understanding with each of these groups, BEF and Meyer Memorial Trust have now pledged to jointly provide funding, technical, and logistical support to these groups through 2018.

Each of the groups selected for support worked with BEF to design a comprehensive, decades-long restoration strategy for select target streams and rivers within the Willamette River basin.  The comprehensive plans that were formalized and approved this month outline the actions each group expects to take over the next ten years to engage local landowners, restore water quality, and improve habitat for fish and wildlife.

To date, BEF has committed 10-year Model Watershed support to individual watershed groups scattered across Idaho, Oregon, Washington, and Northern California.  The newly established Willamette Model Watershed partnerships, however, comprise seven watershed groups working to restore individual tributary watersheds in one single river basin.  This is BEF and MMT’s first attempt to work collectively with numerous groups to cumulatively restore habitat and water quality across multiple watersheds in a large geographic area.  In working with many groups in the same basin, this program is exploring opportunities to share restoration resources, apply new efficiencies to restoration planning and implementation, and utilize common monitoring protocols to facilitate shared learning and adaptive management among all partner groups.

With a long-term commitment to support this work, we expect to closely track and report on progress and lessons learned.

Bonneville Environmental Foundation’s work to reduce the carbon footprint of the White House Correspondents’ Dinner made national headlines this month. The piece, titled “Obama, Leno and a Low-Carbon Menu” can be found in the New York Times Green Blog.

The black-tie dinner was held May 1. President Obama and Jay Leno provided some of the night’s entertainment.

Here’s a link to their speeches:

http://www.youtube.com/watch?v=aYsGwLWqWI4&feature=player_embedded

“This will be the most eco-friendly dinner ever hosted by the association,” said Edwin Chen, president of the (correspondents association) and a White House correspondent for Bloomberg News.

The association is purchasing 62 metric tons of offsets for the event, equivalent to the carbon that will be emitted by the 2,600 attendees traveling to the event, including President Obama’s 1.6-mile motorcade ride from the White House and Leno’s flight from California. This is the first time in its 96-year history that organizers have committed to reducing the carbon footprint of the event, and the first time the presidential motorcade is being offset.

By Dave Lettero, Education Manager, Project Management Group

In June, China will begin construction of the world’s largest solar power plant in Ordos City, Inner Mongolia, China.  The 2 gigawatt thin film solar project will take nearly a decade to complete. First Solar, the American company leading the project, will use new solar cells able to produce electricity at low light levels providing reliable solar power generation for utilities.

“2 gigawatts, that is a lot of clean power,” I say to myself and punch and few numbers into my calculator, “enough to power 1.6 million American homes.  But just what is a lot of power? 2 gigawatts is adequate power to a utility.  It takes 80 terrawatts (80 billion kilowatts) to power the needs of human civilization.  And that’s not nearly the power needed for humanity to become a class 2 civilization–according to Carl Sagan that will take controlling the energy of an entire star.  I’m always trying to find new ways to translate the energy production from the solar panels on schools in terms students will understand.   Compared to the power used everyday 2 kilowatts might not seem like so much.  But it’s amazing just how much even that kind of power can do.

I lived off-grid for a while a few years back and I cherished the 2.5 kilowatts I was able to generate with solar electric panels.  It kept my radiant floor heat pumping, my water UV sterilizer glowing, lights on over my head, kept my DC fridge cold and my computer running.  In short bursts I even used energy sucking power tools.  2.5 was a lot of power to me and it’s about half the size of the average solar electric installation on an American home. To a villager in a developing area 2 kilowatts is a world of power.  Individual energy shares in a village can be 2 to 5 watts per person.  A 30 watt panel in a village can mean power for a computer, lights, UV sterilization equipment for hospitals, pumps for wells, fans to stay cool.

On a school 2 kilowatts can power a 200 square foot classroom space minus the heating system.  2 kilowatts can power about 500 iPods, or 83 laptop computers, or 35 desktop computers, or 2 refrigerators,  or 1 energy efficiency dryer, or one circular saw—virtually all the items we use every day.  That means an annual savings of hundreds of dollars.

We’ll need to continue to find ways to make these items more efficient and to decrease our personal daily energy demands if we are to make the most of the large scale clean power projects coming online in the US in a few years.  What’s relatively average energy usage to an American today is a whole lot to someone in a place like China.  The new 2 gigawatt solar array there will power twice as many Chinese homes as American homes.