Many scientists also believe that the publishing industry exerts too much influence over what scientists choose to study, which is ultimately bad for science itself. Journals prize new and spectacular results – after all, they are in the business of selling subscriptions – and scientists, knowing exactly what kind of work gets published, align their submissions accordingly. This produces a steady stream of papers, the importance of which is immediately apparent. But it also means that scientists do not have an accurate map of their field of inquiry. Researchers may end up inadvertently exploring dead ends that their fellow scientists have already run up against, solely because the information about previous failures has never been given space in the pages of the relevant scientific publications. [. . .] Today, every scientist knows that their career depends on being published, and professional success is especially determined by getting work into the most prestigious journals. The long, slow, nearly directionless work pursued by some of the most influential scientists of the 20th century is no longer a viable career option. Under today’s system, the father of genetic sequencing, Fred Sanger, who published very little in the two decades between his 1958 and 1980 Nobel prizes, may well have found himself out of a job.

Stephan Buranyi, Is the staggeringly profitable business of scientific publishing bad for science?

I know everyone wants to tear down Apple, Tesla, Facebook, Google etc. but if you ever just realized the level of scamming and loot that goes on in the field of academic publishing, you would straight up pick up your pitchforks and axes and burn down the offices of Elsevier and others.

Till then I suggest please use scihub (currently at https://sci-hub.se/) and libgen (http://libgen.rs/). In case you are unable to find them at this domain you can search ‘where is sci-hub’ and get the latest domains.

Teszem hozzá Magyarországon az egyetemeken is van, hogy a Sci-Hub meg a libgen az egyetlen módja a tudományos cikkekhez való hozzáférésnek.

Meg azt, hogy ami pénzt amúgy fizetnél a tudományos cikkekért, abból a szerzők érdemben semmit sem látnak. (Sőt, sokszor inkább veszítenek az egészen.)

Illetve, hogy a tudományhoz való hozzáférés nem pénzkérdés kellene legyen.

De hát ez a világ rendje, nyilván nem szabad illegálisan letölteni cikkeket. Milyen dolog lenne az?

Ajánlott olvasmány:

Definitely not writing these down 🤐👀

The core of Elsevier’s operation is in scientific journals, the weekly or monthly publications in which scientists share their results. Despite the narrow audience, scientific publishing is a remarkably big business. With total global revenues of more than £19bn, it weighs in somewhere between the recording and the film industries in size, but it is far more profitable. In 2010, Elsevier’s scientific publishing arm reported profits of £724m on just over £2bn in revenue. It was a 36% margin – higher than Apple, Google, or Amazon posted that year.

But Elsevier’s business model seemed a truly puzzling thing. In order to make money, a traditional publisher – say, a magazine – first has to cover a multitude of costs: it pays writers for the articles; it employs editors to commission, shape and check the articles; and it pays to distribute the finished product to subscribers and retailers. All of this is expensive, and successful magazines typically make profits of around 12-15%.

This is a really neat article on how; as per usual; the reason the state of science/science journals is so fucked is because of some “enterprising” asshole taking over the business and making it an engine that prioritized profit over actually working decently. CAPTIALISM Y’ALL!

Is the staggeringly profitable business of scientific publishing bad for science? http://ift.tt/2th1YDr

Since the early 2000s, scientists have championed an alternative to subscription publishing called “open access”. This solves the difficulty of balancing scientific and commercial imperatives by simply removing the commercial element. In practice, this usually takes the form of online journals, to which scientists pay an upfront free to cover editing costs, which then ensure the work is available free to access for anyone in perpetuity. But despite the backing of some of the biggest funding agencies in the world, including the Gates Foundation and the Wellcome Trust, only about a quarter of scientific papers are made freely available at the time of their publication. The idea that scientific research should be freely available for anyone to use is a sharp departure, even a threat, to the current system – which relies on publishers’ ability to restrict access to the scientific literature in order to maintain its immense profitability. In recent years, the most radical opposition to the status quo has coalesced around a controversial website called Sci-Hub – a sort of Napster for science that allows anyone to download scientific papers for free. Its creator, Alexandra Elbakyan, a Kazhakstani, is in hiding, facing charges of hacking and copyright infringement in the US. Elsevier recently obtained a $15m injunction (the maximum allowable amount) against her. Elbakyan is an unabashed utopian. “Science should belong to scientists and not the publishers,” she told me in an email. In a letter to the court, she cited Article 27 of the UN’s Universal Declaration of Human Rights, asserting the right “to share in scientific advancement and its benefits”. Whatever the fate of Sci-Hub, it seems that frustration with the current system is growing. But history shows that betting against science publishers is a risky move. After all, back in 1988, Maxwell predicted that in the future there would only be a handful of immensely powerful publishing companies left, and that they would ply their trade in an electronic age with no printing costs, leading to almost “pure profit”. That sounds a lot like the world we live in now.

