Environmental News
Environmental News from Boulder, Colorado
50,000 Endangered Species Condoms to Be Handed Out at Year-end Events
Dec 23rd
TUCSON, Ariz.— The Center for Biological Diversity is distributing 50,000 free Endangered Species Condoms for holiday and New Year’s Eve celebrations around the country. More than 600 volunteer distributors will hand out the condoms at events in all 50 states. The condoms are part of the Center’s 7 Billion and Counting campaign focusing on the effects of rapid human population growth on rare plants and animals. “There are more than 3 billion people on the planet under the age of 25. The choices this generation makes will determine whether our planet and its wildlife and natural resource base are burdened with 8 billion or 15 billion people. The difference between these paths can be measured by how many other species are left to roam alongside us,” said Jerry Karnas, population campaign director with the Center. “Our Endangered Species Condoms are a great way to get a conversation started about how the growing human population is affecting the wild world around us, especially animals already teetering on the edge of extinction.”
As part of its full-time population campaign launched in 2009, the Center has given out 450,000 free Endangered Species Condoms, featuring polar bears, panthers and other species threatened by population growth, loss of habitat and consumption of natural resources. This year, the Center is providing condoms to college health centers, nightclub owners, environmental activists, women’s reproductive-health groups and other activists around the United States. The world’s human population has doubled since 1970, reaching 7 billion in October 2011. According to the latest research, it could exceed 9 billion by 2050. In recent weeks, several federal reports have noted the impact that population is having on the natural world. A recent decision to propose Endangered Species Act protection for 66 coral species said that “the common root or driver of most, possibly all” of the threats that corals face — like climate change and changing ocean conditions — is the world’s growing human population. Another report, by the Department of the Interior, raised serious questions about the ability of the Colorado River to meet demands of a growing population in the western United States. “The evidence is mounting, and the solutions are at hand if only we’re just willing to start talking about them,” Karnas said. “Universal access to birth control, a rapid transition to clean energy, robust land-acquisition programs and much smarter growth policies can combine to forge a future for wildlife and a high quality of life for people. There’s no better time to start than in the new year of 2013.” The Center is the only environmental group with a full-time campaign highlighting the connection between unsustainable human population growth and the ongoing extinction crisis for plants and animals around the world. In 2011 the Center released a report on the top 10 U.S. species threatened by population growth. The Center for Biological Diversity is a national, nonprofit conservation organization with more than 450,000 members and online activists dedicated to the protection of endangered species and wild places. [includeme src=”http://c1n.tv/boulder/media/bouldersponsors.html” frameborder=”0″ width=”670″ height=”300″]
|
New EnergySmart rebates for businesses coming soon
Dec 18th
Boulder County, Colo. – Businesses and commercial property owners in Boulder County will be eligible for a new round of rebates for energy efficiency upgrades beginning in the early part of 2013.
EnergySmart is pleased to announce that $250,000 in rebates will be available for eligible business or commercial property projects completed between Jan. 1 and Apr. 15, 2013 or until funds are committed.
“We’re pleased to be able offer these additional incentives to local businesses,” said Boulder County Commissioner Will Toor. “Although funding from the federal ARRA grant will run out in mid-2013, our municipal and county officials and staff are committed to helping businesses continue to implement energy efficient improvements throughout the New Year.”
Already more than 500 EnergySmart Businesses throughout Boulder County have implemented energy efficiency projects that will save them more than $11 million a year. EnergySmart has awarded over $1 million in rebates to businesses since November 2010, supporting the investment of over $6.5 million in energy efficiency projects in commercial buildings located in our communities.
“The savings in power along with the reduced stress on the HVAC system and the overwhelming appreciation from the tenants makes this one of the best investments I have made in Commercial Real Estate,” said Rich Carlisle of BC Properties in Louisville.
EnergySmart is offering rebates to businesses and commercial property owners for over 120 qualifying energy efficiency measures. Previously awarded rebates will not count toward caps in this round. Solar photovoltaic (PV) and other renewable energy measures are eligible for rebates for commercial properties that achieve 15% energy savings through EnergySmart.
More information is available at www.EnergySmartYES.com. The rebate application will be available online Jan 2. Interested businesses are encouraged to call an Energy Advisor at 303-441-1300 to ensure your projects meet the eligibility requirements for both EnergySmart and local utility rebates. Payments will be made to qualifying applicants upon completion of projects on a first-come, first-served basis. Projects completed in 2012 are not eligible for 2013 rebate funds.
EnergySmart provides a suite of services to help businesses and homes in all Boulder County communities identify valuable energy-saving opportunities and assist residents and business owners through the energy upgrade process. For more information or to sign up, call an EnergySmart Advisor:
Businesses: 303-441-1300
Residents: 303-544-1000
Or visit www.EnergySmartYES.com
The program is funded by the American Recovery and Reinvestment Act through the U.S. Department of Energy’s BetterBuildings grant program and is sponsored in partnership by Boulder County, the cities of Boulder and Longmont, Xcel Energy and Platte River Power Authority.
