On to the ground-based (i.e. NSF funded) recommendations (for large, new projects — i.e., not including on-going investments in ALMA; there are a number of interesting medium scale projects recommended, but I probably won’t have time to get to them).

First priority was the Large Synoptic Survey Telescope (LSST) — a survey for a multi-color, multi-cadence survey of the sky with an 8m class telescope. As my colleague and LSST Project Scientist Zeljko Ivezic puts it, “LSST will make a movie of the sky,” which, you have to admit, is pretty cool. When you think about discovery space in astronomy, the largest gains come when you move into new regimes. We’ve largely run out of new wavelength regimes, but the time-variable regime has not yet been explored in a large scale systematic way (although PanSTARRS and the Los Cumbres Observatory will certainly be making headway). In addition, the co-adds of all the epochs will produce an 8m telescope version of the 2.5m Sloan Digital Sky Survey (SDSS) imaging, which is a good thing. All data is non-proprietary, and can be used by anyone.

Second priority is a “Mid-Scale Innovations Program” — basically, a ground-based equivalent of the NASA Explorer program. The decadal survey committee reviewed a wealth of scientifically compelling medium size projects. These don’t rise to the level of building giant new facilities, and are typically seeking funding for an instrument and a decidated multi-year survey on existing facilities. The report recommends that there be a review and funding mechanism for such projects, which have the capability of responding nimbly to scientific and technological changes.

Third priority is contributing to the development of a 30m class ground-based optical/nearIR telescope (a “Giant Segmented Mirror Telescope”; GSMT). Such a telescope would be essential for carrying out spectroscopy of the sources found at the limits of 8m-class telescope imaging; basically, if you detect a source in an image, when you want spectra, you’re spreading the light over much larger areas, requiring bigger apertures to reach the same signal-to-noise as when all the wavelengths are being imaged together. There are currently 2 large US programs that are well underway (TMT and GMT), using private funding. For these programs to have enough money to be built and operated, an investment of Federal money is required. This money would also guarantee some degree of access for the larger US community, but probably significantly less than 50%. The report recommends that involvement should be at least a 25% share. However, they argue that there is only money enough to invest in one, and the community had better pick one as soon as possible, rather than letting both go forward.

The fourth priority is participation in the “Atmospheric Cerenkov Telescope Array” (ACTA), to detect and characterize the highest energy cosmic rays. Recent years have seen the detection of TeV cosmic rays, which places strong constraints on particle acceleration at the highest energy scales; a new array would greatly expand the chances of fully understanding the origin of these high energy events. Rather than funding a separate US initiative, however, the report recommends joining into an existing European project (CTA), in spite of the fact that the US would be a minor partner.

Reactions to the Ground-Based Recommendations:

Perhaps the biggest surprise was the drop in the GSMT from (1) its prioritization in the previous report, and (2) its prioritization in the actual optical/IR subcommittee (See Table B.1). The justification was that LSST was a much lower risk in terms of cost and technology, and, as in the space recommendations, pragmatism ruled the day. The committee was quite strong in their support for GSMT as a project, and pointed out that the combination with LSST is highly synergistic — LSST provides the targets, and GSMT tells you what they are. However, the pie was simply not big enough to give everyone a slice. In addition, if you can only dish out one slice of pie, you want it to feed the most number of people — LSST made a strong case that a much larger fraction of the US community could make use of the data.