Stephen Buranyi, Is the staggeringly profitable business of scientific publishing bad for science?

In 2011, Claudio Aspesi, a senior investment analyst at Bernstein Research in London, made a bet that the dominant firm in one of the most lucrative industries in the world was headed for a crash. Reed-Elsevier, a multinational publishing giant with annual revenues exceeding £6bn, was an investor’s darling. It was one of the few publishers that had successfully managed the transition to the internet, and a recent company report was predicting yet another year of growth. Aspesi, though, had reason to believe that that prediction – along with those of every other major financial analyst – was wrong.                    

The core of Elsevier’s operation is in scientific journals, the weekly or monthly publications in which scientists share their results. Despite the narrow audience, scientific publishing is a remarkably big business. With total global revenues of more than £19bn, it weighs in somewhere between the recording and the film industries in size, but it is far more profitable. In 2010, Elsevier’s scientific publishing arm reported profits of £724m on just over £2bn in revenue. It was a 36% margin – higher than Apple, Google, or Amazon posted that year.

But Elsevier’s business model seemed a truly puzzling thing. In order to make money, a traditional publisher – say, a magazine – first has to cover a multitude of costs: it pays writers for the articles; it employs editors to commission, shape and check the articles; and it pays to distribute the finished product to subscribers and retailers. All of this is expensive, and successful magazines typically make profits of around 12-15%.

The way to make money from a scientific article looks very similar, except that scientific publishers manage to duck most of the actual costs. Scientists create work under their own direction – funded largely by governments – and give it to publishers for free; the publisher pays scientific editors who judge whether the work is worth publishing and check its grammar, but the bulk of the editorial burden – checking the scientific validity and evaluating the experiments, a process known as peer review – is done by working scientists on a volunteer basis. The publishers then sell the product back to government-funded institutional and university libraries, to be read by scientists – who, in a collective sense, created the product in the first place.

It is as if the New Yorker or the Economist demanded that journalists write and edit each other’s work for free, and asked the government to foot the bill. Outside observers tend to fall into a sort of stunned disbelief when describing this setup. A 2004 parliamentary science and technology committee report on the industry drily observed that “in a traditional market suppliers are paid for the goods they provide”. A 2005 Deutsche Bank report referred to it as a “bizarre” “triple-pay” system, in which “the state funds most research, pays the salaries of most of those checking the quality of research, and then buys most of the published product”.

Scientists are well aware that they seem to be getting a bad deal. The publishing business is “perverse and needless”, the Berkeley biologist Michael Eisen wrote in a 2003 article for the Guardian, declaring that it “should be a public scandal”. Adrian Sutton, a physicist at Imperial College, told me that scientists “are all slaves to publishers. What other industry receives its raw materials from its customers, gets those same customers to carry out the quality control of those materials, and then sells the same materials back to the customers at a vastly inflated price?” (A representative of RELX Group, the official name of Elsevier since 2015, told me that it and other publishers “serve the research community by doing things that they need that they either cannot, or do not do on their own, and charge a fair price for that service”.)

Many scientists also believe that the publishing industry exerts too much influence over what scientists choose to study, which is ultimately bad for science itself. Journals prize new and spectacular results – after all, they are in the business of selling subscriptions – and scientists, knowing exactly what kind of work gets published, align their submissions accordingly. This produces a steady stream of papers, the importance of which is immediately apparent. But it also means that scientists do not have an accurate map of their field of inquiry. Researchers may end up inadvertently exploring dead ends that their fellow scientists have already run up against, solely because the information about previous failures has never been given space in the pages of the relevant scientific publications. A 2013 study, for example, reported that half of all clinical trials in the US are never published in a journal.

According to critics, the journal system actually holds back scientific progress. In a 2008 essay, Dr Neal Young of the National Institutes of Health (NIH), which funds and conducts medical research for the US government, argued that, given the importance of scientific innovation to society, “there is a moral imperative to reconsider how scientific data are judged and disseminated”.

Aspesi, after talking to a network of more than 25 prominent scientists and activists, had come to believe the tide was about to turn against the industry that Elsevier led. More and more research libraries, which purchase journals for universities, were claiming that their budgets were exhausted by decades of price increases, and were threatening to cancel their multi-million-pound subscription packages unless Elsevier dropped its prices. State organisations such as the American NIH and the German Research Foundation (DFG) had recently committed to making their research available through free online journals, and Aspesi believed that governments might step in and ensure that all publicly funded research would be available for free, to anyone. Elsevier and its competitors would be caught in a perfect storm, with their customers revolting from below, and government regulation looming above.

