2013-05-10

TSMC's sales boom in April

TSMC's sales boom in April


LONDON – Leading foundry chip maker Taiwan Semiconductor Manufacturing Co. Ltd. has seen its sales in 2013 running at 25 percent higher than in 2012 with the prospect of strong second half to the year.

TSMC has reported net sales for April of NT$50.07 billion (about $1.69 billion), an increase of 13.5 percent from March 2013 and up 23.5 percent over April 2012.

The company's revenues for the first four months of the year were NT$182.83 billion (about $6.16 billion), an increase of 25.1 percent compared to the same period in 2012.

At the most recent analysts' conference call Morris Chang, chairman and CEO said that in 2013 TSMC would grow at much higher rate than the 10 percent he forecast for the foundry sector as a whole. Chang applies a top-down view and said that for 2013 TSMC's estimate of global GDP remains unchanged at about 2.6 percen growth. The semiconductor market he forecasts wlll grow at about 4 percent. The fabless industry is set to grow at 9 percent and the foundry sector at 10 percent.

Much of TSMC's current success is based on its commanding position in the supply of 28-nm CMOS and the demand for it for mobile applications. In the call Chang said that TSMC would triple production and revenue from 28-nm wafers in 2013 compared with 2012. The high-K metal gate variant will start shipping in higher volume than the oxynitride version of 28-nm in third quarter of 2013, Chang said.

April sales at rival foundry United Microelectronics Corp. were flat sequentially and its year-to-date sales of NT$10.28 billion (about $350 million) was up by 3.9 percent compared to the same period in 2012. Manufacturing capacity utilization at UMC was 78 percent in 1Q13, down from 80 percent in 4Q12.


Related links and articles:

TSMC races up MEMS foundry ranking

ARM continues to outperform market

TSMC posts strong outlook

TSMC starts FinFETs in 2013, tries EUV at 10 nm








TAG:Morris Chang TSMC foundry sales April semiconductor UMC

206克拉祖母绿宝石亮相巴塞尔

206克拉祖母绿宝石亮相巴塞尔

206克拉祖母绿亮相巴塞尔 206克拉祖母绿亮相巴塞尔

  当地时间4月25日,Bayco珠宝携“有史以来最珍贵的宝石之一”亮相第41届巴塞尔国际钟表珠宝展.

  这颗宝石是来自哥伦比亚的天然祖母绿,重达206克拉.Bayco公司的拥有者Hadjibay兄弟Moris和Giacomo给它取名叫“帝国翡翠”.Hadjibay兄弟说,它是从一位已经拥有了它40年的收藏家手里购得.但是他们拒绝透露这块宝石的价格,宝石的到底从何而来我们也无从得知.

  据悉,这块宝石的得来要归功于他们的父亲Amir.1957年Amir从伊朗移民到意大利,之后不久便成立了Bayco公司.Bayco公司最擅长猎取独特的宝石.在很久之前,Amir就知道这块宝石的拥有者将要卖掉它,Amir告诉他无论开价多少他都将买下.





来源:新浪收藏


TAG:206克拉祖母绿宝石亮相巴塞尔 翡翠 翡翠手镯 中国翡翠网 翡翠新闻

探秘宝石史上最浓墨重彩的奇迹

探秘宝石史上最浓墨重彩的奇迹

  早在古埃及文明的传说里,它便是从地心通往太阳的一道彩虹。当地中海轻盈剔透的浪花孕育着古希腊文明时,它又幻化作普罗米修斯留在人间的火种。它拥有白昼里的阳光,也有暗夜里的火花。你可以用最温柔美好的诗句形容它的柔美姿色,却无法用语言描述它灼人心灵的能量。它是考验人们智慧、勇气和信念的宝石,在那个与它同名的产地——帕拉伊巴,再次让世人对自然之美叹为观止。

  它的发现者深信在那个黑暗崎岖的矿脉里一定会有一抹无与伦比的美丽。8年艰辛开采路,在面市一周之内每克拉价格飞涨10倍的它,用最有力的事实成就了珠宝交易史上最浓墨重彩的奇迹。

ENZO 高级珠宝系列   帕拉伊巴碧玺项链、戒指ENZO 高级珠宝系列帕拉伊巴碧玺项链、戒指

  在宝石王国从事地质工作是种“痛并快乐着”的生活,虽不至于因一念之差而天堂地狱,但幸与不幸却也往往好比上帝的玩笑般寻常。更重要的是,信念的力量总在书写着奇迹。

  20世纪七十年代末,巴西帕拉伊巴联邦大学的地质学家——马库斯-阿马拉尔(Marcus Amaral)曾在这片区域发现过一些颜色诱人的碧玺,但在多彩碧玺的王国里,这样的偶然并没有引起他的注意。

  FancyCD 英国凡赛高级珠宝帕拉伊巴碧玺长款耳坠  FancyCD 英国凡赛高级珠宝帕拉伊巴碧玺长款耳坠

  1982年,当地的小矿主约瑟-佩雷拉(Jose Pereira)在一个“铌钽铁矿”中发现了一些特别的铁矿石,它们偶尔会包含彩色的、糖粒似的小颗粒。犹豫再三,他还是把这些标本拿给了一个叫海特· 迪马斯· 巴尔博萨的矿工看。巴尔博萨立刻被这些彩色“小糖粒”吸引住了,他认为这分明预示着附近可能有宝石矿藏。于是经佩雷拉指引,巴尔博萨在那些工业用伟晶岩矿的废石残渣中,一遍遍寻找着宝石的蛛丝马迹。几经周折,终于将未来重点勘探的区域定位在一处已经废弃的、很小的锰钽铁矿矿井。

