Author Archives: curiouscat

Researchers Learn What Sparks Plant Growth

Researchers Learn What Sparks Plant Growth:

“How do organisms decide when to grow and when to stop growing? These questions are especially important in plants because they are rooted in the ground and must alter their shape and size in response to their local environment. Thus, it’s a question of survival,” added Chory. “It took us 10 years to develop the tools to ask the question. It is very satisfying for me to see the results.”

“It’s been a matter of some debate for a very long time if one of these tissue layers controls plant growth or if all three layers have to work together,” Chory said. “Our paper shows very clearly that the epidermis is in control—in both driving and restricting growth. In addition, our studies show that the cells in the epidermis “talk” to the cells in the inner layers, communicating that they too should expand.”
March Flowers

In January we had a long stretch of warm weather. Shoots for early blooming flowers sprouted in my front yard. Then we had about 6 weeks of winter weather. I was wondering how the flowers would do (they do fine with a few days of freezing weather after sprouting – since they have evolved to bloom early). They did fine, photo above (by John Hunter, March 11th).

Related: More Nutritious WheatWhat Are Flowers For?

£25 Gadget Saves Energy

£25 fridge gadget that could slash greenhouse emissions by David Adam:

Invented by British engineers, the £25 gadget significantly reduces the amount of energy used by fridges and freezers, which are estimated to consume about a fifth of all domestic electricity in the UK. If one was fitted to each of the 87 million refrigeration units in Britain, carbon dioxide emissions would fall by more than 2 million tonnes a year.

Because air heats up much more quickly than yoghurt, milk or whatever else is stored inside, this makes the fridge work harder than necessary. With the cube fitted, the fridge responds only to the temperature of the food, which means it clicks on and off less often as the door is open and closed. Trials are under way with supermarkets, breweries and hotels. One of the largest, the Riverbank Park Plaza hotel in London, fitted the device to each of the hotel’s 140 major fridges and freezers. David Bell, chief engineer, says energy use decreased by about 30% on average – enough to slash the hotel’s annual electricity bill by £17,000. The Park Plaza group plans to fit them throughout its UK hotels, and to recommend them overseas.

Mr Freedman said the devices would have the biggest impact in the large freezers and open chill cabinets used in the catering and supermarket industries. They do reduce the energy consumption of domestic fridges, but the saving is not so great because the door is not opened very often.

Related: The Magnetic FridgeElectricity SavingsEngineers Save EnergyMIT’s Energy ‘Manhattan Project’Personal Water Wheel Power

Magnetic Switching Data Storage

New Magnetic Switching Method Could Dramatically Speed Up Data Storage

Scientists of the Research Centre Jülich, Germany, have found a fundamentally new magnetic switching method which achieves the fastest speed ever reported by applying an external magnetic field. The results that are presented in a current article in the scientific journal Physical Review Letters could introduce new possibilities for future data storage applications with ultimate speeds.

Besides its extremely high speed, a remarkable aspect of this finding is that it unfolds automatically: The applied field only perturbs the magnetization, which then under-goes these complicated changes as it recovers equilibrium. “These findings represent a promising leap towards smaller length scales and shorter time scales in magnetic data storage applications”, affirms Prof. Claus M. Schneider, director at the IFF

Immense Amount of Ice Found on Mars

Dense Ice Revealed at Mars’ South Pole

Radar scans of Mars have unveiled a vast reservoir of nearly pure frozen water around the planet’s south pole, a deposit so rich that if it were spread evenly on the surface it would be 36 feet deep.

For now, it’s one of the many question marks that dot Mars research initiatives. Scientists still can’t explain what happened to all the water that must have been needed to carve Mars’ surface features.

Bornean Clouded Leopard

photo of Bornean Clouded Leopard

Borneo’s clouded leopard identified as new cat species:

Scientists have discovered that the clouded leopard found on the islands of Borneo and Sumatra is an entirely new species of cat. The secretive rainforest animal was originally thought to be the same species as the one found in mainland South-east Asia. The news comes just a few weeks after a WWF report showed that scientists had identified at least 52 new species of animals and plants over the past year on Borneo.

Photo: WWF-Canon / Alain Compost

Related: Far Eastern Leopard, the Rarest Big CatIsland leopard deemed new speciesCat Family Tree
new

Magnificent Flying Machine

A magnificent flying machine

The next time you attempt to swat a fly, remember that you are trying to destroy a flying machine that engenders awe and bafflement in scientists, engineers and professors of aerodynamics. Thanks to remarkable flying skills that make the housefly the Ferrari of the insect world, it is unlikely you will achieve a direct hit. While fleeing a rolled-up newspaper, the insect can change course in as little as 30 thousandths of a second.

This and other flying insects have plagued the worlds of science and engineering ever since the first calculation of bumble-bee flight was attempted at Göttingen University in the 1930s. Conventional aerodynamics suggested the insect should not generate enough lift to fly. The sums caused consternation.

In the past few years, however, remarkable advances have been made. The so-called “bumble-bee paradox” was solved by Dr Charles Ellington and colleagues from Cambridge University when, with the help of a robot insect, they highlighted the bee’s secret: extra lift is generated during a downstroke by a spiral vortex that travels along the leading edge of each wing, from base to tip.

