Astral Codex Ten

Royal Society

34 min read

Royal Society

Article

Royal Society is a recurring organization in the Astral Codex Ten archive, appearing 4 times across 4 issues between November 09, 2021 and May 29, 2025. The archive places it in contexts such as “Thomas Huxley was President of the Royal Society”; “you can’t just write a note to the Royal Society describing it”; “Philosophical Transactions of the Royal Society”. It most often appears alongside Aldous Huxley, Charles Darwin, Gavin Newsom.

Metadata

  • Category: Organizations
  • Mention count: 4
  • Issue count: 4
  • First seen: November 09, 2021
  • Last seen: May 29, 2025

Appears In

Source Context

Recovered passages from the original issue text. When the raw archive preserved outbound links inside the source passage, they are listed directly under the quote.

Secrets Of The Great Families
November 09, 2021 · Original source
Aldous Huxley was an author most famous for Brave New World, though his other work is also great and underappreciated. His brother Julian Huxley founded UNESCO and the World Wildlife Fund and coined the terms "ethnic group", "cline", and "transhumanism". Their half-brother Andrew Huxley won the Nobel Prize in Medicine for discovering how nerves work. Their grandfather was Thomas Huxley, one of the first and greatest advocates of evolution, and President of the Royal Society.
Inline links: Aldous Huxley, Julian Huxley, Andrew Huxley, Thomas Huxley
Charles Darwin discovered the theory of evolution. His grandfather Erasmus Darwin also groped towards some kind of proto-evolutionary theory, made contributions in botany and pathology, and founded the influential Lunar Society of scientists. His other grandfather Josiah Wedgwood was a pottery tycoon who "pioneered direct mail, money back guarantees, self-service, free delivery, buy one get one free, and illustrated catalogues" and became "one of the wealthiest entrepreneurs of the 18th century". Charles' cousin Francis Galton invented the modern fields of psychometrics, meteorology, eugenics, and statistics (including standard deviation, correlation, and regression). Charles' son Sir George Darwin, an astronomer, became president of the Royal Astronomical Society and another Royal Society fellow. Charles' other son Leonard Darwin, became a major in the army, a Member of Parliament, President of the Royal Geography Society, and a mentor and patron to Ronald Fisher, another pioneer of modern statistics. Charles' grandson Charles Galton Darwin invented the Darwin-Fowler method in statistics, the Darwin Curve in diffraction physics, Darwin drift in fluid dynamics, and was the director of the UK's National Physical Laboratory (and vaguely involved in the Manhattan Project).
Inline links: Charles Darwin, Erasmus Darwin, Josiah Wedgwood, Francis Galton, Sir George Darwin, Leonard Darwin, Charles Galton Darwin
Highlights From The Comments On Great Families
November 18, 2021 · Original source
You're not allowed to do that today. If you notice something funny, you can't just write a note to the Royal Society describing it. You've got to find a theorist to come up with a theory, and experimentalists to devise and carry out a test, and a statistician to evaluate the test; and you have to do the whole process before you can publish anything.
Your Book Review: Making Nature
May 20, 2022 · Original source
For an actual hierarchy of journals based on citation data, see this paper, which puts Nature and Science at the top. Might be worth mentioning that it comes from a journal in the Nature Publishing Group family. Leaving aside Cell, a more specialized biology journal that seems to have gotten into the CNS acronym the same way Netflix got into the FAANG acronym, Nature and Science are very similar. They both publish articles in all scientific fields. They both date from the 19th century. They’re published weekly. They jointly won a fancy prize for services to humanity in 2007. And having your paper in either is one of the best things that can happen to a scientist’s career, thanks to their immense prestige. But how, exactly, did Nature and Science become so prestigious? This is the question I hoped Making Nature: The History of a Scientific Journal, a 2015 book by historian of science Melinda Baldwin, might answer. It focuses on Nature, but much of its lessons can likely be extrapolated to Science considering their similarity. I grew curious about this when I realized that most researchers treat journal prestige as a given. Everyone knows that Nature and Science matter enormously, yet few would be able to say why exactly. But this is important! Prestigious institutions, from universities to media companies to major sports competitions, have a huge impact on the world. It’s useful to understand how they came to be, beyond “being famous for being famous.” One reason this is more difficult than it sounds is that we often settle for superficial answers. Selectivity, for instance, is a common explanation: prestige simply comes from obtaining what is hard to obtain, such as a Harvard degree, an Olympic medal or a Nobel Prize. Nature is indeed highly selective, accepting less than 10% of submitted articles (and the vast majority of papers are not even deemed worthy of a submission to Nature by their authors). Yet harsh selectivity alone cannot explain prestige, or it would be trivial to launch