  那是1983年,于是,一支十几人的勘探队开始日复一日在这片碎岩里开凿竖井和走廊。尽管巴尔博萨并不清楚自己要找的究竟是什么,但他坚信这里一定有着无与伦比的宝石,却从未想象这是一场漫漫无期的苦役。为了尽量减少错漏并避免伤害可能发现的宝石,勘探队的每个人都用最原始的小型手工工具,一锤一凿地艰难工作着。可就算每天工作十几个小时,挖掘进度也是异常缓慢。将近六年,仍旧没有什么实质性进展,支撑着所有人的巴尔博萨身心俱疲地病倒了。然而,他的信念从未动摇:“会的,一定会找到的!快了,就快了!”

 Van Cleef & Arpels 梵克雅宝   Grenouille 系列戒指 Van Cleef & Arpels 梵克雅宝Grenouille 系列戒指

  又一个不抱希望的日子。突然,一道从未见过的彩光如闪电般射来。那是一种无法用语言形容的颜色!是蓝,但不是单纯的蓝,而更像一汪闪着粼粼波光的深邃而沉静的蓝色湖水!更加令人惊叹的是,这石头的蓝光里好像还有霓虹!没错,是从没有在其他宝石中见过的霓虹光彩!

Dior 迪奥高级珠宝Dear Dior 系列   Organza Brode 帕拉伊巴戒指Dior 迪奥高级珠宝Dear Dior 系列 Organza Brode 帕拉伊巴戒指

  实际上,1988年8月,它石破天惊的那天,巴尔博萨仍在病中。但甚至还未等到和巴尔博萨打个照面,这些珍宝就已开始被世人争相追逐。几个月后的美国图桑珠宝展上,初来乍到的帕拉伊巴电光蓝碧玺一亮相便引起了轰动,不到一周,售价由每克拉一二百美元飞涨到2000美元。而这仅仅是个开始,紧随其后的是蜂拥而至帕拉伊巴寻找珍宝的人们。这个占地本就不过一户民居大小的矿井在几日之内被挖成了蜂窝。甚至那片长宽数百米高数十米的小山头也被夷为平地。但珍宝的偶得又岂能这般容易?人们再也没能从这里找到多少有价值的东西,更别提那种拥有梦幻蓝色的优质新碧玺了。这人间的珍宝,仿佛在一夜之间就消失在了茫茫大地之上。



TAG:巴尔博萨 碧玺 帕拉伊巴 宝石 探秘宝石史上最浓墨重彩的奇迹

IBM analytics solving cancer

IBM analytics solving cancer

PORTLAND, Ore. -- IBM's medical diagnostics analytics are not exactly a 'cure' for cancer, but they are aiming to lower the cost of a promising new remedy for destroying existing tumors. The new technique uses a high-energy particle accelerator -- a room-sized version of the gigantic accelerators used to unravel physics -- that directs a proton beam to precisely kill the cancer cells inside tumors, leaving adjacent tissue untouched. IBM Research (Austin, Texas) is aiming to reduce the cost of this promising new therapy, using software analytics running on a Power7 cluster supercomputer.

The stakes are huge. Last year there were over 12 million cancer patients worldwide receiving various therapies, and that number is predicted to increase to 21 million by 2030. Unfortunately, today there are only 10 centers offering proton therapy, however 17 new ones are currently under construction at a cost of over $200 million each. Over $3.4 billion is being invested in current-generation proton accelerators, and smaller, less expensive accelerators are also being designed to make the technique more affordable.

The big bottleneck, however, is the computational workload required to utilize proton therapy.

Today proton therapy requires a long involved preparation process, starting with a magnetic resonance imaging (MRI) or computational tomography (CT) scan to identify the tumor's location, after which a bevy of doctors and technicians spend over a week mapping out exactly how to use a proton beam to destroy it. Unlike traditional radiation therapy, proton beams do not affect human tissue as they pass through it, only releasing their energy at the very end of the path, which must be carefully plotted to end precisely within the tumor.


Today it takes a team of doctors and technicians a week to map out the path for a proton beam to kill tumors, but in the meantime it grew, making success less likely. IBM's analytics running on a Power 730 cluster computer maps out the same proton beam path in 15 minutes. SOURCE: IBM
Click on image to enlarge.
"The protons are accelerated to half the speed of light, but do not loose that energy until they hit a threshold, after which they release burst of kinetic energy," said IBM Research scientist, Sani Nassif. "Therefore, they can go deep into the body -- almost six inches deep -- where they create a very dynamic hot spot while not touching anything between the skin and that point."
Next: How it works
TAG:Medical Cancer Tumor Cure EETimes NextGenLog Electronics

Tower upbeat despite loss-making Q1

Tower upbeat despite loss-making Q1


LONDON – Tower Semiconductor Ltd., the specialty foundry that trades as TowerJazz, made a net loss of $23.2 million on revenues of $112.6 million in the first quarter of 2013. Revenues were down 23.7 percent from $147.6 million in the previous quarter and down 33.0 percent from the same quarter a year before.

