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Fri, 15 Oct 2021
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Fish

Fisherman designs prize-winning solution for sustainable ocean farming

Nancy Owano
Tech Xplore
Tue, 27 Oct 2015 00:00 UTC
ocean farming, greenwave
A fisherman working in industrialized fishing environments realized something that affected his fundamental outlook on what he was doing: he was witnessing very efficient fishing technologies and boats ripping up entire ecosystems with trawls; he was seeing efficient technologies being applied in ways that were chasing fish farther and farther out to sea.

Bren Smith eventually went on to develop a model for ocean farming. He is executive director of GreenWave, and he is on a mission to help support ocean life and human life. His farm design has won a prize in the 2015 Buckminster Fuller Challenge given by the Buckminster Fuller Institute.

He is recognized for coming up with an innovative solution in sustainable ocean farming, a model for development of multi-species ocean farms.

Biofuels Digest talked about what is special about Smith's concept—a shift away from growing vulnerable monocultures to vibrant ecosystems, which can result in higher yields.

The push is for sustainable aquaculture that produces high yields while restoring and improving the ocean's ecosystems.
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Footprints

Down in the dumps: Study shows loss of big animals and their poop damages Earth


RT
Tue, 27 Oct 2015 03:29 UTC
Image
© NOAA/Reuters
A new study shows that whales and outsized land mammals, as well as seabirds and migrating fish, play a vital role in keeping the planet fertile by transporting nutrients from ocean depths to mountaintops - but their populations are plummeting.

Before the rise of modern humans, there were "deer with twelve-foot antlers, and bison herds to the horizon" that ate huge amounts of plant matter, moving these nutrients to higher ground "through their deposit of feces, urine and, upon death, decomposing bodies. I wanted to know whether the world of the past with all the endemic animals was more fertile than our current world," lead study author Chris Doughty of Oxford University told The Washington Post.

Doughty's team applied a set of mathematical models to estimate the movement of nutrients vertically in the oceans and across the land, and how this movement changed with extinctions and declining animal populations. What researchers found was that these megafauna, or large animals, played a greater role in the spread of nutrients across the planet than scientists realized. Equally, whales and other marine mammals moved phosphorous from deep ocean water to the surface, which was then spread by seabirds and migrating fish across seas, up rivers, and deep inland to the mountaintops.

Previously, scientists studied nutrient cycling related to the weathering of rocks, which broke down and left nutrients in the soil. They also found that microbes and bacteria contributed to nutrient cycling. The team's new finding adds another dimension to the science, finding that fertilized ecosystems maintain natural functions vital to people. "Previously, animals were not thought to play an important role in nutrient movement," said Doughty in a statement.

Comment: For more on how the loss of the flora and fauna effect our terrestrial life, listen to the SOTT editor's interview with Lierre Keith, author of The Vegetarian Myth.

SOTT Talk Radio: Dissecting the Vegetarian Myth - Interview with Lierre Keith

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Jupiter

Venus, Mars and Jupiter align in rare event

Alex Therrien
BBC
Tue, 27 Oct 2015 13:06 UTC
Image
© BBC
Venus, Jupiter and Mars can all be seen together in the sky this week, in a rare grouping of the three planets.

The planetary conjunction - in which planets "line up" due to the timing of their orbits around the Sun - has been visible for days and will continue until at least the end of the week. The planets are best seen before sunrise and will form a particularly neat triangle on Thursday. The next time the planets cluster this close together will be in January 2021.

But how do would-be astronomers see the spectacle before it is gone?

How do I see it?

The planets can be seen without equipment, towards the east. The best time to see them is just before sunrise because at this time they are high in the sky but it is dark enough to see them. Binoculars and telescopes can be used to see the planets in more detail
Image
© BBC
Which planet is which?

The easiest planet to see is Venus, which is about 12 times brighter than Jupiter. Jupiter appears second brightest. Mars is about 250 times less bright than Venus. To see Mars it may be necessary to get up an hour before sunrise.

Comment: Spectacular Orionid meteor shower 2015 - photos

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Info

Tractor beam levitates object using sound waves

Tia Ghose
Live Science
Tue, 27 Oct 2015 12:00 UTC
Levitation
© Image courtesy of Asier Marzo, Bruce Drinkwater and Sriram Subramanian
Researchers recently created an acoustic hologram, or a 3D sound field projected onto a 2D space, which can be used as acoustic tweezers, cages and twisters that manipulate objects as they levitate in air.
It may seem straight out of Star Trek, but it's real: Scientists have created a sonic "tractor beam" that can pull, push and pirouette objects that levitate in thin air.