Related: Incredible InsectsWorld’s Lightest Flying RobotAutonomous Flying Vehicles

Open Access Journal Wars

Open Access Launches Journal Wars

The $10 billion science publishing industry hasn’t heard the last of a bill that would make publicly funded studies available for free. Sen. John Cornyn (R-Texas) has pledged this year to resurrect the Federal Research Public Access Act (S.2695), which would require federally funded research to become publicly available online within six months of being published.

“When it’s the taxpayers that are underwriting projects in the federal government, they deserve to access the very things they’re paying for,” said Cornyn spokesman Brian Walsh. “This research is funded by American taxpayers and conducted by researchers funded by public institutions. But it’s not widely available.”

Great. The idea that people will actually buy some crazy excuse like: “It’s inappropriate for the government (to interfere).” as a reason that publicly funded research should be kept from the public is frustrating. And even more so because some people actually might buy it. But for those that can think, I believe it confirms that they have no good arguments against proposal. If the best argument for opposition to open access requirements is trying to confuse people into thinking something that makes no logical sense they must not have any good reasons.

Is there any part of “you must make the research openly available” that is interfering with the science involved? Interfering with an outdated business model maybe, but that is all. And really not even that because you can retain that business model if you want. I can’t see how anyone can sensibly argue that it is in the interest of science to keep information inaccessible.

Related: The Future of Scholarly PublicationOpen Access LegislationAnger at Anti-Open Access PRPublicly Funded Research Open Expectations

Open Source 3-D Printing

Fab@home 3d printer

3-D Fabrication Goes Open Source

Hod Lipson and Evan Malone of Cornell University have cooked-up a cheap DIY 3-D printer – the Fab@Home – that they believe could lead to the widespread use of fabrication machines by hobbyists and experimenters. Fabrication machines, or fabbers, operate on the same principle as inkjet printers, but instead of squirting out ink onto paper, they squirt plastic or other materials into three-dimensional shapes. Commercial systems average around $100,000, but you can build Cornell’s Fab@Home for about US$2,300 worth of off-the-shelf parts.

Related: fab@homeCornell Computational Synthesis LabA Plane You Can Print

Attacking Bacterial Walls

Bacterial Walls Come Tumbling Down:

Penicillin and many newer antibiotics work by blocking a piece of the machinery bacteria use to construct their durable outer walls. Without these tough, protective coatings, bacteria die. The enzymatic machinery (known as PBP2) studied by Strynadka’s group has two main parts: One end assembles long sugar fibers; the other end stitches them together with bits of protein to form a sturdy interlocking mesh shell.

“This enzyme is an awesome target for antibiotics,” said Strynadka. “We have a totally new understanding of how the enzyme works and how a very good animal antibiotic inhibits the enzyme.” Although moenomycin is poorly absorbed by the human body, the new understanding of exactly how it interferes with bacterial enzyme function should help scientists design modified versions that are more suitable for use in people.

Understanding the structure of this enzyme should also speed up screening and design of new antibiotics, which are in constant demand as microbes continually evolve new ways to evade the drugs that researchers design to thwart them. The time it takes for bacteria to develop resistance to new antibiotics has been as short as one year for penicillin V and as long as 30 years for vancomycin.

Related: How do antibiotics kill bacteria?Structure-Based Antibiotic Discovery on the Bacterial Membrane by Natalie C.J. StrynadkaAnti-microbial ‘paint’Skin Bacteria

Invasive Plants: Tamarisk

To Save the West, Kill a Plant by Josh McDaniel:

The tamarisk, an invasive species introduced to the United States from Eurasia, is a deep-rooted plant that aggressively obtains water from the soil and groundwater. A single mature tree can produce up to 500,000 seeds per year, crowding out native plants along rivers and creeks and reducing wildlife habitat. The species now infests all the major rivers, springs, ditches, and wetlands in ten states—including Texas, Arizona, Utah, Colorado, New Mexico, Nevada, and California—and is rapidly expanding into others.

In the delicately dry ecosystems of the southwestern United States, that is a serious problem, adding up to over 800 billion gallons of lost water per year across the parched region. “That is equal to the water needs of 20 million people or one million acres of irrigated farmland,” said Tim Carlson, an environmental engineer and director of the Tamarisk Coalition, which aims to control the plant.

Living systems include risks for those that attempt to engineer improvement. The past is littered with examples of attempts to intervene that go wrong.

“One night, after I gave a presentation on tamarisk, an older gentleman came up to me and told me that he had earned his Eagle Scout rank by planting tamarisk to prevent soil erosion after the Dust Bowl era in the 1930s,” Carlson recalled. “He said he would gladly earn it again by helping me remove it.”

I don’t think there is a simple answer. We are going to have intentional and unintentional consequences results from our actions. To me the lesson is to learn from our past that we often have unintended consequences that are worse than we envisioned and we need to be careful. We can’t assume there are no risks that we don’t know about. There are risks we can’t predict.

Related: Invassive Plants articlesMore Nutritious Wheat