Personally, I’m very sympathetic to this view. There are scientific advances that come because you have new facilities pushing into new territory, and GSMT has this in spades. However, there are also scientific advances that come about because you have the largest number of very clever brains thinking about how to exploit a given data set. Taking SDSS as a model, a ridiculously large fraction of the ridiculously large number of SDSS-related papers had absolutely nothing to do with anything in the “black book” of science justifications used to obtain funding for SDSS. You take good data, you let smart people work with it, and you’ll get science you never anticipated. I’m optimistic that LSST could work the same way, with the caveat that the scientific impact may well be blunted without a wide scale investment in spectroscopy (which SDSS had, and which LSST lacks). I very much hope that a 30m gets built, but not to the point where I’d be comfortable leveraging all public large ground-based investment over the next 10 years for a 25% share of a telescope. (Full disclosure: I am not at an institution that would have private 30m access, and am at one that has made early and ongoing investments in LSST. So, my perspective is undoubtedly shaped somewhat by viewing GSMT projects as a potential “outside” user. I do my best to be fair, but I’ve pretty much shaped my scientific research around the premise that I won’t have exclusive access to large aperture telescopes.)

I am also really pleased to see the “Mid-Scale Innovations” recommendation. I think this is a smart way to make sure we can take advantage of rapidly changing fields. When something like dark energy or extrasolar planets shows up on the scene, it’s great to have a mechanism in place to take advantage of new opportunities. In addition, it’s a smart way to skim the low hanging fruit, so that larger missions have a better understanding of what the scientific requirements really are — for example, you’d design a very different dark energy mission if you know that w is nearly equal to -1, than if you had no idea of its value.

The other noticeable lack here is a call for US participation in the Square Kilometer Array. (The panel did recommend some radio projects in the medium scale category.) However, if you look at Figure 4-8 (which I found fascinating and surprising) fewer than 10% of the members in the American Astronomical Society (ASS) categorize themselves as “Observational Radio” astronomers. I’d presume this would grow in response to investment in ALMA, but the community is clearly not enormous.

So, my take on the ground-based recommendations, is that they did pretty well at making hard choices. And the choices were indeed hard, and are going to be rightfully hard to swallow in many cases.

Just in time for the release of Denny’s new Fried Cheese Melt, a study in The American Journal of Cardiology questions if cholesterol-reducing drugs called statins might pair well with fast food. A side of McStatins with that Big Mac, the study suggests, could decrease the risk of cardiovascular disease.

Using data from previous studies, researchers in the UK compared the decreased risk of cardiovascular disease from taking statins to the increased risk caused by sucking down a cheeseburger and milkshake. From their abstract:

“The risk reduction associated with the daily consumption of most statins, with the exception of pravastatin, is more powerful than the risk increase caused by the daily extra fat intake associated with a 7-oz hamburger (Quarter Pounder®) with cheese and a small milkshake.”

The study’s authors note that the pills certainly won’t counteract all of the ill effects of unhealthy eating choices–diners would still have to contend with the calories and the sodium. Instead they compare taking the medications with other protections from risky behaviors, like wearing a helmet while motorcycling.

Reuters reports that some physicians are worried that the combination will give fast food lovers the wrong message, and may make diners think that they can avoid the negative consequences of their date with the deep fryer. But study coauthor Darrel P. Francis’ statement to CBS News makes you wonder if the currently prescription-only drugs such as Lipitor and Crestor might soon be available next to the ketchup pump:

“It’s ironic that people are free to take as many unhealthy condiments in fast food outlets as they like, but statins, which are beneficial to heart health, have to be prescribed.”

Related content:
Discoblog: Fast Food News: It Boosts Impatience, and What Trumps KFC’s Double Down?
Discoblog: Fast Food Joints Lie About Calories (Denny’s, We’re Looking at You)
Discoblog: Grand Engineering Challenge of Our Era: A Non-Lethal Hot Dog
Discoblog: How Deep Fryer Grease Can Become an Energy-Saving Coating for Your Roof

Image: flickr / Marshall Astor — Food Pornographer

The antibiotics-resistant superbug that emerged in South Asia appears to have claimed its first life. According to doctors who treated a man in Belgium, he went to a hospital in Pakistan after a car accident, and there he picked up the bacterial infection. While the man died back in June, his doctors announced today that he carried the superbug.

This new health scare intensified this week after researchers published a study in The Lancet Infectious Diseases characterizing “a new antibiotic resistance mechanism” in the U.K., India, and Pakistan. How bad is this “mechanism?”

