Posts tagged mountain
Rain closes Lefthand Boulder creek rising #boulderflood
Jul 7th
It is raining Boulder. As of 8:00pm the following are the only incidents that the city or county are working. The city recommends you go to the OEM website. OEM does not have a feed with updates. We suggest listening to sheriffs office scanner. If things get bad later tonight we will broadcast all scanner emergency traffic here, call dispatch and command and report for you
July 7 – 5:40 p.m. – Lefthand Canyon Drive closed
Lefthand Canyon Drive is closed between Olde Stage Road and James Canyon Drive. Debris flows caused by the thunderstorm have impacted some roads mountain roads in western Boulder County.
July 7 – 5:20 p.m. – Boulder Creek flows expected to increase
With the heavy rainfall this afternoon, the City of Boulder is expecting to see an increase in Boulder Creek water levels. Last night, the creek was running at 161 cfs. It is currently at 287 cfs and is likely to run between 500 and 600 cfs by nightfall. This is not expected to cause significant spillage along the banks, but pedestrians and cyclists in the area are urged to use caution. Please remember that it is not safe to seek shelter under bridges or in other underpasses. These are designed to move floodwaters through and can be very dangerous in these conditions.
July 7 – 5:40 p.m. – Lefthand Canyon Drive closed
Lefthand Canyon Drive is closed between Olde Stage Road and James Canyon Drive. Debris flows caused by the thunderstorm have impacted some roads mountain roads in western Boulder County.
July 7 – 5:20 p.m. – Boulder Creek flows expected to increase
With the heavy rainfall this afternoon, the City of Boulder is expecting to see an increase in Boulder Creek water levels. Last night, the creek was running at 161 cfs. It is currently at 287 cfs and is likely to run between 500 and 600 cfs by nightfall. This is not expected to cause significant spillage along the banks, but pedestrians and cyclists in the area are urged to use caution. Please remember that it is not safe to seek shelter under bridges or in other underpasses. These are designed to move floodwaters through and can be very dangerous in these conditions.
The city is also receiving some reports of nuisance street flooding in the Table Mesa area and a few other neighborhoods. Safety officials would like to remind motorists to avoid driving through floodwaters, which can be deeper than they may seem.
Boulder County assistance program featured on Dateline NBC
Jun 21st
Boulder County’s human services programs highlighted nationally
County’s focus on early intervention and prevention helping increasing numbers of people
Boulder County, Colo. – Boulder County’s front-end approach to providing human services will be in the national spotlight this weekend. On Sunday, June 24, Dateline NBC will feature a documentary on three families who have received services through the county and its collaboration with community providers.
According to the network’s description, the one-hour special, “America Now: Lost in Suburbia,” focuses on formerly middle class families confronting poverty for the first time. Dateline producers and camera crews have been in Boulder County since late 2011 conducting interviews and gathering footage for the documentary. Boulder County Department of Housing and Human Services (DHHS) Director Frank Alexander spoke with Dateline NBC anchor Lester Holt for the program, and numerous interviews were also conducted with DHHS staff and representatives from community non-profit partner organizations.
The program will air this Sunday at 7 p.m. Mountain time on NBC.
Since 2008, Boulder County has seen a 150 percent increase in need for Food Assistance and a 63 percent increase in need for Medicaid services. Some of this increase is a result of people applying for human services assistance for the first time in their lives. Alexander notes that in recent years, in part to address this rising need, Boulder County has shifted to a front-end, early intervention and prevention approach to providing human services. “This involves helping clients identify their full range of needs as soon as they come to us,” he said. “For example, if we can help someone avoid foreclosure by getting him into housing counseling, we save him and the community nearly $75,000.”
Boulder County’s foreclosure rate has fallen 58 percent since it peaked in 2009, the same year the number of clients in DHHS’ foreclosure counseling program hit its high point. “Many clients who come to us for Food Assistance quickly find out that they also need housing counseling and are eligible for financial assistance with childcare,” Alexander said. “By investing more in this early identification of needs, we are saving money and helping people avoid deeper crisis.”
Ballot Initiative 1A, also known as the Temporary Human Services Safety Net (TSN), is helping generate funding for these crucial services. The TSN, passed by voters in November 2010, was designed to back-fill budget cuts to Boulder County’s human services programs. The county has seen a 20 percent cut to its human services funding at the state and federal level during a time when need has risen dramatically.
“Our front-end approach to human services is strengthening our safety net,” said Boulder County Commissioner Cindy Domenico. “Thanks in big part to the taxpayers and our community partners, as more of our neighbors find themselves needing help we’re building a system that is there to meet them earlier and more efficiently.”
CU scientists find life forms in a lifeless land
Jun 14th
A team led by the University of Colorado Boulder looking for organisms that eke out a living in some of the most inhospitable soils on Earth has found a hardy few.
A new DNA analysis of rocky soils in the Martian-like landscape on some volcanoes in South America has revealed a handful of bacteria, fungi and other rudimentary organisms called archaea, which seem to have a different way of converting energy than their cousins elsewhere in the world.
