Thousands of Spiders Build Huge Web

Thousands of spiders worked together to build huge web (site broke link so I removed it) by Anna Tinsley:

But Tuesday afternoon, thousands of Texas spiders were back at it, working to rebuild an immense spider web at Lake Tawakoni State Park that at one time stretched about 200 yards, covering bushes and trees to create a creepy canopy.

Researchers say they now believe thousands of spiders from different species worked together to make one huge web — much different from the traditional individual webs that would normally be woven. Together, they’ve built and rebuilt a web that has caught countless bugs and the attention of people nationwide. “These spiders seem to be working together to build it back,” said Zach Lewis, an office clerk at the park. “It’s really something to see.

“It looked just like a spider would have jumped from tree to tree with a can of silly string.” Researchers say it likely took 1 1/2 to two months to weave such a large web.

He found spiders from 12 families, with the most prevalent being from the Tetragnathidae family. Identified spiders were funnel web weavers, sac spiders, orb weavers, mesh web weavers, wolf spiders, pirate spiders, jumping spiders and long-jawed orb weavers, according to the researchers’ report.

“With the amount of rain that has occurred this year and the huge food supply available, it just created the right condition for all of this,” he said. “It’s possible we’ll see it again. But this happened to be a year where the conditions were right.”

Related: 60 Acre (24 hectare) Spider WebSpider ThreadGiant Wasp Nests

Herr wins $250,000 Heinz Award

Herr wins $250,000 Heinz Award

Professor Hugh Herr, a double amputee whose work has led to the development of new prosthetic innovations that merge body and machine, has won the 13th annual Heinz Award for Technology, the Economy and Employment. The award is among the largest individual achievement prizes in the world. Herr, of the Media Lab, was recognized for “breakthrough innovations in prosthetics and orthotics.” He is among six distinguished Americans to receive one of the $250,000 awards presented in five categories by the Heinz Family Foundation.

At age 17, Herr lost both legs below the knee in a mountain climbing accident, but returned to the classroom after a few years to earn an undergraduate degree in physics, a master’s degree in mechanical engineering from MIT and a Ph.D. in biophysics from Harvard. Today, his work at the Media Lab focuses on human amplification and rehabilitation systems – technologies that interact with human limbs, mimicking biological performance and amplifying function. Herr predicts that in 5 to 10 years, leg amputees will be able to run faster and move with a lower metabolic rate than people with biological limbs.

Related: The Heinz Award for Technology, Economy and Employment2007 Draper Prize to Berners-LeeMillennium Technology Prize to Dr. Shuji Nakamura

Google 3D Campus Competition

The seven winning teams
Purdue University – Depts of Computer Graphics Technology and Education, Concordia University
Loyola Campus – Dept of Civil Engineering
Stanford University – Dept of Architectural Design
Indiana University Purdue University Fort Wayne – Depts of Engineering and Computer Science
Franklin W. Olin College of Engineering – Dept of Engineering
Dartmouth College – Depts of Computer Science and Digital Art
University of Minnesota – Dept of Architecture
of Google’s Build Your Campus in 3D Competition will get to visit Google’s Mountain View Headquarters. It is nice to see Google continue to provide opportunities for students.

Stanford team puts campus on map; wins Google Earth 3-D modeling contest – view the Standford buildings:

In addition to having their entries displayed on Google Earth, the winners were invited to the Google headquarters for four days, Aug. 6-9. They attended workshops, met with professional 3-D modelers, got a grand tour of the compound and enjoyed the famous free lunch.

We’d initially planned to do nearly all the buildings on campus,” Lehrburger said. “But we underestimated the time it was going to take. I think we thought the learning curve was going to be a little bit better than it actually was, so we had to readjust our plans.”

Though they were proud of their final outcome and hard work—Lehrburger and Bergen worked late into the night as they got closer to deadline—neither of the team leaders was overly optimistic. They had modeled 94 out of the 300 or so buildings on campus and worried their model of Stanford would be considered incomplete.

Google contest motivates students to ‘rebuild’ WMU (Western Michigan University designs):

A group of seven WMU students answered an invitation by the Internet giant Google to participate in its Build Your Campus in 3-D Competition. The teams’ submission placed among the top 30 out of some 350 entries from across the United States and Canada and will be incorporated on Google Earth, the company’s popular geographic information feature.

Related: posts on Google management practicesOlin Engineering Education ExperimentGoogle Summer of Code 2007Page: Marketing ScienceGoogle Technology Talks

Programming Grads Meet a Skills Gap in the Real World

Programming Grads Meet a Skills Gap in the Real World

Ari Zilka, chief technology officer at Terracotta, in San Francisco, said he knows very well about the skills gap, as he worked his way through college in the high-tech business while attending the University of California, Berkeley. “I found that UC Berkeley had an excellent curriculum but not only was my schooling lagging behind work, it became very hard to even go to school because work had me learning the concepts and their applicability and nuances that teachers didn’t even seem to know.”

Zilka noted that many of the new hires he’s seen during his career continue to echo the same sentiments as he did. Some of the things the school didn’t teach Zilka and many who are now entering the work force include issues around communication, development skills, and business and product design. On the communication front, Zilka said, “Presentation skills are critical, and selling and influencing peers is critical.”

“When graduates join organizations [after college] they are often shocked to realize they are dealing with limited resources, deadlines, fuzz requirements, requirements that change weekly, applications that scale, the use of frameworks and libraries, existing code—that may be bad code with bad design decisions, issues of interaction within and among teams, and having to develop code that is secure,” Scherlis said.

via: Sean Stickle. Related: High School Students Interest in Computer ProgramingA Career in Computer ProgrammingHiring Software Developerssoftware programming posts on our management blog

Scientists Discover How Our Eyes Focus When We Read

Images of how eyes focus when reading

Hidden method of reading revealed

Previously, researchers thought that, when reading, both eyes focused on the same letter of a word. But a UK team has found this is not always the case. In fact, almost 50% of the time, each of our eyes locks on to different letters simultaneously.