It’s bad:

The problem isn’t a particular kind of bacteria. It’s a gene that encodes an enyzme called New Delhi metallo-lactamase-1 (NDM-1). Bacteria that carry it aren’t bothered by traditional antibiotics, or even the drugs known as carbapenems deployed against antibiotic-resistant microbes.

The NDM-1 gene is a special worry because it is found in plasmids — DNA structures that can easily be copied and then transferred promiscuously among different types of bacteria. These include Escherichia coli, the commonest cause of urinary tract infections, and Klebsiella pneumoniae, which causes lung and wound infections and is generated mainly in hospitals [AFP].

It’s no worse than what we had before:

Yes, NDM-1 is scary. But it’s not unprecedented.

There are numerous strains of antibiotic-resistant germs, and although they have killed many patients in hospitals and nursing homes, none have yet lived up to the “superbug” and “flesh-eating bacteria” hyperbole that greets the discovery of each new one. “They’re all bad,” said Dr. Martin J. Blaser, chairman of medicine at New York University Langone Medical Center. “Is NDM-1 more worrisome than MRSA? It’s too early to judge” [The New York Times].

The Los Angeles Times contends that the problem is not a serious problem for the West—at least not yet. The people in the most danger are patients in hospitals, The New York Times says—especially ones with weaker immune systems.

Could it happen anywhere?

India and Pakistan have developed some excellent hospitals and surgeons that provide medical care and surgical procedures, especially elective procedures, more cheaply than they are available in the West. But the overuse of antibiotics among the larger population leads to the development of resistance, and those organisms can make their way into even the best hospitals [Los Angeles Times].

Indians, however—cognizant of the bad press that comes with having a medical scare named after one’s capital city—have fought back against the idea that their practices brought on the emergence of a superbug.

“Several superbugs are surviving in nature and they have been reported from countries like Greece, Israel, the U.S., Britain, Brazil,” and elsewhere, V. M. Katoch, director general of the Indian Council of Medical Research in New Delhi told India Real Time. “It’s unfortunate that this new bug, which is an environmental thing, has been attached to a particular country” [Wall Street Journal].

Related Content:
DISCOVER: Promising Antibiotic Could Spawn the Next Superbug
80beats: Tiny Nanotech “Diving Boards” Test the Killing Power of Antibiotics
80beats: Non-Lethal Antibiotics Could Fight “Superbugs”
80beats: Red Meat Acts as Trojan Horse for Toxic Attacks By E. Coli

Image: USDA

This photograph was made in a small town in Southeast Ohio, along the Ohio river, called Cheshire. To the left you can see the Gavin Power Plant, a coal-fired plant that provides electricity to Ohio, Appalachia, and the greater Northeast. The coal that is burned at Gavin Power comes in part from mountaintop removal mines in Appalachia. In 2002, shortly after federal health experts confirmed that the blue sulphuric clouds from the plant endangered the residents of the town, the American Electric Power company bought the entire village of Cheshire for $20 million, and the residents of Cheshire agreed to relocate. Photographer Daniel Shea has been working on a long-term project to explore the social and environmental impacts of coal in Southeast Ohio and Appalachia.

About taking this photo, Shea writes: “I had driven by this house repeatedly over the course of a week. Sometimes I would stop and photograph it, but it never felt right. This is a residential street in a very small town, and people take notice of strangers. I received really dirty looks the first time I photographed it, it was noon and the sun and heat were unbearable. Eventually I made it back to the house at 5 AM. At that time you couldn’t see the stacks, so I parked outside, waiting until they were barely visible an hour later. I knew while taking it that it would be “the” picture from Plume. This is a fairly atypical landscape — I assume that the house belongs to a manager at the power plant as there isn’t a lot of money in the region; it’s mostly rural poverty.”

Just want to cheer you up a bit. Click play and watch how things are getting better….