The decline in revenue was on the low side of previously given guidance for the quarter of $110 million to $120 million. The steep drop in revenue was predicted to come from the phasing out of supply contracts with Micron Technology Inc. at a wafer fab in Nishiwaki, Japan. Tower (Migdal Haemek, Israel) acquired the fab from Micron and is in the process of bringing up replacement customers.

Tower said it expects 2Q13 revenue to be in the range $122 million to $132 million with a mid-point up 13 percent on first quarter revenue.

"We leave first quarter confident in our tactics and strategies, demonstrated by quarter over quarter double digit guidance growth, and projected quarter over quarter growth throughout the year. This growth is driven by a record number of full mask tape-outs into our 8-inch facilities in Newport Beach, Migdal HaEmek and Nishiwaki and strong and increasing demand in our Israeli 6-inch factory," said Russell Ellwanger, CEO of Tower, in a statement.


Related links and articles:

Tower sees soft Q1, then growth

Tower, On Semi team on display chip

Tower in talks over Micron fab

India fab decision likely this quarter



TAG:Tower TowerJazz semiconductor financial results

Ice-free Arctic may be in our future

Ice-free Arctic may be in our future

"While existing geologic records from the Arctic contain important hints about this time period, what we are presenting is the most continuous archive of information about past climate change from the entire Arctic borderlands. As if reading a detective novel, we can go back in time and reconstruct how the Arctic evolved with only a few pages missing here and there," says Brigham-Grette.

Results of analyses that provide "an exceptional window into environmental dynamics" never before possible were published this week in Science and have "major implications for understanding how the Arctic transitioned from a forested landscape without ice sheets to the ice- and snow-covered land we know today," she adds.

Their data come from analyzing sediment cores collected in the winter of 2009 from ice-covered Lake El'gygytgyn, the oldest deep lake in the northeast Russian Arctic, located 100 km north of the Arctic Circle. "Lake E" was formed 3.6 million years ago when a meteorite, perhaps a kilometer in diameter, hit the Earth and blasted out an 11-mile (18 km) wide crater. It has been collecting sediment layers ever since. Luckily for geoscientists, it lies in one of the few Arctic areas not eroded by continental ice sheets during ice ages, so a thick, continuous sediment record was left remarkably undisturbed. Cores from Lake E reach back in geologic time nearly 25 times farther than Greenland ice cores that span only the past 140,000 years.

"One of our major findings is that the Arctic was very warm in the middle Pliocene and Early Pleistocene [~ 3.6 to 2.2 million years ago] when others have suggested atmospheric CO2 was not much higher than levels we see today. This could tell us where we are going in the near future. In other words, the Earth system response to small changes in carbon dioxide is bigger than suggested by earlier climate models," the authors state.

Important to the story are the fossil pollen found in the core, including Douglas fir and hemlock. These allow the reconstruction of vegetation around the lake in the past, which in turn paints a picture of past temperatures and precipitation.

Another significant finding is documentation of sustained warmth in the Middle Pliocene, with summer temperatures of about 59 to 61 degrees F [15 to 16 degrees C], about 14.4 degrees F [8 degrees C] warmer than today, and regional precipitation three times higher. "We show that this exceptional warmth well north of the Arctic Circle occurred throughout both warm and cold orbital cycles and coincides with a long interval of 1.2 million years when other researchers have shown the West Antarctic Ice Sheet did not exist," Brigham-Grette notes. Hence both poles share some common history, but the pace of change differed.

Her co-authors, Martin Melles of the University of Cologne and Pavel Minyuk of Russia's Northeast Interdisciplinary Scientific Research Institute, Magadan, led research teams on the project. Robert DeConto, also at UMass Amherst, led climate modeling efforts. These data were compared with ecosystem reconstructions performed by collaborators at universities of Berlin and Cologne.

The Lake E cores provide a terrestrial perspective on the stepped pacing of several portions of the climate system through the transition from a warm, forested Arctic to the first occurrence of land ice, Brigham-Grette says, and the eventual onset of major glacial/interglacial cycles. "It is very impressive that summer temperatures during warm intervals even as late as 2.2 million years ago were always warmer than in our pre-Industrial reconstructions."

Minyuk notes that they also observed a major drop in Arctic precipitation at around the same time large Northern Hemispheric ice sheets first expanded and ocean conditions changed in the North Pacific. This has major implications for understanding both what drove the onset of the ice ages

The sediment core also reveals that even during the first major "cold snap" to show up in the record 3.3 Million years ago, temperatures in the western Arctic were similar to recent averages of the past 12,000 years. "Most importantly, conditions were not 'glacial,' raising new questions as to the timing of the first appearance of ice sheets in the Northern Hemisphere," the authors add.

This week's paper is the second article published in Science by these authors using data from the Lake E project. Their first, in July 2012, covered the period from the present to 2.8 million years ago, while the current work addresses the record from 2.2 to 3.6 million years ago. Melles says, "This latest paper completes our goal of providing an overview of new knowledge of the evolution of Arctic change across the western borderlands back to 3.6 million years and places this record into a global context with comparisons to records in the Pacific, the Atlantic and Antarctica."