At the BA Festival of Science in York, the researchers also revealed that our brain can fuse two separate images to obtain a clear view of a page. Sophisticated eye-tracking equipment allowed the team to pinpoint which letter a volunteer’s eyes focused on, when reading 14-point font from one metre away.

The team’s results demonstrated that both eyes lock on to the same letter 53% of the time; for 39% of the time they see different letters with uncrossed eyes; and for 8% of the time the eyes are crossing to focus on different letters. A follow-up experiment with the eye-tracking equipment showed that we only see one clear image when reading because our brain fuses the different images from our eyes together.

Pretty cool. Related: Professor Simon P. Liversedge3-D Images of EyesHow the Brain Resolves Sight

Virus Found to be One Likely Factor in Bee Colony Collapse Disorder

Photo of a bee bu Justin Hunter

Scientists say a virus appears to be a factor in honeybee colony collapse by Andrew C. Revkin:

Scientists sifting genetic material from thriving and ailing bee colonies say a virus appears to be a prime suspect – but is unlikely to be the only culprit – in the mass die-offs of honeybees reported last autumn and winter.

Very well stated. The virus while seeming to be a factor in the deaths appears to cause death in colonies that are stressed which seem to be highly correlated with colonies that are moved from place to place by commercial beekeepers to pollinate various crops. Bees that are kept by hobbiest, wild bees… don’t seem to be dying off. The impact of CCD is growing economically as prices for renting bees to pollinate crops increases and in some cases there are not enough bees available. Honey prices are increasing and prices for food pollinated by bees are too.

The Department of Agriculture states: The only pathogen found in almost all samples from honey bee colonies with CCD, but not in non-CCD colonies, was the Israeli acute paralysis virus (IAPV), a dicistrovirus that can be transmitted by the varroa mite. It was found in 96.1 percent of the CCD-bee samples. This does not identify IAPV as the cause of CCD,” said Pettis. “What we have found is strictly a strong correlation of the appearance of IAPV and CCD together. We have not proven a cause-and-effect connection.”

Related: Bee researchers close in on Colony Collapse Disorder, Penn State (Penn State broke the link so it was removed) – Bye Bye BeesBee Colony Collapse Disorder CCDMore on Disappearing HoneybeesColony Collapse Disorder and Pollinator Decline

Science Blogging Conference

The second annual Science Blogging Conference will be held Saturday, January 19, 2008 at the Sigma Xi Center in Research Triangle Park, North Carolina.

Earlier this year—almost in time for the inaugural conference—we edited and published the first-ever science blogging anthology, The Open Laboratory: The Best Writing on Science Blogs 2006, which was an instant hit. We’re already collecting nominations for the next edition of the anthology. Send your best posts of the year (or nominate posts written by others) by using this submission form

Related: The Science Blogging Anthology – the Great Unveiling!Science Blogging Conference in NC 2007

Mission to Mars

This post was submitted by Richard Lachman, via our post suggestion form.

Race to Mars is a huge Discovery Channel Canada project that tries to present the most scientifically accurate vision of a human mission to Mars possible. With input from over 175 Scientists, the 4-hour mini-series uses Hollywood effects to illustrate a scientifically grounded mission-plan. There’s also a 6-hour documentary series on the science, and a major education/outreach project online. The website includes free downloadable 3D games and web-games that blend riveting game play with science-inspired subject material. We’re using Serious Games to educate without being completely didactic, and we include curriculum-based science material to back up our content.

It is indeed a resource worth checking out. Related: Mars RoverNASA Engineering ChallengesImmense Amount of Ice Found on Mars

Clues to Prion Infectivity

Structural Studies Reveal New Clues to Prion Infectivity

One of the unexplained questions facing prion researchers is how a single prion can apparently assume different conformations — with each conformation having different disease or phenotypic properties. Previous structural studies of prions had not yielded a clear understanding of the basis of strains because the prion protein is large and complex. Due to the size and complexity of prions, studies utilizing x-ray crystallography, a technique commonly used to determine the structure of proteins and other molecules, have been limited to short peptide fragments of the prion protein.

“There have been a number of fairly low-resolution pictures of prions that more or less proved that these different strains were in different conformations; but they really hadn’t established the nature of the different conformations,” Weissman said. “It was really a big black box. We basically didn’t have the conformation of any single prion, let alone the two prion protein strains in two different conformations.”

““In our minds, our findings brought to a certain level of closure the understanding of the structural differences underlying strains,” said Weissman. “Now we understand the structural differences. We also have an idea how those differences lead to the differences in physical properties, and, in turn, how these differences in the physical properties lead to the phenotypic differences. We are starting to go all the way from the structural understanding of the different strains up to in vivo understanding of why they cause different behaviors inside the cell.”

Weissman noted that the findings offer a broader lesson to researchers studying prions and other proteins whose misfolding can cause disease. “Certainly, a bottom line from this study is that the rules of protein folding and the rules of protein misfolding are fundamentally different,” he said. “In many ways, we have to relearn basic principles of how proteins misfold. We have to forget many of the rules we learned from textbooks about protein folding because they are not necessarily applicable.”

Prions are very interesting. Related posts: Scientists Knock-out Prion Gene in CowsGene Study Finds Cannibal PatternOpen Access Education Materials on Protein Folding