Posts tagged Boulder
Boulder Music – Best Coast – Crazy For You
Jan 19th
from I has cheeseburger, cheeseburger network
Best Coast’s full-length debut — Crazy For You — was released yesterday, July 27, on the Mexican Summer label. Living up to the buzz and hype surrounding the band’s singles, the Los Angeles-based trio have indelibly left a sunny-warm, sticky-sweet mark on today’s music scene.
Singer/songwriter Bethany Cosentino (formerly of Pocahaunted) spends every second of the quick-hitter album (run time is just over 33 minutes) painting a portrait of stoned romanticism. Whether or not the lyrics are a derivative of the romance between Cosentino and surf punk rocker Nathan Williams (Wavves), the pure-heartedness and passion of a summer fling are laden in each track.
The first track, Boyfriend, encapsulates all the best qualities of Best Coast’s fuzzy, hazy brand of beach pop music. The desperation and hopeless longing that compose this song’s lyrics (and most of the album’s) harken back to the time of J. Frank Wilson and The Cavaliers (Last Kiss) when less-than-happy subject matter could still be incorporated in upbeat music.
Cosentino wears you down with her lyrics about young love and unrequited adoration, but the music remains poppy, optimistic and mostly enjoyable. It’s like one’s love for the beach and the ocean combining to overcome a hatred for sand. Realistically, the album’s short run time doesn’t afford the opportunity to tire of the straightforward and sappy lyrics.
If the duration of the album is a flaw, it’s also a strong suit. The repetitive lyrics and treble-heavy guitar can begin to blur and make songs indistinct from one another. Building upon the summer imagery, the album’s brevity is akin to getting out of the sun just in time to develop a tan and not a sunburn.
Nonetheless, Crazy For You is more than a seasonal novelty and will outlive the summer months. Best Coast are advancing a genre that’s attracting attention from the mainstreamers. With that said, this reviewer finds Boyfriend and the album’s bonus track, When I’m With You, to be the strongest and most likely candidates for repeated listening.
Alert! Crocus sticks head out of ground in North Boulder Home Spring has sprung
Jan 18th
Boulder Colorado In the sunshine front yard of a north Boulder home a single crocus stuck it’s head above the soil signaling the beginning of spring in this idyllic hamlet beneath the flat irons. ” I was taking out the garbage this moring about 10:30…….you know those plastic containers on wheels. It’s Tuesday and the garbageman always comes on Tuesday said the resident who asked to remain anonymous. ( Boulder Channel one does not release name of gardeners or birders so they do not become the victims of ridicule) “
I looked down at one of my planting areas and there was a very faint touch of green. I knelt and looked closer, getting ready to pull a weed……….and wait….Oh My God ! it was a Crocus!! Imagine my surprise and it’s only January 18″, the home guardian said.
I looked down at one of my planting areas and there was a very faint touch of green. I knelt and looked closer, getting ready to pull a weed……….and wait….Oh My God ! it was a Crocus!! Imagine my surprise and it’s only January 18″, the home guardian said.
Though mid January does seem a bit early for Boulder, it is more typical than not. Crocus will continue to pop up and will be full bloom in March.
Scientists Boulder IMPROVED MEASUREMENTS OF SUN TO ADVANCE UNDERSTANDING OF CLIMATE CHANGE
Jan 15th
WASHINGTON—Scientists have taken a major step toward accurately determining the amount of energy that the sun provides to Earth, and how variations in that energy may contribute to climate change.
In a new study of laboratory and satellite data, researchers report a lower value of that energy, known as total solar irradiance, than previously measured and demonstrate that the satellite instrument that made the measurement—which has a new optical design and was calibrated in a new way—has significantly improved the accuracy and consistency of such measurements.
The new findings give confidence, the researchers say, that other, newer satellites expected to launch starting early this year will measure total solar irradiance with adequate repeatability – and with little enough uncertainty – to help resolve the long-standing question of how significant a contributor solar fluctuations are to the rising average global temperature of the planet.
“Improved accuracies and stabilities in the long-term total solar irradiance record mean improved estimates of the sun’s influence on Earth’s climate,” said Greg Kopp
of the Laboratory for Atmospheric and Space Physics (LASP) of the University of Colorado Boulder.
Kopp, who led the study, and Judith Lean of the Naval Research Laboratory, in Washington, D.C., published their findings today in Geophysical Research Letters, a journal of the American Geophysical Union.
The new work will help advance scientists’ ability to understand the contribution of natural versus anthropogenic causes of climate change, the scientists said. That’s because the research improves the accuracy of the continuous, 32-year record of total solar irradiance, or TSI. Energy from the sun is the primary energy input driving Earth’s climate, which scientific consensus indicates has been warming since the Industrial Revolution.
Lean specializes in the effects of the sun on climate and space weather. She said, “Scientists estimating Earth’s climate sensitivities need accurate and stable solar irradiance records to know exactly how much warming to attribute to changes in the sun’s output, versus anthropogenic or other natural forcings.”
The new, lower TSI value was measured by the LASP-built Total Irradiance Monitor (TIM) instrument on the NASA Solar Radiation and Climate Experiment (SORCE) spacecraft. Tests at a new calibration facility at LASP verify the lower TSI value. The ground-based calibration facility enables scientists to validate their instruments under on-orbit conditions against a reference standard calibrated by the National Institute of Standards and Technology (NIST). Before the development of the calibration facility, solar irradiance instruments would frequently return different measurements from each other, depending on their calibration. To maintain a long-term record of the sun’s output through time, scientists had to rely on overlapping measurements that allowed them to intercalibrate among instruments.
Kopp said, “The calibration facility indicates that the TIM is producing the most accurate total solar irradiance results to date, providing a baseline value that allows us to make the entire 32-year record more accurate. This baseline value will also help ensure that we can maintain this important climate data record for years into the future, reducing the risks from a potential gap in spacecraft measurements.”
Lean said, “We are eager to see how this lower irradiance value affects global climate models, which use various parameters to reproduce current climate: incoming solar radiation is a decisive factor. An improved and extended solar data record will make it easier for us to understand how fluctuations in the sun’s energy output over time affect temperatures, and how Earth’s climate responds to radiative forcing.”
Lean’s model, which is now adjusted to the new lower absolute TSI values, reproduces with high fidelity the TSI variations that TIM observes and indicates that solar irradiance levels during the recent prolonged solar minimum period were likely comparable to levels in past solar minima. Using this model, Lean estimates that solar variability produces about 0.1o Celsius (0.18o Fahrenheit) global warming during the 11-year solar cycle, but is likely not the main cause of global warming in the past three decades.
*****
Notes for Journalists
Journalists and public information officers (PIOs) of educational and scientific institutions who have registered with AGU can download a PDF copy of this paper in press by clicking on this link:
http://onlinelibrary.wiley.com/doi/10.1029/2010GL045777/abstract;jsessionid=7AE633544C9A94E3832D9F67B4F39D70.d02t02
Or, you may order a copy of the final paper by emailing your request to Peter Weiss at pweiss@agu.org. Please provide your name, the name of your publication, and your phone number.
Neither the paper nor this press release are under embargo.
Title:
“A new, lower value of total solar irradiance: Evidence and climate significance”
Authors:
Greg Kopp: Laboratory for Atmospheric and Space Physics, Boulder,
Colorado, USA;
Judith L. Lean: Space Science Division, Naval Research Laboratory, Washington, D. C., USA.