a prestigious journal or university just by setting an artificially low acceptance rate. Another facile explanation is longevity. It’s true that prestigious institutions are often old, and indeed Nature has been around for more than 150 years since its birth in 1869. Science is only slightly younger, having been founded in 1880. But there are many older scientific journals: the oldest one, the Philosophical Transactions of the Royal Society, was created two hundred years before Nature, in 1665. Then there are more recent publications that are prestigious: Cell, for instance, was founded in 1974. The correlation between prestige and longevity is real, but imperfect. It also says nothing of causation: does longevity cause prestige, or does prestige cause longevity? What matters is not the span of time per se, but the specific events that happened — in other words, the history. Making Nature, while not specifically about prestige, gives us exactly that. We’ll first examine the origins of Nature and how it disrupted the publishing landscape of its time (Part I). Then we’ll study the factors that allowed it to build a reputation during its first century of existence (Part II). We’ll end with a focus on the 1970s, when selectivity and prestige suddenly became important to Nature and scientific publishing in general (Part III). I. On the Origins of Nature The story begins with Nature’s founder and first editor, Norman Lockyer. Lockyer had a cushy job as a civil servant in the British government, but dabbled in astronomy in his spare time. In the 19th century, dabbling in astronomy in your spare time could be an intellectually productive hobby: the line between professional and amateur science was blurrier then, and it wasn’t hard to contribute original research even without formal training. During the 1860s, Lockyer published several papers on astronomical observations, the most consequential of which might be the co-discovery and naming of the element helium, from his studies of the sun. His reputation grew among the “men of science” (as scientists called themselves then) of Victorian Britain, and he was soon elected to the Royal Society. But astronomy was an expense, not a source of income. Lockyer routinely supplemented his government job by writing nonspecialist scientific articles and books for a lay audience. Then, one day, he had an idea for a new kind of publication. It would be a weekly periodical to disseminate scientific knowledge to the broader public — but unlike the other periodicals that existed at the time, it would be written by the prominent men of science themselves. It would have a simple, evocative name: Nature. Lockyer summarized the two aims of Nature like this: FIRST, to place before the general public the grand results of Scientific Work and Scientific Discovery, and to urge the claims of Science to a more general recognition in Education and in Daily Life; And, SECONDLY, to aid Scientific men themselves, by giving early information of all advances made in any branch of Natural knowledge throughout the world, and by affording them an opportunity of discussing the various Scientific questions which arise from time to time. In other words (and getting rid of the old-fashioned capitalization of random adjectives and nouns), Nature was meant to do two things: communication from scientists to the public, and communication among scientists. It was an interesting idea. It was also a new one; until then the two aims had been separate. Recall that scientific journals have existed since 1665. During their first two hundred years, they primarily served to record the meetings of learned societies. The Philosophical Transactions of the Royal Society were originally just that: summaries of whatever “philosophical” questions were discussed at the Royal Society. Aside from journals, specialized books were common and were in fact the higher-status way to communicate science in Victorian Britain. Charles Darwin’s On the Origins of Species, published in 1859, is the most famous example. Informal correspondence between scientists was also a major, but private, channel: Darwin wrote more than 15,000 letters in his lifetime, enough to fill 30 volumes. With the exception of some books, none of the above were intended for laypeople. Educated non-scientists (professionals, clergymen, statesmen, etc.) instead got their science news from generalist or literary periodicals such as the Athenaeum magazine. The articles in those publications were not written by specialists, but by journalists and dilettantes. Lockyer’s view, shared with his close supporter Thomas Huxley — a biologist known for defending Darwinian evolution — was that they were riddled with errors and theological overtones. It would be better, they thought, if scientists did the work of communicating their research themselves. It was bold of Lockyer and Huxley to assume that scientists would be interested in doing this communication work. They weren’t. Almost immediately after Nature was founded, its contributors ignored the popularization part (“not a high-status undertaking,” Baldwin’s book says) and focused on the intra-science communication part. They did write summaries and abstracts of their own research, as Lockyer had intended, but they expected that their readers would be other men of science. Within three years, the educated laypeople who were