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The authors suggest that there are two publics for science communication, one that is liberal, educated and with a number of resources at its disposals; the other with less predictable and less-formed opinions. The authors explored empirically (via a survey of 108 Colorado citizens) the responses of liberal and educated people to scientific jargon by exposing them to two “treatments”: jargon-laden vs lay terminology news articles. The results found that scientists were considered the most credible sources in the specific area of environmental science (94.3% agreed), followed by activists (61.1%). The least credible were industry representatives, clergy and celebrities. (Remember, this is among liberal educated people.) Interestingly, the use of jargon per se did not increase acceptance of the news source or of the content of the story. So the presence of scientific expertise is important, not so the presence of actual scientific details in the story.

There is no complete account of the scientific method, and again one can choose certain methods rather than others, depending on what one is trying to accomplish (a choice that is itself informed by one’s values). And of course the Duhem-Quine thesis shows that there is no straightforward way to falsify scientific theories (contra Popper). If there were supernatural causes that interact with (or override) the causes being studied by science, but are themselves undiscoverable, this would lead to false conclusions and bad predictions. Which means that the truth is discoverable empirically only if such supernatural causes are not active. Science cannot answer the question of whether such factors are present, which raises the question of whether we ought to proceed as if they were not (i.e., methodological naturalism).

t was the big news that wasn’t. Hyperbolic claims about the possible discovery of alien life, or a second branch of life on Earth, turned out to be nothing more than bacteria that can thrive on arsenic, using it in place of phosphorus in their DNA and other molecules. But after the initial layers of hype were peeled away, even this extraordinar

This is a chronological roundup of the criticism against the science in the paper itself, ending with some personal reflections on my own handling of the story (skip to Friday, December 10th for that bit).

Thursday, December 2nd: Felisa Wolfe-Simon published a paper in Science, claiming to have found bacteria in California’s Mono Lake that can grow using arsenic instead of phosphorus. Given that phosphorus is meant to be one of six irreplaceable elements, this would have been a big deal, not least because the bacteria apparently used arsenic to build the backbones of their DNA molecules.

The only way to guarantee either a daughter or son is to undergo pre-implantation genetic diagnosis: a genetic analysis of an embryo before it is placed in the womb. This is illegal in Britain except for couples at risk of having a child with a life-threatening gender-linked disorder.

It’s also illegal for clinics to offer sex selection methods such as MicroSort, that sift the slightly larger X chromosome-bearing (female) sperm from their weedier Y chromosome-bearing (male) counterparts, and then use the preferred sperm in an IVF cycle. With a success rate hovering around 80-90 per cent, it’s better than Mother Nature’s odds of conception, but not immaculate.

Years ago I agreed with this ban on socially motivated sex selection. But I can’t defend that stance today. My opposition was based on two worries: the gender balance being skewed—look at China—and the perils of letting society think it’s acceptable to prize one sex more than the other. Unlike many politicians, however, I think it is only right and proper to perform an ideological U-turn when presented with convincing opposing evidence.

British sociologist Harry Collins asked a scientist who specializes in gravitational waves to answer seven questions about the physics of these waves. Collins, who has made an amateur study of this field for more than 30 years but has never actually practiced it, also answered the questions himself. Then he submitted both sets of answers to a panel of judges who are themselves gravitational-wave researchers. The judges couldn't tell the impostor from one of their own. Collins argues that he is therefore as qualified as anyone to discuss this field, even though he can't conduct experiments in it.

The journal Nature predicted that the experiment would have a broad impact, writing that Collins could help settle the "science wars of the 1990s," "when sociologists launched what scientists saw as attacks on the very nature of science, and scientists responded in kind," accusing the sociologists of misunderstanding science. More generally, it could affect "the argument about whether an outsider, such as an anthropologist, can properly understand another group, such as a remote rural community." With this comment, Nature seemed to be saying that if a sociologist can understand physics, then anyone can understand anything.

It will be interesting to see if Collins' results can indeed be repeated in different situations. Meanwhile, his experiment is plenty interesting in itself. Just one of the judges succeeded in distinguishing Collins' answers from those of the trained experts. One threw up his hands. And the other seven declared Collins the physicist. He didn't simply do as well as the trained specialist—he did better, even though the test questions demanded technical answers. One sample answer from Collins gives you the flavor: "Since gravitational waves change the shape of spacetime and radio waves do not, the effect on an interferometer of radio waves can only be to mimic the effects of a gravitational wave, not reproduce them." (More details can be found in this paper Collins wrote with his collaborators.)

Here’s a little piece I wrote for Nature news. To truly appreciate this stuff you need to take a look at the slideshow. There will be a great deal more on early microscopy in my next book, probably called Curiosity and scheduled for next year.

The first microscopes were a lot better than they are given credit for. That’s the claim of microscopist Brian Ford, based at Cambridge University and a specialist in the history and development of these instruments.

Ford says it is often suggested that the microscopes used by the earliest pioneers in the seventeenth century, such as Robert Hooke and Antony van Leeuwenhoek, gave only very blurred images of structures such as cells and micro-organisms. Hooke was the first to record cells, seen in thin slices of cork, while Leeuwenhoek described tiny ‘animalcules’, invisible to the naked eye, in rain water in 1676. The implication is that these breakthroughs in microscopic biology involved more than a little guesswork and invention. But Ford has looked again at the capabilities of some of Leeuwenhoek’s microscopes, and says ‘the results were breathtaking’. ‘The images were comparable with those you would obtain from a modern light microscope’, he adds in an account of his experiments in Microscopy and Analysis [1].

So if syphilis causes AIDS, and not HIV, where is the evidence? As microbiologist and epidemiolist Tara Smith points out in her excellent blog, Margulis offers none. Instead, she says to the credulous and uncritical interviewer: The idea that penicillin kills the cause of the disease is nuts. If you treat the painless chancre in the first few days of infection, you may stop the bacterium before the symbiosis develops, but if you really get syphilis, all you can do is live with the spirochete. The spirochete lives permanently as a symbiont in the patient. The infection cannot be killed because it becomes part of the patient’s genome and protein synthesis biochemistry. After syphilis establishes this symbiotic relationship with a person, it becomes dependent on human cells and is undetectable by any testing. Great. Just what we need: an untestable hypothesis promoted by assertion and reputation, not something concrete that scientists could test (although most specialists in microbiology would say the evidence is clear that the HIV retrovirus, and not the spirochaete bacterium Treponema pallidum, is the true cause of AIDS).

Has she never actually LOOKED at the hundreds of peer-reviewed scientific papers documenting the structure of the HIV virus, and the clear documentation of that virus in patients that suffer and die from AIDS? Or the fact that patients treated with anti-retrovirals manage to suppress their AIDS symptoms? Or the disaster in South Africa, when the government became active AIDS deniers, spread misinformation and myths about AIDS, and the infection rate shot up? Not even the hard-core AIDS deniers like Peter Duesberg deny that the HIV virus exists!

she slips outside the realm of science entirely, and becomes a full-fledged AIDS denier. My jaw just dropped when I read the following: There is a vast body of literature on syphilis spanning from the 1500s until after World War II, when the disease was supposedly cured by penicillin. It’s in our paper “Resurgence of the Great Imitator.” Our claim is that there’s no evidence that HIV is an infectious virus, or even an entity at all. There’s no scientific paper that proves that the HIV virus causes AIDS. Kary Mullis said in an interview that he went looking for a reference substantiating that HIV causes AIDS and discovered, “There is no such document.”