In March 2011, Aspesi published a report recommending that his clients sell Elsevier stock. A few months later, in a conference call between Elsevier management and investment firms, he pressed the CEO of Elsevier, Erik Engstrom, about the deteriorating relationship with the libraries. He asked what was wrong with the business if “your customers are so desperate”. Engstrom dodged the question. Over the next two weeks, Elsevier stock tumbled by more than 20%, losing £1bn in value. The problems Aspesi saw were deep and structural, and he believed they would play out over the next half-decade – but things already seemed to be moving in the direction he had predicted.

Over the next year, however, most libraries backed down and committed to Elsevier’s contracts, and governments largely failed to push an alternative model for disseminating research. In 2012 and 2013, Elsevier posted profit margins of more than 40%. The following year, Aspesi reversed his recommendation to sell. “He listened to us too closely, and he got a bit burned,” David Prosser, the head of Research Libraries UK, and a prominent voice for reforming the publishing industry, told me recently. Elsevier was here to stay.

Aspesi was not the first person to incorrectly predict the end of the scientific publishing boom, and he is unlikely to be the last. It is hard to believe that what is essentially a for-profit oligopoly functioning within an otherwise heavily regulated, government-funded enterprise can avoid extinction in the long run. But publishing has been deeply enmeshed in the science profession for decades. Today, every scientist knows that their career depends on being published, and professional success is especially determined by getting work into the most prestigious journals. The long, slow, nearly directionless work pursued by some of the most influential scientists of the 20th century is no longer a viable career option. Under today’s system, the father of genetic sequencing, Fred Sanger, who published very little in the two decades between his 1958 and 1980 Nobel prizes, may well have found himself out of a job.

Even scientists who are fighting for reform are often not aware of the roots of the system: how, in the boom years after the second world war, entrepreneurs built fortunes by taking publishing out of the hands of scientists and expanding the business on a previously unimaginable scale. And no one was more transformative and ingenious than Robert Maxwell, who turned scientific journals into a spectacular money-making machine that bankrolled his rise in British society. Maxwell would go on to become an MP, a press baron who challenged Rupert Murdoch, and one of the most notorious figures in British life. But his true importance was far larger than most of us realise. Improbable as it might sound, few people in the last century have done more to shape the way science is conducted today than Maxwell.

Keep reading here.

Inside the economics of scientific publishing, an industry that’s somehow nearly as profitable as film and has changed the course of science in the process.

Stephen Buranyi | The Guardian | Jun 2017

In order to make money, a traditional publisher – say, a magazine – first has to cover a multitude of costs: it pays writers for the articles; it employs editors to commission, shape and check the articles; and it pays to distribute the finished product to subscribers and retailers. All of this is expensive, and successful magazines typically make profits of around 12-15%.

The way to make money from a scientific article looks very similar, except that scientific publishers manage to duck most of the actual costs. Scientists create work under their own direction – funded largely by governments – and give it to publishers for free; the publisher pays scientific editors who judge whether the work is worth publishing and check its grammar, but the bulk of the editorial burden – checking the scientific validity and evaluating the experiments, a process known as peer review – is done by working scientists on a volunteer basis. The publishers then sell the product back to government-funded institutional and university libraries, to be read by scientists – who, in a collective sense, created the product in the first place.

It is as if the New Yorker or the Economist demanded that journalists write and edit each other’s work for free, and asked the government to foot the bill. Outside observers tend to fall into a sort of stunned disbelief when describing this setup. A 2004 parliamentary science and technology committee report on the industry drily observed that “in a traditional market suppliers are paid for the goods they provide”. A 2005 Deutsche Bank report referred to it as a “bizarre” “triple-pay” system, in which “the state funds most research, pays the salaries of most of those checking the quality of research, and then buys most of the published product”.

Scientists are well aware that they seem to be getting a bad deal. The publishing business is “perverse and needless”, the Berkeley biologist Michael Eisen wrote in a 2003 article for the Guardian, declaring that it “should be a public scandal”. Adrian Sutton, a physicist at Imperial College, told me that scientists “are all slaves to publishers. What other industry receives its raw materials from its customers, gets those same customers to carry out the quality control of those materials, and then sells the same materials back to the customers at a vastly inflated price?” (A representative of RELX Group, the official name of Elsevier since 2015, told me that it and other publishers “serve the research community by doing things that they need that they either cannot, or do not do on their own, and charge a fair price for that service”.)

Is the staggeringly profitable business of scientific publishing bad for science? via Digg http://ift.tt/2sibOQn It is an industry like no other, with profit margins to rival Google – and it was created by one of Britain’s most notorious tycoons: Robert Maxwell.

Is the staggeringly profitable business of scientific publishing bad for science?

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