Lockyer’s target audience were complaining that they could no longer understand the contents. Thus the first of Nature’s two aims was met mostly with failure. Fortunately, this was balanced out by unexpected success at the second aim. Scientists did actually enjoy writing for Lockyer’s magazine, in large part because it was published weekly. They found that writing a summary of their own research in Nature was an excellent way to share their results quickly and gain attention from other scientists. Books were slow; Darwin took many years to write and publish On the Origin of Species, for instance. The journals of scientific societies were slow; you had to wait for a meeting to take place and then for the meeting’s “transactions” to be published. Private correspondence was fast, but it wasn’t public. Through publication speed, as well as other factors as we’ll see below, Nature filled a niche in the ecosystem. It was the Twitter of 19th-century British science. Soon enough, this model would be copied, most notably by the journal Science in 1880. According to its first editor, Science was explicitly meant to, “in the United States, take the position which ‘Nature’ so ably occupies in England.” In just a few years, Nature had disrupted scientific publishing and established itself as a useful and unique institution of science, recognized by specialists both in the UK and abroad. First page of the first edition of Nature, 4 November 1869 II. One Hundred Years of Building a Reputation Despite its popularity, Nature didn’t become prestigious overnight. Far from it, in fact. Making Nature often reminds us that the journal spent most of its history as a low-grade publication where anything could be printed quickly, as long as it was factually correct. (This was ensured by basic checks from the editorial team; Nature articles were not consistently peer-reviewed until the 1970s.) As late as the 1960s, a researcher publishing a preliminary report in Nature was expected to follow up with a longer paper “in a more serious journal.” In other words, Nature delivered quick and cheap distribution, not luxury brand approval. This changed about fifty years ago, as we’ll see in Part III. But to understand what happened then, we first need to examine the characteristics of the journal in the roughly 100-year period from its early days until prestige took over, starting with a deeper look into publication speed. Publication Speed John Maddox, editor of Nature in the late 20th century, said that “one of Nature’s greatest early assets was the speed of the Royal Mail.” You could write to Nature, be published within a week, and read the replies to your communication within two weeks. This was state-of-the-art communication tech! Consider how many times publication speed is mentioned throughout the first half of the book (emphasis mine): What made Nature unique was, in large part, its ability to act as a venue for . . . discussions via its correspondence columns and its weekly publication schedule. (p. 8) Many British men of science found that one of the fastest ways to bring a scientific issue or idea to their fellow researchers’ attention was to send a communication to Nature. (p. 39) Unlike the literary periodicals, there was almost no delay between the submission of a piece and its appearance in the journal. (p. 63) A second reason Nature’s speed of publication would have been compelling to men of science is that getting one’s work into print quickly had become an increasingly essential part of establishing priority for a scientific finding or theory. (p. 65) Scientific weeklies [such as Nature] played a unique role in researchers’ publishing strategies at the end of the nineteenth century by offering researchers a forum where short articles could be printed quickly. (p. 105) Both the Proceedings [of the Royal Society of London] and the Philosophical Magazine had significant lag times between submission and publication . . ., which made Nature and its weekly turnaround uniquely valuable for the priority-conscious Rutherford. (p. 109) [Rutherford] sent his most interesting experimental results [to Nature] immediately, both as a way of keeping his colleagues updated on his work and as insurance against being scooped as he had in 1899. (p. 112) These quotes highlight two distinct reasons why speed was important. The first, as I hinted at earlier, was Nature’s role as the аcademic social media of its time. It was simply the best way to have discussions about scientific topics — or science itself — that could, unlike private correspondence, reach a large audience. More on this in the next section. The second reason, as shown by the mentions of physicist Ernest Rutherford, was establishing priority. Today we take for granted that being the first to publish new ideas or results is important, but in the 19th century this was less clear. To bring up Darwin as an example again, he kept his thoughts on evolution private for many years, because he wanted to make sure his argument was sound before he submitted it to the public (although he did eventually sense the urgency of publishing the theory before Alfred Russel Wallace did). But as science became professionalized, “not being scooped” became more and more crucial, and the weekly Nature was a good tool to avoid that. All this talk of speed may surprise anyone who has recently submitted a