The new Lake E paleoclimate reconstructions and climate modeling are consistent with estimates made by other research groups that support the idea that Earth's climate sensitivity to CO2 may well be higher than suggested by the 2007 report of the Intergovernmental Panel on Climate Change.


TAG:Climate Global Warming Ice Ages Early Climate Fossils Origin of Life

Heady mathematics: Describing popping bubbles in a foam

Heady mathematics: Describing popping bubbles in a foam

May 9, 2013 — Bubble baths and soapy dishwater, the refreshing head on a beer and the luscious froth on a cappuccino. All are foams, beautiful yet ephemeral as the bubbles pop one by one.






Two University of California, Berkeley, researchers have now described mathematically the successive stages in the complex evolution and disappearance of foamy bubbles, a feat that could help in modeling industrial processes in which liquids mix or in the formation of solid foams such as those used to cushion bicycle helmets.

Applying these equations, they created mesmerizing computer-generated movies showing the slow and sedate disappearance of wobbly foams one burst bubble at a time.

The applied mathematicians, James A. Sethian and Robert I. Saye, will report their results in the May 10 issue of Science. Sethian, a UC Berkeley professor of mathematics, leads the mathematics group at Lawrence Berkeley National Laboratory (LBNL). Saye will graduate from UC Berkeley this May with a PhD in applied mathematics.

"This work has application in the mixing of foams, in industrial processes for making metal and plastic foams, and in modeling growing cell clusters," said Sethian. "These techniques, which rely on solving a set of linked partial differential equations, can be used to track the motion of a large number of interfaces connected together, where the physics and chemistry determine the surface dynamics."

The problem with describing foams mathematically has been that the evolution of a bubble cluster a few inches across depends on what's happening in the extremely thin walls of each bubble, which are thinner than a human hair.

"Modeling the vastly different scales in a foam is a challenge, since it is computationally impractical to consider only the smallest space and time scales," Saye said. "Instead, we developed a scale-separated approach that identifies the important physics taking place in each of the distinct scales, which are then coupled together in a consistent manner."

Saye and Sethian discovered a way to treat different aspects of the foam with different sets of equations that worked for clusters of hundreds of bubbles. One set of equations described the gravitational draining of liquid from the bubble walls, which thin out until they rupture. Another set of equations dealt with the flow of liquid inside the junctions between the bubble membranes. A third set handled the wobbly rearrangement of bubbles after one pops.

Using a fourth set of equations, the mathematicians solved the physics of a sunset reflected in the bubbles, taking account of thin film interference within the bubble membranes, which can create rainbow hues like an oil slick on wet pavement. Solving the full set of equations of motion took five days using supercomputers at the LBNL's National Energy Research Scientific Computing Center (NERSC).

The mathematicians next plan to look at manufacturing processes for small-scale new materials.

"Foams were a good test that all the equations coupled together," Sethian said. "While different problems are going to require different physics, chemistry and models, this sort of approach has applications to a wide range of problems."

The work is supported by the Department of Energy, National Science Foundation and National Cancer Institute.

Video: http://www.youtube.com/watch?feature=player_embedded&v=ciciWBz8m_Y



TAG:Nature of Water Chemistry Physics Computer Modeling Math Puzzles Computer Science

Moon and Earth have common water source

Moon and Earth have common water source

Water inside the Moon's mantle came from primitive meteorites, new research finds, the same source thought to have supplied most of the water on Earth. The findings raise new questions about the process that formed the Moon.

The Moon is thought to have formed from a disc of debris left when a giant object hit Earth 4.5 billion years ago, very early in Earth's history. Scientists have long assumed that the heat from an impact of that size would cause hydrogen and other volatile elements to boil off into space, meaning the Moon must have started off completely dry. But recently, NASA spacecraft and new research on samples from the Apollo missions have shown that the Moon actually has water, both on its surface and beneath.

By showing that water on the Moon and on Earth came from the same source, this new study offers yet more evidence that the Moon's water has been there all along.

"The simplest explanation for what we found is that there was water on the proto-Earth at the time of the giant impact," said Alberto Saal, associate professor of Geological Sciences at Brown University and the study's lead author. "Some of that water survived the impact, and that's what we see in the Moon."

The research was co-authored by Erik Hauri of the Carnegie Institution of Washington, James Van Orman of Case Western Reserve University, and Malcolm Rutherford from Brown and published online in Science Express.

To find the origin of the Moon's water, Saal and his colleagues looked at melt inclusions found in samples brought back from the Apollo missions. Melt inclusions are tiny dots of volcanic glass trapped within crystals called olivine. The crystals prevent water escaping during an eruption and enable researchers to get an idea of what the inside of the Moon is like.

Research from 2011 led by Hauri found that the melt inclusions have plenty of water -- as much water in fact as lavas forming on Earth's ocean floor. This study aimed to find the origin of that water. To do that, Saal and his colleagues looked at the isotopic composition of the hydrogen trapped in the inclusions. "In order to understand the origin of the hydrogen, we needed a fingerprint," Saal said. "What is used as a fingerprint is the isotopic composition."

Using a Cameca NanoSIMS 50L multicollector ion microprobe at Carnegie, the researchers measured the amount of deuterium in the samples compared to the amount of regular hydrogen. Deuterium is an isotope of hydrogen with an extra neutron. Water molecules originating from different places in the solar system have different amounts of deuterium. In general, things formed closer to the sun have less deuterium than things formed farther out.