“We haven’t formally identified or characterized the species,” said Ryan Lynch, a CU-Boulder doctoral student involved in the study. “But these are very different than anything else that has been cultured. Genetically, they’re at least 5 percent different than anything else in the DNA database of 2.5 million sequences.”
Life gets little encouragement on the incredibly dry slopes of the tallest volcanoes in the Atacama region, where CU-Boulder Professor Steve Schmidt and his team collected soil samples. Much of the sparse snow that falls on the terrain sublimates back to the atmosphere soon after it hits the ground, and the soil is so depleted of nutrients that nitrogen levels in the scientists’ samples were below detection limits.
One of the most hostile environments on the planet
Ultraviolet radiation in the high-altitude environment can be twice as intense as in a low-elevation desert, said Schmidt of CU-Boulder’s ecology and evolutionary biology department. While the researchers were on site, temperatures dropped to 14 degrees Fahrenheit one night and spiked to 133 F the next day.
How the newfound organisms survive under such circumstances remains a mystery. Although Ryan, Schmidt and their colleagues looked for genes known to be involved in photosynthesis and peered into the cells using fluorescent techniques to look for chlorophyll, they couldn’t find evidence that the microbes were photosynthetic.
Instead, they think the microbes might slowly generate energy by means of chemical reactions that extract energy and carbon from wisps of gases such as carbon monoxide and dimethylsulfide that blow into the desolate mountain area. The process wouldn’t give the bugs a high-energy yield, Lynch said, but it could be enough as it adds up over time. A paper on the findings has been accepted by the Journal of Geophysical Research-Biogeosciences, published by the American Geophysical Union.
While normal soil has thousands of microbial species in just a gram of soil, and garden soils even more, remarkably few species have made their home in the barren Atacama mountain soil, the new research suggests. “To find a community dominated by less than 20 species is pretty amazing for a soil microbiologist,” Schmidt said.
Nearly 20,000 feet in altitude, snowless for 48,000 years
He has studied sites in the Peruvian Andes where, four years after a glacier retreats, there are thriving, diverse microbe communities. But on these volcanoes on the Chile-Argentina border, which rise to altitudes of more than 19,685 feet and which have been ice-free for 48,000 years, the bacterial and fungal ecosystems have not undergone succession to more diverse communities. “It’s mostly due to the lack of water, we think,” he said. “Without water, you’re not going to develop a complex community.”
“Overall, there was a good bit lower diversity in the Atacama samples than you would find in most soils, including other mountainous mineral soils,” Lynch said. That makes the Atacama microbes very unusual, he added. They probably had to adapt to the extremely harsh environment, or may have evolved in different directions than similar organisms elsewhere due to long-term geographic isolation.
Growth on the mountain might be intermittent, Schmidt suggested, especially if soils only have water for a short time after snowfall. In those situations, there could be microbes that grow when it snows, then fall dormant, perhaps for years, before they grow again. High-elevation sites are great places to study simple microbial communities, ecosystems that haven’t evolved past the very basics of a few bacteria and fungi, Schmidt said.
“There are a lot of areas in the world that haven’t been studied from a microbial perspective, and this is one of the main ones,” he said. “We’re interested in discovering new forms of life, and describing what those organisms are doing, how they make a living.”
Schmidt’s lab, along with others, is studying how microorganisms travel from one site to another. One common method of microbe transport is through the air — they’re caught up in winds, sucked up into clouds, form rain droplets and then fall back to the ground somewhere else as precipitation.
But on mountains like Volcán Llullaillaco and Volcán Socompa, the high UV radiation and extreme temperatures make the landscape inhospitable to outside microbes. “This environment is so restrictive, most of those things that are raining down are killed immediately,” Schmidt said. “There’s a huge environmental filter here that’s keeping most of these things from growing.”
The next steps for the researchers are laboratory experiments using an incubator that can mimic the extreme temperature fluctuations to better understand how any organism can live in such an unfriendly environment. Studying the microbes and finding out how they can live at such an extreme can help set boundaries for life on Earth, Schmidt said, and tells scientists what life can stand. There’s a possibility that some of the extremophiles might utilize completely new forms of metabolism, converting energy in a novel way.
Schmidt also is working with astrobiologists to model what past conditions were like on Mars. With their rocky terrain, thin atmosphere and high radiation, the Atacama volcanoes are some of the most similar places on Earth to the Red Planet.
“If we know, on Earth, what the outer limits for life were, and they know what the paleoclimates on Mars were like, we may have a better idea of what could have lived there,” he said.
Other paper authors included Andrew King of Ecosystem Sciences, CSIRO Black Mountain in Acton, Australia; Mariá Farías of Laboratorio de Investigaciones Microbiologicas de Lagunas Andinas, Planto Piloto de Procesos Industriales Microbiologicas, CCT, CONICET in Tucuman, Argentina; Preston Sowell of Geomega, an environmental consulting firm in Boulder; and Christian Vitry of Museo de Arqueologia de Alta Montana in Salta, Argentina.