The sonic tractor beam relies on a precisely timed sequence of sound waves that create a region of low pressure that traps tiny objects that can then be manipulated solely by sound waves, the scientists said in a new study.

Though the new demonstration was just a proof of concept, the same technique could be adapted to remotely manipulate cells inside the human body or target the release of medicine locked in acoustically activated drug capsules, said study co-author Bruce Drinkwater, a mechanical engineer at the University of Bristol in the United Kingdom.
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Info

NASA develops 'blackest' man-made material ever produced


NASA
Tue, 27 Oct 2015 17:09 UTC
carbon-nanotube coating absorbs 99 percent light
© Stephanie Getty, NASA Goddard
This close-up view (only about 0.03 inches wide) shows the internal structure of a carbon-nanotube coating that absorbs about 99 percent of the ultraviolet, visible, infrared, and far-infrared light that strikes it. A section of the coating, which was grown on smooth silicon, was purposely removed to show the tubes' vertical alignment.
NASA engineers have produced a material that absorbs on average more than 99 percent of the ultraviolet, visible, infrared, and far-infrared light that hits it -- a development that promises to open new frontiers in space technology.

The team of engineers at NASA's Goddard Space Flight Center in Greenbelt, Md., reported their findings recently at the SPIE Optics and Photonics conference, the largest interdisciplinary technical meeting in this discipline. The team has since reconfirmed the material's absorption capabilities in additional testing, said John Hagopian, who is leading the effort involving 10 Goddard technologists.

"The reflectance tests showed that our team had extended by 50 times the range of the material's absorption capabilities. Though other researchers are reporting near-perfect absorption levels mainly in the ultraviolet and visible, our material is darn near perfect across multiple wavelength bands, from the ultraviolet to the far infrared," Hagopian said. "No one else has achieved this milestone yet."
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Question

Are bilingual's brains wired differently?

Agata Blaszczak Boxe
Brain Decoder
Mon, 26 Oct 2015 16:51 UTC
brain work
© shutterstock
The frequent switching between languages in bilinguals' brains has led many to ask whether this lifelong exercise also makes bilinguals better at controlling other mental processes, giving them a cognitive edge. That remains to be determined. But in a new study, researchers took a more nuanced look at cognition in bilinguals, and rather than focusing on the question of the so-called bilingual advantage, examined how bilinguals used their brains while performing a simple cognitive task. And, as it turns out, they used them differently than monolinguals.

The idea of the bilingual advantage is supported by a number of studies that have shown that bilinguals may have enhanced executive control — a set of mental skills that help us manage our cognitive processes, from working memory, to multitasking and problem-solving. But some scientists have expressed skepticism about the strength of evidence that suggests bilinguals have a cognitive advantage over monolinguals. In a 2014 study, researchers examined conference abstracts outlining ongoing studies on bilingualism and executive control. They then followed up to see which of those studies eventually got accepted for publication in scientific journals and found that the studies whose results failed to support the idea of the bilingual advantage were less likely to get published than those that supported it. This led them to think that there might be a publication bias that skews the literature on bilingualism's cognitive boost.

Comment: See also:

Bilingualism 'can increase mental agility'
Bilingual brains process information more efficiently

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Info

Study suggests Alzheimer's is associated with brain fungus


The Economist
Sat, 24 Oct 2015 01:04 UTC
Fungi in the Brain
© The Economist
Scarred by fungi?
Like cancers and heart disease, Alzheimer's is a sickness of the wealthy. That is because it is a sickness of the old. A study carried out in Spain in 2008 suggested that the risk of developing it doubles for every five years you live beyond 65. A richer world means a longer-lived world—and that, in turn, means a world which will suffer more and more from dementia. At least 40m people are thought to be affected by it already. The true number is likely to be higher, as many sufferers, particularly in the early stages of the disease, have yet to be diagnosed.

What actually causes Alzheimer's disease, though, is obscure. Workers in the field know that tangles and plaques of misshapen proteins play a big role. These accumulate in and between nerve cells, eventually killing them to create voids in the brain (see picture). It may be that the accumulation of these proteins is merely a biochemical ill to which human flesh is unfortunately heir, and which is a normal (if unwelcome) consequence of ageing. But some researchers doubt that, and are searching for external causes.