paper to Nature. In 2016, an analysis revealed that the median time for Nature to review a paper was 150 days, i.e. 5 months, up from 85 days a decade earlier. Nature itself reports, for the year 2020, a median time of 226 days between submission and acceptance. We’re a long way from “less than a week.” Why was there a decrease in publication speed? As we might expect, the reason was Nature’s growing popularity, especially among the international scientific community. At least, that’s what happened the first time there was a slowdown, in the mid-20th century. Early on, Nature was a journal for and by British scientists. But in the first half of the 20th century, science in general and Nature in particular began to involve much more collaboration between researchers across borders. It was a big deal, for instance, when a foreign government banned Nature, as Nazi Germany did in 1938; German researchers had been using it as an important source of scientific news. The ban was furthermore covered in non-British media, such as The New York Times, indicating that the journal was internationally newsworthy. Such an increase in international readership meant more letters and articles sent to the editors, and by the 1950s, there was such a backlog that submissions needed to be held for six months or more. In the 1960s, the new editor John Maddox recognized this as a problem. He began his editorship by clearing the backlog, and even printed the date of submission along with each scientific paper to show everyone how quick Nature was at reviewing articles (“often within a month,” Baldwin’s book says). Clearly, Maddox thought that restoring the speedy reputation of the journal was important. He seems to have succeeded, for a time. As late as 1989, during a controversy around cold fusion, a Wall Street Journal article said that Nature was still fast: it was able to print papers “in as little as three weeks instead of the more usual lead time of six to twelve months for other scientific publications.” Thus, despite a dip in the middle of the century due to its popularity and international reach, speedy publication was still an important characteristic of Nature in the 1970s. A second — and so far permanent — decrease occurred more recently, perhaps as a result of prestige and the competition of near-instantaneous online platforms, but that’s another story. Network Effects As of 2022, scientists argue in public on Twitter, blogs, and other online platforms, like ResearchHub. In the 19th century, Twitter and ResearchHub hadn’t been invented [citation needed]. Fortunately, Nature was there. A network effect occurs when the value of a product comes primarily from the people who use it. If there are two competing telephone systems, the most valuable one is whichever has the most users (or at least the users you want to talk to). If you create an improved Twitter clone, then all its amazing features won’t do much if you don’t somehow manage to capture Twitter’s network of several million people. Likewise, Nature became an interesting journal to read and contribute to because it gained the attention of Britain’s scientific elite as the place to discuss big science questions. This role as a forum was a constant in Nature’s history, as Making Nature shows with several detailed accounts of debates that took place within the journal’s pages. Some examples: Controversies over the age of the Earth in the 1880s.
Inline links: this paper, a fancy prize for services to humanity, https://press.uchicago.edu/ucp/books/book/chicago/M/bo20298849.html, https://substackcdn.com/image/fetch/$s_!oY23!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fbucketeer-e05bbc84-baa3-437e-9518-adb32be77984.s3.amazonaws.com%2Fpublic%2Fimages%2F99a28e6f-d976-477a-8d14-f47510a23908_200x300.jpeg, https://substackcdn.com/image/fetch/$s_!glJ9!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fbucketeer-e05bbc84-baa3-437e-9518-adb32be77984.s3.amazonaws.com%2Fpublic%2Fimages%2F873e6e2d-15a6-4b31-954b-f24fcd5e0e23_794x1024.jpeg, more than 15,000 letters, https://en.wikipedia.org/wiki/The_Athenaeum_(British_magazine), took many years, https://substackcdn.com/image/fetch/$s_!GYj8!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fbucketeer-e05bbc84-baa3-437e-9518-adb32be77984.s3.amazonaws.com%2Fpublic%2Fimages%2Fa4f03221-7d79-42f6-bf6c-35d90fe3f7e5_1142x1600.jpeg, revealed, reports, ResearchHub
Lockyer had a cushy job as a civil servant in the British government, but dabbled in astronomy in his spare time. In the 19th century, dabbling in astronomy in your spare time could be an intellectually productive hobby: the line between professional and amateur science was blurrier then, and it wasn’t hard to contribute original research even without formal training. During the 1860s, Lockyer published several papers on astronomical observations, the most consequential of which might be the co-discovery and naming of the element helium, from his studies of the sun. His reputation grew among the “men of science” (as scientists called themselves then) of Victorian Britain, and he was soon elected to the Royal Society. But astronomy was an expense, not a source of income. Lockyer routinely supplemented his government job by writing nonspecialist scientific articles and books for a lay audience. Then, one day, he had an idea for a new kind of publication. It would be a weekly