I'm cautiously skeptical, but it's good to listen.
"Last year researchers at one biotech firm, Amgen, found they could reproduce just six of 53 “landmark” studies in cancer research. Earlier, a group at Bayer, a drug company, managed to repeat just a quarter of 67 similarly important papers. A leading computer scientist frets that three-quarters of papers in his subfield are bunk. In 2000-10 roughly 80,000 patients took part in clinical trials based on research that was later retracted because of mistakes or improprieties.
...failures to prove a hypothesis are rarely even offered for publication, let alone accepted. “Negative results” now account for only 14% of published papers, down from 30% in 1990. Yet knowing what is false is as important to science as knowing what is true. The failure to report failures means that researchers waste money and effort exploring blind alleys already investigated by other scientists.
Over the past few years various researchers have made systematic attempts to replicate some of the more widely cited priming experiments. [JAC: These are studies in which exposure to a stimulus before taking a test can dramatically affect the results of that test.] Many of these replications have failed. In April, for instance, a paper in PLoS ONE, a journal, reported that nine separate experiments had not managed to reproduce the results of a famous study from 1998 purporting to show that thinking about a professor before taking an intelligence test leads to a higher score than imagining a football hooligan.
Academic scientists readily acknowledge that they often get things wrong. But they also hold fast to the idea that these errors get corrected over time as other scientists try to take the work further. Evidence that many more dodgy results are published than are subsequently corrected or withdrawn calls that much-vaunted capacity for self-correction into question. [JAC: Many experiments, particularly in organismal biology, are not repeated, nor form the basis of subsequent research. And the dodgy results can be seen by looking at obvious errors in published papers—papers that are not withdrawn or corrected.
...consider 1,000 hypotheses being tested of which just 100 are true (see chart). Studies with a power of 0.8 will find 80 of them, missing 20 because of false negatives. Of the 900 hypotheses that are wrong, 5%—that is, 45 of them—will look right because of type I errors. Add the false positives to the 80 true positives and you have 125 positive results, fully a third of which are specious. If you dropped the statistical power from 0.8 to 0.4, which would seem realistic for many fields, you would still have 45 false positives but only 40 true positives. More than half your positive results would be wrong.
John Bohannon, a biologist at Harvard, recently submitted a pseudonymous paper on the effects of a chemical derived from lichen on cancer cells to 304 journals describing themselves as using peer review. An unusual move; but it was an unusual paper, concocted wholesale and stuffed with clangers in study design, analysis and interpretation of results. Receiving this dog’s dinner from a fictitious researcher at a made up university, 157 of the journals accepted it for publication.Dr Bohannon’s sting was directed at the lower tier of academic journals. But in a classic 1998 study Fiona Godlee, editor of the prestigious British Medical Journal, sent an article containing eight deliberate mistakes in study design, analysis and interpretation to more than 200 of the BMJ’s regular reviewers. Not one picked out all the mistakes. On average, they reported fewer than two; some did not spot any.
I find this next one very disturbing (my emphasis):
Fraud is very likely second to incompetence in generating erroneous results, though it is hard to tell for certain. Dr Fanelli has looked at 21 different surveys of academics (mostly in the biomedical sciences but also in civil engineering, chemistry and economics) carried out between 1987 and 2008. Only 2% of respondents admitted falsifying or fabricating data, but 28% of respondents claimed to know of colleagues who engaged in questionable research practices.
And one more, which is pretty disturbing as well:
Christine Laine, the editor of the Annals of Internal Medicine, told the peer-review congress in Chicago that five years ago about 60% of researchers said they would share their raw data if asked; now just 45% do. Journals’ growing insistence that at least some raw data be made available seems to count for little: a recent review by Dr Ioannidis which showed that only 143 of 351 randomly selected papers published in the world’s 50 leading journals and covered by some data-sharing policy actually complied."
https://whyevolutionistrue.wordpress.com/2013/10/22/science-is-in-bad-shape/
Sister blog of Physicists of the Caribbean in which I babble about non-astronomy stuff, because everyone needs a hobby
Subscribe to:
Post Comments (Atom)
Review : Pagan Britain
Having read a good chunk of the original stories, I turn away slightly from mythological themes and back to something more academical : the ...
-
"To claim that you are being discriminated against because you have lost your right to discriminate against others shows a gross lack o...
-
I've noticed that some people care deeply about the truth, but come up with batshit crazy statements. And I've caught myself rationa...
-
For all that I know the Universe is under no obligation to make intuitive sense, I still don't like quantum mechanics. Just because some...
Definitely worth sharing.
ReplyDeleteEvolutionists are in trouble speaking gibberish.
ReplyDeleteQuoth the creationist. Over the internet.
ReplyDeleteMade me laugh with that one. Let's ask Jungle Jargon about 1000 creation hypothesis of which none of them are true. What's the likelihood of any of them being true when a study of them has a power of 0.8?
ReplyDeleteIronic thing about the article is it changes the odds of science getting it right by just being published.
Fred Beckhusen Object credit givers can't get it right because mindless objects can't make any directed working part of you. Your belief has no basis. It is not science.
ReplyDeleteRhys Taylor I have to hear that rubbish every day and you can't have any peer review?
ReplyDeleteDid you even read the article ?
ReplyDelete"Let me end by saying that religious people and those who are “anti-scientism” will jump all over these articles, claiming that science can’t be trusted at all—that it’s rife with incompetence and even corruption. Well, there’s more of that stuff than I’d like, but when you look at all the advances in biology (DNA sequencing, for example), chemistry, physics, and medicine over the past few decades, and see how many important results have been replicated or at least re-tested by other investigators, one sees that science is still homing in, asymptotically, on the facts. In contrast, religion has made no progress, and academic humanities often seems to wend themselves into dead ends like postmodernism."
Rhys Taylor Those advances you mentioned don't require a belief in evolution so evolution is always an afterthought rather than an essential.
ReplyDeleteBunyip Bonsai The universe is what God forced into existence. Biology is significantly sequenced to be what it is.
ReplyDeleteJungle Jargon The topic at hand is the quality of peer review.. Not evolution or the nature of reality or the existence of turnips. And Bunyip Bonsai is correct, it is you are speaking gibberish. Literally, you are not even using words correctly, as usual.
ReplyDeleteRhys Taylor Another example of poor peer review is the belief in evolution. Unrelated mutations never account for a genome to be mutated and unrelated changes can never bring about essential parts of the genome that are not there. Teachers have the greater responsibility not to be teaching so much nonsense.
ReplyDelete