Author Archives: curiouscat

Learning from Leprosy Diagnosis

The diagnosis that ultimately resulted — leprosy — turned the Blanchards’ world upside down and rippled through the lives of many people they knew or had contact with. It also raised issues that are often confronted when any contagious disease is diagnosed, particularly one with scary connotations: What precautions should be taken to protect the rights of the affected individual as well as the health of the community?
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For the Blanchards, some of the answers lay almost literally in their back yard. Baton Rouge is home to the National Hansen’s Disease (Leprosy) Clinical Center, part of the U.S. Public Health Service.
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About 300,000 new cases of leprosy are diagnosed annually, according to the World Health Organization. Now known as Hansen’s disease, after the Norwegian scientist who discovered the mycobacterium that causes the illness, it affects about 2 million to 3 million people worldwide.

Where it is left untreated, Hansen’s disease is a leading cause of disability and devastating deformity. It remains endemic in Bangladesh, India, Brazil and elsewhere. In the United States, roughly 6,000 people have the disease. One hundred to two hundred new cases are reported annually, and, like BB Blanchard, about two dozen of those new patients have never been beyond U.S. borders.
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How transmission occurs is a mystery. Humans and the armadillo are the only two creatures known to get the disease. No one knows where the microbe hides in nature, although the suspicion is that the leprosy mycobacterium may be airborne like its bacterial cousin, tuberculosis.

Most people think of leprosy as a skin disease. But the rash that BB Blanchard had and the disfiguring lesions often associated with it are just a symptom. The mycobacteria burrow into nerves, where they often remain undetected for years or even decades.

Women Choosing Other Fields Over Engineering and Math

graph of science and engineering degrees by gender in the USA 1966-2005

The graph shows college degrees granted in the USA. This topic sets up one for criticism, but I believe it is more important to examine the data and explore the possible ideas than to avoid anything that might be questioned by the politically correct police. An import factor, to me anyway, is that women are now graduating from college in far higher numbers than men. And in many science fields female baccalaureate graduates outnumber male graduates (psychology [67,000 to 19,000], biology[42,000 to 26,000], anthropology, sociology [20,000 to 8,000]) while men outnumber women in others (math [7,000 to 6,000], engineering [53,000 to 13,000], computer science [39,000 to 11,000], physics [3,000 to 900]).

Data on degrees awarded men and women in the USA in 2005, from NSF*:

Field	Bachelors		Master’s		Doctorate
	Women	Men	Women	Men	Women	Men
Biology	42,283	25,699	4,870	3,229	3,105	3,257
Computer Science	11,235	39,329	5,078	12,742	225	909
Economics	8,141	17,023	1,391	2,113	355	827
Engineering	13,197	52,936	7,607	26,492	1,174	5,215
Geosciences	1,660	2,299	712	973	243	470
Physics	903	3,307	427	1,419	200	1,132
Psychology	66,833	19,103	12,632	3,444	2,264	211
Sociology	20,138	8,438	920	485	343	211
All S&E	235,197	230,806	53,051	66,974	10,533	17,405

What does this all mean? It is debatable, but I think it is very good news for the efforts many have made over the last few decades to open up opportunities for women. I still support efforts to provide opportunities for girls to get started in science and engineering but I think we have reached the day when the biggest concern is giving all kids better math and science primary education (and related extracurricular activities). Also continued focus and effort on the doctorate and professional opportunities for women is warranted.
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NASA’s Phoenix Mars Lander

The successful landing of NASA’s Phoenix Mars Lander is well documented: Soft landing on a rough Mars terrain – Mars Lander Transmits Photos of Arctic Terrain – Phoenix Mars Lander prepares to begin excavation – Scientists Excited After Safe Mars Landing

View animation showing how NASA’s Phoenix Mars Lander stays in contact with Earth

As NASA’s Mars Odyssey orbiter passes overhead approximately every two hours, Phoenix transmits images and scientific data from the surface to the orbiter, which then relays the data to NASA’s Deep Space Network of antennas on Earth. Similarly, NASA’s Deep Space Network transmits instructions from Earth to Odyssey, which then relays the information to Phoenix.