periodical to disseminate scientific knowledge to the broader public — but unlike the other periodicals that existed at the time, it would be written by the prominent men of science themselves. It would have a simple, evocative name: Nature. Lockyer summarized the two aims of Nature like this: FIRST, to place before the general public the grand results of Scientific Work and Scientific Discovery, and to urge the claims of Science to a more general recognition in Education and in Daily Life; And, SECONDLY, to aid Scientific men themselves, by giving early information of all advances made in any branch of Natural knowledge throughout the world, and by affording them an opportunity of discussing the various Scientific questions which arise from time to time. In other words (and getting rid of the old-fashioned capitalization of random adjectives and nouns), Nature was meant to do two things: communication from scientists to the public, and communication among scientists. It was an interesting idea. It was also a new one; until then the two aims had been separate. Recall that scientific journals have existed since 1665. During their first two hundred years, they primarily served to record the meetings of learned societies. The Philosophical Transactions of the Royal Society were originally just that: summaries of whatever “philosophical” questions were discussed at the Royal Society. Aside from journals, specialized books were common and were in fact the higher-status way to communicate science in Victorian Britain. Charles Darwin’s On the Origins of Species, published in 1859, is the most famous example. Informal correspondence between scientists was also a major, but private, channel: Darwin wrote more than 15,000 letters in his lifetime, enough to fill 30 volumes. With the exception of some books, none of the above were intended for laypeople. Educated non-scientists (professionals, clergymen, statesmen, etc.) instead got their science news from generalist or literary periodicals such as the Athenaeum magazine. The articles in those publications were not written by specialists, but by journalists and dilettantes. Lockyer’s view, shared with his close supporter Thomas Huxley — a biologist known for defending Darwinian evolution — was that they were riddled with errors and theological overtones. It would be better, they thought, if scientists did the work of communicating their research themselves. It was bold of Lockyer and Huxley to assume that scientists would be interested in doing this communication work. They weren’t. Almost immediately after Nature was founded, its contributors ignored the popularization part (“not a high-status undertaking,” Baldwin’s book says) and focused on the intra-science communication part. They did write summaries and abstracts of their own research, as Lockyer had intended, but they expected that their readers would be other men of science. Within three years, the educated laypeople who were Lockyer’s target audience were complaining that they could no longer understand the contents. Thus the first of Nature’s two aims was met mostly with failure. Fortunately, this was balanced out by unexpected success at the second aim. Scientists did actually enjoy writing for Lockyer’s magazine, in large part because it was published weekly. They found that writing a summary of their own research in Nature was an excellent way to share their results quickly and gain attention from other scientists. Books were slow; Darwin took many years to write and publish On the Origin of Species, for instance. The journals of scientific societies were slow; you had to wait for a meeting to take place and then for the meeting’s “transactions” to be published. Private correspondence was fast, but it wasn’t public. Through publication speed, as well as other factors as we’ll see below, Nature filled a niche in the ecosystem. It was the Twitter of 19th-century British science. Soon enough, this model would be copied, most notably by the journal Science in 1880. According to its first editor, Science was explicitly meant to, “in the United States, take the position which ‘Nature’ so ably occupies in England.” In just a few years, Nature had disrupted scientific publishing and established itself as a useful and unique institution of science, recognized by specialists both in the UK and abroad. First page of the first edition of Nature, 4 November 1869 II. One Hundred Years of Building a Reputation Despite its popularity, Nature didn’t become prestigious overnight. Far from it, in fact. Making Nature often reminds us that the journal spent most of its history as a low-grade publication where anything could be printed quickly, as long as it was factually correct. (This was ensured by basic checks from the editorial team; Nature articles were not consistently peer-reviewed until the 1970s.) As late as the 1960s, a researcher publishing a preliminary report in Nature was expected to follow up with a longer paper “in a more serious journal.” In other words, Nature delivered quick and cheap distribution, not luxury brand approval. This changed about fifty years ago, as we’ll see in Part III. But to understand what happened then, we first need to examine the characteristics of the journal in the roughly 100-year period from its early days until prestige took over, starting with a deeper look into publication