[includeme src=”http://c1n.tv/boulder/media/bouldersponsors.html” frameborder=”0″ width=”670″ height=”300″]
CU Boulder research team finds massive crevasses and bendable ice affect stability of Antarctic ice shelf
Dec 7th
Gaping crevasses that penetrate upward from the bottom of the largest remaining ice shelf on the Antarctic Peninsula make it more susceptible to collapse, according to University of Colorado Boulder researchers who spent the last four Southern Hemisphere summers studying the massive floating sheet of ice that covers an area twice the size of Massachusetts.
But the scientists also found that ribbons running through the Larsen C Ice Shelf – made up of a mixture of ice types that, together, are more prone to bending than breaking – make the shelf more resilient than it otherwise would be.
The research team from CU-Boulder’s Cooperative Institute for Research in the Environmental Sciences presented the findings Dec. 6 at the American Geophysical Union’s annual meeting in San Francisco.
The Larsen C Ice Shelf is all that’s left of a series of ice shelves that once clung to the eastern edge of the Antarctic Peninsula and stretched into the Weddell Sea. When the other shelves disintegrated abruptly – including Larsen A in January 1995 and Larsen B in February 2002 – scientists were surprised by the speed of the breakup.
Researchers now believe that the catastrophic collapses of Larsen A and B were caused, at least in part, by rising temperatures in the region, where warming is increasing at six times the global average. The Antarctic Peninsula warmed 4.5 degrees Fahrenheit since the middle of the last century.
The warmer climate increased meltwater production, allowing more liquid to pool on top of the ice shelves. The water then drained into surface crevasses, wedging them open and cracking the shelf into individual icebergs, which resulted in rapid disintegration.
But while the meltwater may have been responsible for dealing the final blow to the shelves, researchers did not have the opportunity to study how the structure of the Larsen A and B shelves may have made them more vulnerable to drastic breakups – or protected the shelves from an even earlier demise.
CU-Boulder researchers did not want to miss the same opportunity on the Larsen C shelf, which covers more than 22,000 square miles of sea.
“It’s the perfect natural laboratory,” said Daniel McGrath, a doctoral student in the Department of Geography and part of the CIRES research team. “We wanted to study this shelf while it’s still stable in order to get a better understanding of the processes that affect ice shelf stability.”
McGrath worked with CIRES colleagues over the last four years to study the Larsen C shelf in order to better understand how the warming climate may have interacted with the shelf’s existing structure to increase its vulnerability to a catastrophic collapse.
McGrath presented two of the group’s key findings at the AGU meeting. The first was the role that long-existing crevasses that start at the base of the shelf and propagate upward – known as basal crevasses – play in making the shelf more vulnerable to disintegration. The second relates to the way a type of ice found in areas called suture zones may be protecting the shelf against a breakup.
The scientists used ground penetrating radar to map out the basal crevasses, which turn out to be massive. The yawning cracks can run for several miles in length and can penetrate upwards for more than 750 feet. While the basal crevasses have been a part of Larsen C for hundreds of years, the interaction between these features and a warming climate will likely make the shelf more susceptible to future disintegration. “They likely play a really important role in ice-shelf disintegration, both past and future,” McGrath said.
The research team also studied the impact of suture zones in the ice shelf. Larsen C is fed by 12 distinct glaciers, which dump a steady flow of thick ice into the shelf. But the promontories of land between the glacial outlets, where ice does not flow into the shelf, allow for the creation of ribbon-like suture zones, which knit the glacial inflows together and which turn out to be important to the ice shelf’s resilience. “The ice in these zones really holds the neighboring inflows together,” McGrath said.
The suture zones get their malleable characteristic from a combination of ice types. A key component of the suture zone mixture is formed when the bottoms of the 12 glacial inflows begin to melt. The resulting freshwater is more buoyant than the surrounding seawater, so it rises upward to the relatively thinner ice zones between the glacial inflows, where it refreezes on the underside of the shelf and contributes to the chaotic ice structure that makes suture zones more flexible than the surrounding ice.
It turns out that the resilient characteristics of the suture zones keep cracks, including the basal crevasses, from spreading across the ice shelf, even where the suture zone ice makes up a comparatively small amount of the total thickness of the shelf. The CIRES team found that at the shelf front, where the ice meets the open sea, suture zone ice constitutes only 20 percent of the total thickness of the shelf but was still able to limit the spread of rifts through the ice. “It’s a pretty small part of the total ice thickness, and yet, it still has this really important role of holding the ice shelf together,” McGrath said.
Other CU researchers involved in the Larsen C project were Konrad Steffen, former director of CIRES; Ted Scambos, of CIRES and CU-Boulder’s National Snow and Ice Data Center; Harihar Rajaram, of the Department of Civil Engineering; and Waleed Abdalati, of CIRES.