The Phoenix mission is to explore the north polar region of Mars.

Solar Thermal in Desert, to Beat Coal by 2020

Google, Chevron Build Mirrors in Desert to Beat Coal With Solar

Along a dusty two-lane highway in California’s Mojave Desert, 550,000 mirrors point skyward to make steam for electricity. Google Inc., Chevron Corp. and Goldman Sachs Group Inc. are betting this energy will become cheaper than coal.

The 1,000-acre plant uses concentrated sunlight to generate power for as many as 112,500 homes in Southern California. Rising natural gas prices and emissions limits may make solar thermal the fastest-growing energy source in the next decade, say backers including Vinod Khosla, the founder of computer maker Sun Microsystems Inc. Costs for the technology will fall below coal as soon as 2020, the U.S. government estimates.
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“Solar thermal can provide a substantial amount of our power, more than 50 percent,” says Khosla
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Nine solar thermal plants built in the California desert from 1985 to 1991 still operate, with Juno Beach, Florida-based FPL Group Inc. running seven. They have combined capacity of 354 megawatts, enough to power 230,000 Southern California homes. Development slowed when Congress eliminated tax credits for alternative energy in the early 1990s. Laws put in place in 2005 give solar investors a 30 percent tax credit.

Great progress is being made adding wind and solar capacity. And the increasing oil prices are encouraging much faster adoption of these technologies. The promise of widespread adoption is rapidly becoming a reality.

Germany Bans Chemicals Linked to Bee Deaths

Germany bans chemicals linked to honeybee devastation

Germany has banned a family of pesticides that are blamed for the deaths of millions of honeybees. The German Federal Office of Consumer Protection and Food Safety (BVL) has suspended the registration for eight pesticide seed treatment products used in rapeseed oil and sweetcorn.

The move follows reports from German beekeepers in the Baden-WÃ¼rttemberg region that two thirds of their bees died earlier this month following the application of a pesticide called clothianidin. “It’s a real bee emergency,” said Manfred Hederer, president of the German Professional Beekeepers’ Association. “50-60% of the bees have died on average and some beekeepers have lost all their hives.” Tests on dead bees showed that 99% of those examined had a build-up of clothianidin.
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The company says an application error by the seed company which failed to use the glue-like substance that sticks the pesticide to the seed, led to the chemical getting into the air.

High School Student Isolates Microbe that Eats Plastic

WCI student isolates microbe that lunches on plastic bags

Daniel Burd’s project won the top prize at the Canada-Wide Science Fair in Ottawa. He came back with a long list of awards, including a $10,000 prize, a $20,000 scholarship, and recognition that he has found a practical way to help the environment.
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First, he ground plastic bags into a powder. Next, he used ordinary household chemicals, yeast and tap water to create a solution that would encourage microbe growth. To that, he added the plastic powder and dirt. Then the solution sat in a shaker at 30 degrees.

After three months of upping the concentration of plastic-eating microbes, Burd filtered out the remaining plastic powder and put his bacterial culture into three flasks with strips of plastic cut from grocery bags. As a control, he also added plastic to flasks containing boiled and therefore dead bacterial culture.

Six weeks later, he weighed the strips of plastic. The control strips were the same. But the ones that had been in the live bacterial culture weighed an average of 17 per cent less.
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The inputs are cheap, maintaining the required temperature takes little energy because microbes produce heat as they work, and the only outputs are water and tiny levels of carbon dioxide — each microbe produces only 0.01 per cent of its own infinitesimal weight in carbon dioxide, said Burd.

“This is a huge, huge step forward . . . We’re using nature to solve a man-made problem.” Burd would like to take his project further and see it be used. He plans to study science at university, but in the meantime he’s busy with things such as student council, sports and music.

Darwin’s Orchid Prediction

American Museum of Natural History:

Darwin first saw this astonishing orchid from Madagascar, Angraecum sesquipedale, in 1862. Its foot-long green throat holds nectar—the sweet liquid that draws pollinators – but only at its very tip. “Astounding,” Darwin wrote, of this strange adaptation. “What insect could suck it?” He predicted that Madagascar must be home to an insect with an incredibly long feeding tube, or proboscis. Entomologists were dubious: no such insect had ever been found there.