Saal and his colleagues found that the deuterium/hydrogen ratio in the melt inclusions was relatively low and matched the ratio found in carbonaceous chondrites, meteorites originating in the asteroid belt near Jupiter and thought to be among the oldest objects in the solar system. That means the source of the water on the Moon is primitive meteorites, not comets as some scientists thought.

Comets, like meteorites, are known to carry water and other volatiles, but most comets formed in the far reaches of the solar system in a formation called the Oort Cloud. Because they formed so far from the sun, they tend to have high deuterium/hydrogen ratios -- much higher ratios than in the Moon's interior, where the samples in this study came from.

"The measurements themselves were very difficult," Hauri said, "but the new data provide the best evidence yet that the carbon-bearing chondrites were a common source for the volatiles in the Earth and Moon, and perhaps the entire inner solar system."

Recent research, Saal said, has found that as much as 98 percent of the water on Earth also comes from primitive meteorites, suggesting a common source for water on Earth and water on Moon. The easiest way to explain that, Saal says, is that the water was already present on the early Earth and was transferred to the Moon.

The finding is not necessarily inconsistent with the idea that the Moon was formed by a giant impact with the early Earth, but presents a problem. If the Moon is made from material that came from Earth, it makes sense that the water in both would share a common source. However, there's still the question of how that water was able to survive such a violent collision.

"The impact somehow didn't cause all the water to be lost," Saal said. "But we don't know what that process would be."

It suggests, the researchers say, that there are some important processes we don't yet understand about how planets and satellites are formed.

"Our work suggests that even highly volatile elements may not be lost completely during a giant impact," said Van Orman. "We need to go back to the drawing board and discover more about what giant impacts do, and we also need a better handle on volatile inventories in the Moon."

Funding for the research came from NASA's Cosmochemistry and LASER programs and the NASA Lunar Science Institute.


TAG:Moon Asteroids Comets and Meteors Solar System Water Near Earth Object Impacts Environmental Issues

Dust in the clouds: Cirrus clouds form around mineral dust and metallic particles

Dust in the clouds: Cirrus clouds form around mineral dust and metallic particles

May 9, 2013 — At any given time, cirrus clouds -- the thin wisps of vapor that trail across the sky -- cover nearly one-third of the globe. These clouds coalesce in the upper layers of the troposphere, often more than 10 miles above the Earth's surface.






Cirrus clouds influence global climate, cooling the planet by reflecting incoming solar radiation and warming it by trapping outgoing heat. Understanding the mechanisms by which these clouds form may help scientists better predict future climate patterns.

Now an interdisciplinary team from MIT, the National Oceanic and Atmospheric Administration (NOAA), and elsewhere has identified the major seeds on which cirrus clouds form. The team sampled cirrus clouds using instruments aboard high-altitude research aircraft, analyzing particles collected during multiple flights over a nine-year period. They found that the majority of cloud particles freeze, or nucleate, around two types of seeds: mineral dust and metallic aerosols.

The absence of certain particles in the clouds also proved interesting. While scientists have observed that substances like black carbon and fungal spores readily form cloud particles in the lab, the team detected barely a trace of these particles in the upper atmosphere.

"We think we're really looking at the seed, the nucleus of these ice crystals," says Dan Cziczo, an associate professor of atmospheric chemistry at MIT. "These results are going to allow us to better understand the climatic implications of these clouds in the future."

Cziczo and his colleagues have published their results this week in Science.

Up in the air

Cirrus clouds typically form at altitudes higher than most commercial planes fly. To sample at such heights, the team enlisted three high-altitude research aircraft from NASA and the National Science Foundation (NSF): a B-57 bomber, a DC-8 passenger jet, and a G-V business jet, all of which were repurposed to carry scientific instruments.

From 2002 to 2011, the team conducted four flight missions in regions of North America and Central America where cirrus clouds often form. Before takeoff, the team received weather forecasts, including information on where and when clouds might be found.

"More often than not, the forecast is solid, and it's up to the pilot to hit a cloud," Cziczo says. "If they find a good spot, they can call back on a satellite phone and tell us if they're inside a cloud, and how thick it is."

For each mission, Cziczo and Karl Froyd, of NOAA's Earth System Resource Laboratory, mounted one or two instruments to the nose of each plane: a single particle mass spectrometer and a particle collector.

Each flight followed essentially the same protocol: As a plane flew through a cloud, ice particles flowed through a specialized inlet into the nose of the plane. As they flowed in, the particles thawed, evaporating most of the surrounding ice. What's left was a tiny kernel, or seed, which was then analyzed in real time by the onboard mass spectrometer for size and composition. The particle collector stored the seeds for further analysis in the lab.

A human effect on cloud formation

After each flight, Cziczo and his colleagues analyzed the collected particles in the lab using high-resolution electron microscopy. They compared their results with analyses from the onboard mass spectrometer and found the two datasets revealed very similar cloud profiles: More than 60 percent of cloud particles consisted of mineral dust blown into the atmosphere, as well as metallic aerosols.

Cziczo notes that while mineral dust is generally regarded as a natural substance originating from dry or barren regions of the Earth, agriculture, transportation and industrial processes also release dust into the atmosphere.