There is evidence, in varying degrees, for everything from bacterial or viral infections, via head injuries to smoking. But a paper just published in Scientific Reports adds another possibility to the pot. A group of researchers led by Luis Carrasco of the Autonomous University of Madrid, in Spain, have raised the idea that the ultimate cause of Alzheimer's is fungal.

Dr Carrasco and his team examined brain tissue from 25 cadavers, 14 of which belonged to people who had had Alzheimer's disease when alive. The other 11 (who had an average age of 61, versus 82 for the Alzheimer's sufferers) had been Alzheimer's-free. That may sound like a small sample from which to draw conclusions, but the signal the researchers found was overwhelming. Every single one of the Alzheimer's patients had signs of fungal cells of various sorts growing in his or her neurons. None of the Alzheimer's-free brains was infected.

Comment: See also:

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Telescope

Probing the mysteries of Europa, Jupiter's cracked and crinkled moon


ScienceDaily
Tue, 27 Oct 2015 00:00 UTC
Image
© NASA/JPL-Caltech/SETI Institute
The puzzling, fascinating surface of Jupiter's icy moon Europa looms large in images taken by NASA's Galileo spacecraft.
New research, using spectrographic data, shows what are likely deposits from Europa's sub-surface ocean on it's so-called "chaos terrain."

Jupiter's moon Europa is believed to possess a large salty ocean beneath its icy exterior, and that ocean, scientists say, has the potential to harbor life. Indeed, a mission recently suggested by NASA would visit the icy moon's surface to search for compounds that might be indicative of life. But where is the best place to look?

New research by Caltech graduate student Patrick Fischer; Mike Brown, the Richard and Barbara Rosenberg Professor and Professor of Planetary Astronomy; and Kevin Hand, an astrobiologist and planetary scientist at JPL, suggests that it might be within the scarred, jumbled areas that make up Europa's so-called "chaos terrain."

"We have known for a long time that Europa's fresh icy surface, which is covered with cracks and ridges and transform faults, is the external signature of a vast internal salty ocean," Brown says. The areas of chaos terrain show signatures of vast ice plates that have broken apart, shifted position, and been refrozen. These regions are of particular interest, because water from the oceans below may have risen to the surface through the cracks and left deposits there.
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Beaker

Invisible stripes on our skin mark fetal development patterns

Kate Horowitz
Mental Floss
Mon, 26 Oct 2015 18:31 UTC
human stripes
© Anatomic Dead Space
Lined and whorled nevoid hypermelanosis can create beautiful patterns.
Envy the tiger and the zebra no longer. You have stripes of your own.

Human skin is overlaid with what dermatologists call Blaschko's Lines, a pattern of stripes covering the body from head to toe. The stripes run up and down your arms and legs and hug your torso. They wrap around the back of your head like a speed skater's aerodynamic hood and across your face. Or they would, if you could see them.

In the early 1900s, German dermatologist Alfred Blaschko reported that many of his patients' rashes and moles seemed to follow similar formations, almost as though they were tracing invisible lines. But those lines didn't follow nerves or blood vessels. They didn't represent any known body system.
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Satellite

Incoming: Probable asteroid predicted to impact Earth on November 13th!

Traci Watson
Nature
Mon, 26 Oct 2015 16:50 UTC
Image
© B. Bolin, R. Jedicke, M. Micheli
A piece of space junk on a collision course with Earth appears as a blurry speck in an image taken by the University of Hawaii 2.2-metre telescope.
Researchers call it sheer coincidence that a newly discovered piece of space junk is officially designated WT1190F. But the letters in the name, which form the acronym for an unprintable expression of bafflement, are an appropriate fit for an object that is as mysterious as it is unprecedented.

Scientists have worked out that WT1190F will plunge to Earth from above the Indian Ocean on 13 November, making it one of the very few space objects whose impact can be accurately predicted. More unusual still, WT1190F was a 'lost' piece of space debris orbiting far beyond the Moon, ignored and unidentified, before being glimpsed by a telescope in early October.

An observing campaign is now taking shape to follow the object as it dives through Earth's atmosphere, says Gerhard Drolshagen, co-manager in Noordwijk, the Netherlands, of the European Space Agency's near-Earth objects office. The event not only offers a scientific opportunity to watch something plunge through the atmosphere, but also tests the plans that astronomers have put in place to coordinate their efforts when a potentially dangerous space object shows up. "What we planned to do seems to work," Drolshagen says. "But it's still three weeks to go."

Comment: See also: Surprise asteroid to give Earth a Halloween flyby

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