Life Far Beneath the Ocean

Huge hidden biomass lives deep beneath the oceans

Recently, he and his colleagues examined samples of a mud core extracted from between 860 metres and 1626 metres beneath the sea floor off the coast of Newfoundland. They found simple organisms known as prokaryotes in every sample. Prokaryotes are organisms that often have just one cell. Their peculiarity is that, unlike any other form of life, their DNA is not neatly packed into a nucleus.
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Where cells living so far beneath the sea floor could have come from remains a mystery. They may have been gradually buried in sediment as millions of years passed by, and adapted to the increasing temperatures and pressure, he says.

Another possibility is that they were sucked deep into the mud from the sea water above. Hydrothermal vents pulse hot water out of the seabed and into the ocean. This creates a vacuum in the sediment, which draws fresh sea water into the marine aquifer.

It is important to understand the way the cells got down there, because that has implications for their age. The cells are not very active and according to Parkes they have very few predators. “We find very few viruses, for example, down there,” he says. “At the surface, if you don’t divide you get eaten. But if there are no predators, the pressure to reproduce decreases and you can spend more energy on repairing your damaged molecules.”
Ancient life

This means it is conceivable – but unproven – that some of the cells are as old as the sediment. At 1.6 km beneath the sea, that’s 111 million years old. But in an underworld where cells divide excruciatingly slowly, if at all, age tends to lose its relevance, says Parkes.

More very cool stuff, this stuff is fun.

USA Science Losing Ground

I have written about the continued decline in the relative position of science in the USA compared to the rest of the world: Engineering the Future Economy – Economic Strength Through Technology Leadership – The Best Research Universities – U.S. Slipping on Science – Diplomacy and Science Research – Scientists and Engineers in Congress. The USA continues to act as though the rewards for scientific excellence automatically go to the USA. That isn’t the case and as many other countries make smart investments in scientific centers of excellence the USA chooses to do very little.

Has U.S. Science Lost Its Competitive Edge?

Craig Barrett, former CEO of Intel, delivered perhaps the most stinging indictment of the current political system. “There will be winners and losers, and the losers are the ones who insist on looking backwards,” said Barrett. “We continue to subsidize 19th century technology–like in the $290 billion farm bill–rather than the 21st century technologies that will allow us to remain competitive. We’re fat, dumb, and happy.”
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hefty increases at three science agencies–the National Science Foundation, the Department of Energy Office of Science, and the National Institute of Standards and Technology. Last summer, legislation that incorporates many of those recommendations became law. But funding for most of the initiatives has yet to materialize.
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Speakers repeatedly pointed to those anemic budgets as evidence that politicians haven’t realized the threats to American preeminence in science posed by the rest of the world.

As I have said many times the consequences of failing to take sensible action today will be large. Science and engineering centers of excellence have been a very important factor in the economic success of the USA.

NSF Graduate Research Fellows 2008

photo of Sarah Lukes

The National Science Foundation’s Graduate Research Fellowship Program aims to ensure the vitality of the human resource base of science and engineering in the United States and to reinforce its diversity. The program recognizes and supports outstanding graduate students in the relevant science, technology, engineering, and mathematics disciplines who are pursuing research-based master’s and doctoral degrees.

This year NSF awarded 913 fellowships: which come with a stipend of $30,000 and $10,500 cost of education allowance. On the ASEE Science and Engineering Fellowship blog, that I manage in my full time job with the American Society for Engineering Education (the Curious Cat Science and Engineering blog is my own and not related to ASEE), we highlight awardees including: Sarah Lukes mechanical engineering graduate working on her PhD at Montana State University; Ben Safdi, engineering physics and applied mathematics dual major at Colorado University – Boulder; Henry Deyoung, computer science major at Carnegie Mellon University, Jennifer Robinson, computer science major at North Carolina State; Lydia ThÃ©, biology major at Swarthmore; and Julia Kamenetzky, physics major at Cornell College.

Fellows from previous years include: Sergey Brin, H. David Politzer and Eric Maskin.