"Mineral dust is changing because of human activities," Cziczo says. "You may think of dust as a natural particle, but some percentage of it is manmade, and it really points to a human ability to change these clouds."

He adds that some global-modeling studies predict higher dust concentrations in the future due to desertification, land-use change and changing rainfall patterns due to human-induced climate effects.

Cziczo's team also identified a "menagerie of metal compounds," including lead, zinc and copper, that may point to a further human effect on cloud formation. "These things are very strange metal particles that are almost certainly from industrial activities, such as smelting and open-pit burning of electronics," Cziczo adds. Lead is also emitted in the exhaust of small planes.

Contrary to what many lab experiments have found, the team observed very little evidence of biological particles, such as bacteria or fungi, or black carbon emitted from automobiles and smokestacks. Froyd says knowing what particles are absent in clouds is just as important as knowing what's present: Such information, he says, can be crucial in developing accurate models for climate change.

"There's been a lot of research efforts spent on looking at how these particle types freeze under various conditions," Froyd says. "Our message is that you can ignore those, and can instead look at mineral dust as the dominant driving force for the formation of this type of cloud."

The group's experimental approach was an impressive feat in itself, says Brian Toon, a professor of atmospheric and oceanic sciences at the University of Colorado. In a typical cirrus cloud, only one particle in 100,000 forms an ice crystal, making the odds of capturing such crystals slim at best.

"This group has used an instrument in a plane flying at speeds of two football fields per second to catch individual ice crystals, evaporate them and measure the composition of the tiny remnant particles -- an amazing technological achievement," says Toon, who was not involved in the research. "Now these measurements need to be repeated over a wide range of locations to be sure they are general."

This research was funded by NASA and the NSF.



TAG:Atmosphere Climate Global Warming Storms Severe Weather Air Pollution

Using bacteria to stop malaria

Using bacteria to stop malaria

A study in the current issue of Science shows that the transmission of malaria via mosquitoes to humans can be interrupted by using a strain of the bacteria Wolbachia in the insects. In a sense, Wolbachia would act as a vaccine of sorts for mosquitoes that would protect them from malaria parasites. Treating mosquitoes would prevent them from transmitting malaria to humans, a disease that in 2010 affected 219 million people and caused an estimated 660,000 deaths.

"Wolbachia-based malaria control strategy has been discussed for the last two decades," said Zhiyong Xi, MSU assistant professor of microbiology and molecular genetics. "Our work is the first to demonstrate Wolbachia can be stably established in a key malaria vector, the mosquito species Anopheles stephensi, which opens the door to use Wolbachia for malaria control."

First, Xi's team successfully demonstrated how Wolbachia can be carried by this malaria mosquito vector and how the insects can spread the bacteria throughout the entire mosquito population. Secondly, researchers showed that the bacteria can prevent those mosquitoes from transmitting malaria parasites to humans.

"We developed the mosquito line carrying a stable Wolbachia infection," Xi said. "We then seeded them into uninfected populations and repeatedly produced a population of predominantly Wolbachia-infected mosquitoes."

The basis for Xi's latest findings is connected to the success of his work using Wolbachia to halt Dengue fever. For this research, Xi focused on the mosquito species Aedes albopictus and Aedes aegypti. This work helped launch a global effort to develop Wolbachia-based strategies to eliminate dengue and other diseases.

The key to the malaria research was identifying the correct species of Wolbachia -- wAlbB -- and then injecting it into mosquito embryos. Out of the thousands of embryos injected by research associate Guowu Bian, one developed into a female that carried Wolbachia. The mosquito line derived from this female has maintained Wolbachia wAlbB infection with a 100 percent infection frequency through 34 generations. The number could grow higher as this is simply the last generation the researchers have bred thus far, Xi said.

The team then introduced various ratios of Wolbachia-infected females into a noninfected mosquito population. In each case, the entire population carried the bacteria in eight generations or less.

Using this promising approach to tackle malaria -- the biggest vector-borne disease -- gives scientists and world health officials another important tool to fight malaria.

Once Wolbachia has been released into a mosquito population, it is quite possible that it won't need to be reapplied, making it more economical than other methods like pesticide or human vaccine. This adds special value to the feasibility of this control strategy, considering most of the malaria endemic areas are suffering from poverty, Xi said.


TAG:Malaria Infectious Diseases Dentistry Bacteria Pests and Parasites Insects (including Butterflies)

Coral reefs suffering, but collapse not inevitable

Coral reefs suffering, but collapse not inevitable

"People benefit by reefs' having a complex structure -- a little like a Manhattan skyline, but underwater," said Peter Mumby of The University of Queensland and University of Exeter. "Structurally complex reefs provide nooks and crannies for thousands of species and provide the habitat needed to sustain productive reef fisheries. They're also great fun to visit as a snorkeler or diver. If we carry on the way we have been, the ability of reefs to provide benefits to people will seriously decline."

To predict the reefs' future, the researchers spent two years constructing a computer model of how reefs work, building on hundreds of studies conducted over the last 40 years. They then combined their reef model with climate models to make predictions about the balance between forces that will allow reefs to continue growing their complex calcium carbonate structures and those such as hurricanes and erosion that will shrink them.

Ideally, Mumby said, the goal is a carbonate budget that remains in the black for the next century at least. Such a future is possible, the researchers' model shows, but only with effective local protection and assertive action on greenhouse gases.

"Business as usual isn't going to cut it," he said. "The good news is that it does seem possible to maintain reefs -- we just have to be serious about doing something. It also means that local reef management -- efforts to curb pollution and overfishing -- are absolutely justified. Some have claimed that the climate change problem is so great that local management is futile. We show that this viewpoint is wrongheaded."

Mumby and his colleagues also stress the importance of reef function in addition to reef diversity. Those functions of reefs include the provision of habitat for fish, the provision of a natural breakwater to reduce the size of waves reaching the shore, and so on. In very practical terms, hundreds of millions of people depend directly on reefs for their food, livelihoods, and even building materials.

"If it becomes increasingly difficult for people in the tropics to make their living on coral reefs, then this may well increase poverty," said the study's first author, Emma Kennedy. It's in everyone's best interest to keep that from happening.


TAG:Extinction Fisheries Coral Reefs Ecology Ocean Policy Environmental Policies

Rejuvenating hormone found to reverse symptoms of heart failure

Rejuvenating hormone found to reverse symptoms of heart failure

May 9, 2013 — Heart failure is one of the most debilitating conditions linked to old age, and there are no specific therapies for the most common form of this condition in the elderly. A study published by Cell Press May 9th in the journal Cell reveals that a blood hormone known as growth differentiation factor 11 (GDF11) declines with age, and old mice injected with this hormone experience a reversal in signs of cardiac aging. The findings shed light on the underlying causes of age-related heart failure and may offer a much-needed strategy for treating this condition in humans.






"There has been evidence that circulating bloodstream factors exist in mammals that can rejuvenate tissues, but they haven't been identified. This study found the first factor like this," says senior study author Richard Lee of the Harvard Stem Cell Institute and Brigham and Women's Hospital.

Heart failure is a condition in which the heart can't pump enough blood to meet the body's needs, causing shortness of breath and fatigue, and it is becoming increasingly prevalent in the elderly. The most common form of age-related heart failure involves thickening of heart muscle tissue. But until now, the molecular causes and potential treatment strategies for this condition have been elusive.

To identify molecules in the blood responsible for age-related heart failure, a team led by Lee and Amy Wagers of the Harvard Stem Cell Institute and Joslin Diabetes Center used a well-established experimental technique: they surgically joined pairs of young and old mice so that their blood circulatory systems merged into one. After being exposed to the blood of young mice, old mice experienced a reversal in the thickening of heart muscle tissue. The researchers then screened the blood for molecules that change with age, discovering that levels of the hormone GDF11 were lower in old mice compared with young mice.

Moreover, old mice treated with GDF11 injections experienced a reversal in signs of cardiac aging. Heart muscle cells became smaller, and the thickness of the heart muscle wall resembled that of young mice. "If some age-related diseases are due to loss of a circulating hormone, then it's possible that restoring levels of that hormone could be beneficial," Wagers says. "We're hoping that some day, age-related human heart failure might be treated this way."



TAG:Heart Disease Stroke Prevention Healthy Aging Vioxx Cholesterol Diseases and Conditions

Mapping the embryonic epigenome: How genes are turned on and off during early human development

Mapping the embryonic epigenome: How genes are turned on and off during early human development

After an egg has been fertilized, it divides repeatedly to give rise to every cell in the human body -- from the patrolling immune cell to the pulsing neuron. Each functionally distinct generation of cells subsequently differentiates itself from its predecessors in the developing embryo by expressing only a selection of its full complement of genes, while actively suppressing others. "By applying large-scale genomics technologies," explains Bing Ren, PhD, Ludwig Institute member and a professor in the Department of Cellular and Molecular Medicine at the UC San Diego School of Medicine, "we could explore how genes across the genome are turned on and off as embryonic cells and their descendant lineages choose their fates, determining which parts of the body they would generate."

One way cells regulate their genes is by DNA methylation, in which a molecule known as a methyl group is tacked onto cytosine -- one of the four DNA bases that write the genetic code. Another is through scores of unique chemical modifications to proteins known as histones, which form the scaffolding around which DNA winds in the nucleus of the cell. One such silencing modification, called H3K27me3, involves the highly specific addition of three methyl groups to a type of histone named H3. "People have generally not thought of these two 'epigenetic' modifications as being very different in terms of their function," says Ren.

The current study puts an end to that notion. The researchers found in their analysis of those modifications across the genome -- referred to, collectively, as the epigenome -- that master genes that govern the regulation of early embryonic development tend largely to be switched off by H3K27me3 histone methylation. Meanwhile, those that orchestrate the later stages of cellular differentiation, when cells become increasingly committed to specific functions, are primarily silenced by DNA methylation.

"You can sort of glean the logic of animal development in this difference," says Ren. "Histone methylation is relatively easy to reverse. But reversing DNA methylation is a complex process, one that requires more resources and is much more likely to result in potentially deleterious mutations. So it makes sense that histone methylation is largely used to silence master genes that may be needed at multiple points during development, while DNA methylation is mostly used to switch off genes at later stages, when cells have already been tailored to specific functions, and those genes are less likely to be needed again."

The researchers also found that the human genome is peppered with more than 1,200 large regions that are consistently devoid of DNA methylation throughout development. It turns out that many of the genes considered master regulators of development are located in these regions, which the researchers call DNA methylation valleys (DMVs). Further, the team found that the DMVs are abnormally methylated in colon cancer cells. While it has long been known that aberrant DNA methylation plays an important role in various cancers, these results suggest that changes to the cell's DNA methylation machinery itself may be a major step in the evolution of tumors.

Further, the researchers catalogued the regulation of DNA sequences known as enhancers, which, when activated, boost the expression of genes. They identified more than 103,000 possible enhancers and charted their activation and silencing in six cell types. Researchers will in all likelihood continue to sift through the data generated by this study for years to come, putting the epigenetic phenomena into biological context to investigate a variety of cellular functions and diseases.

"These data are going to be very useful to the scientific community in understanding the logic of early human development," says Ren. "But I think our main contribution is the creation of a major information resource for biomedical research. Many complex diseases have their roots in early human development."

Laboratories led by Michael Zhang, at the University of Texas, Dallas, and Wei Wang, at the University of California, La Jolla, contributed extensively to the computational analysis of data generated by the epigenetic mapping.


TAG:Genes Human Biology Epigenetics Developmental Biology Epigenetics Research Biotechnology

Social connections drive the 'upward spiral' of positive emotions and health

Social connections drive the 'upward spiral' of positive emotions and health

The research, led by Barbara Fredrickson of the University of North Carolina at Chapel Hill and Bethany Kok of the Max Planck Institute for Human Cognitive and Brain Sciences also found it is possible for a person to self-generate positive emotions in ways that make him or her physically healthier.

"People tend to liken their emotions to the weather, viewing them as uncontrollable," says Fredrickson. "This research shows not only that our emotions are controllable, but also that we can take the reins of our daily emotions and steer ourselves toward better physical health."

To study the bodily effects of up-regulating positive emotions, the researchers zeroed in on vagal tone, an indicator of how a person's vagus nerve is functioning. The vagus nerve helps regulate heart rate and is also a central component of a person's social-engagement system.

Because people who have higher vagal tone tend to be better at regulating their emotions, the researchers speculated that having higher vagal tone might lead people to experience more positive emotions, which would then boost perceived positive social connections. Having more social connections would in turn increase vagal tone, thereby improving physical health and creating an "upward spiral."

To see whether people might be able to harness this upward spiral to steer themselves toward better health, Kok, Fredrickson, and their colleagues conducted a longitudinal field experiment.

Half of the study participants were randomly assigned to attend a 6-week loving-kindness meditation (LKM) course in which they learned how to cultivate positive feelings of love, compassion, and goodwill toward themselves and others. They were asked to practice meditation at home, but how often they meditated was up to them. The other half of the participants remained on a waiting list for the course.

Each day, for 61 consecutive days, participants in both groups reported their "meditation, prayer, or solo spiritual activity," their emotional experiences, and their social interactions within the last day. Their vagal tone was assessed twice, once at the beginning and once at the end of the study.

The data provided clear evidence to support the hypothesized upward spiral, with perceived social connections serving as the link between positive emotions and health.

Participants in the LKM group who entered the study with higher vagal tone showed steeper increases in positive emotions over the course of the study. As participants' positive emotions increased, so did their reported social connections. And, as social connections increased, so did vagal tone. In contrast, participants in the wait-list group showed virtually no change in vagal tone over the course of the study.

"The daily moments of connection that people feel with others emerge as the tiny engines that drive the upward spiral between positivity and health," Fredrickson explains.

These findings add another piece to the physical health puzzle, suggesting that positive emotions may be an essential psychological nutrient that builds health, just like getting enough exercise and eating leafy greens.

"Given that costly chronic diseases limit people's lives and overburden healthcare systems worldwide, this is a message that applies to nearly everyone, citizens, educators, health care providers, and policy-makers alike," Fredrickson observes.

This work was supported National Institute of Mental Health Grant MH59615.


TAG:Health Policy Mental Health Research Psychology Perception Social Issues Public Health

广西宝玉石雕刻优秀作品将展出

广西宝玉石雕刻优秀作品将展出

宝玉石雕刻优秀作品 宝玉石雕刻优秀作品

  5月9日至12日,第二届中国—东盟珠宝玉石展将在南宁国际会展中心2号馆举行,届时广西本土的珠宝玉石优秀作品也将亮相展会,为市民呈上一场美轮美奂的盛宴.

  据广西珠宝协会会长杨卫红介绍,广西不乏优秀的玉石雕刻工艺大师,作为2013中国—东盟矿业合作论坛暨推介展示会的系列活动,广西珠宝协会和广西观赏石协会近期共同举办了“天工神韵”2013首届广西宝玉石雕刻优秀作品展,全方位地展示广西本土玉石之美和广西籍玉石雕刻工艺大师风采.5月10日这些优秀作品将在同期举行的中国—东盟珠宝玉石展上集中亮相,评审委员会专家也会对部分获奖作品进行现场点评.下面就让我们提前一睹部分优秀作品风采吧!





来源:新浪收藏


TAG:广西宝玉石雕刻优秀作品将展出 翡翠 翡翠手镯 中国翡翠网 翡翠新闻