speed. Publication Speed John Maddox, editor of Nature in the late 20th century, said that “one of Nature’s greatest early assets was the speed of the Royal Mail.” You could write to Nature, be published within a week, and read the replies to your communication within two weeks. This was state-of-the-art communication tech! Consider how many times publication speed is mentioned throughout the first half of the book (emphasis mine): What made Nature unique was, in large part, its ability to act as a venue for . . . discussions via its correspondence columns and its weekly publication schedule. (p. 8) Many British men of science found that one of the fastest ways to bring a scientific issue or idea to their fellow researchers’ attention was to send a communication to Nature. (p. 39) Unlike the literary periodicals, there was almost no delay between the submission of a piece and its appearance in the journal. (p. 63) A second reason Nature’s speed of publication would have been compelling to men of science is that getting one’s work into print quickly had become an increasingly essential part of establishing priority for a scientific finding or theory. (p. 65) Scientific weeklies [such as Nature] played a unique role in researchers’ publishing strategies at the end of the nineteenth century by offering researchers a forum where short articles could be printed quickly. (p. 105) Both the Proceedings [of the Royal Society of London] and the Philosophical Magazine had significant lag times between submission and publication . . ., which made Nature and its weekly turnaround uniquely valuable for the priority-conscious Rutherford. (p. 109) [Rutherford] sent his most interesting experimental results [to Nature] immediately, both as a way of keeping his colleagues updated on his work and as insurance against being scooped as he had in 1899. (p. 112) These quotes highlight two distinct reasons why speed was important. The first, as I hinted at earlier, was Nature’s role as the аcademic social media of its time. It was simply the best way to have discussions about scientific topics — or science itself — that could, unlike private correspondence, reach a large audience. More on this in the next section. The second reason, as shown by the mentions of physicist Ernest Rutherford, was establishing priority. Today we take for granted that being the first to publish new ideas or results is important, but in the 19th century this was less clear. To bring up Darwin as an example again, he kept his thoughts on evolution private for many years, because he wanted to make sure his argument was sound before he submitted it to the public (although he did eventually sense the urgency of publishing the theory before Alfred Russel Wallace did). But as science became professionalized, “not being scooped” became more and more crucial, and the weekly Nature was a good tool to avoid that. All this talk of speed may surprise anyone who has recently submitted a paper to Nature. In 2016, an analysis revealed that the median time for Nature to review a paper was 150 days, i.e. 5 months, up from 85 days a decade earlier. Nature itself reports, for the year 2020, a median time of 226 days between submission and acceptance. We’re a long way from “less than a week.” Why was there a decrease in publication speed? As we might expect, the reason was Nature’s growing popularity, especially among the international scientific community. At least, that’s what happened the first time there was a slowdown, in the mid-20th century. Early on, Nature was a journal for and by British scientists. But in the first half of the 20th century, science in general and Nature in particular began to involve much more collaboration between researchers across borders. It was a big deal, for instance, when a foreign government banned Nature, as Nazi Germany did in 1938; German researchers had been using it as an important source of scientific news. The ban was furthermore covered in non-British media, such as The New York Times, indicating that the journal was internationally newsworthy. Such an increase in international readership meant more letters and articles sent to the editors, and by the 1950s, there was such a backlog that submissions needed to be held for six months or more. In the 1960s, the new editor John Maddox recognized this as a problem. He began his editorship by clearing the backlog, and even printed the date of submission along with each scientific paper to show everyone how quick Nature was at reviewing articles (“often within a month,” Baldwin’s book says). Clearly, Maddox thought that restoring the speedy reputation of the journal was important. He seems to have succeeded, for a time. As late as 1989, during a controversy around cold fusion, a Wall Street Journal article said that Nature was still fast: it was able to print papers “in as little as three weeks instead of the more usual lead time of six to twelve months for other scientific publications.” Thus, despite a dip in the middle of the century due to its popularity and international reach, speedy publication was still an important characteristic of Nature in the 1970s. A second — and so far permanent — decrease occurred more recently, perhaps as a result of prestige and the competition of near-instantaneous online platforms, but that’s another story. Network Effects As of 2022, scientists argue in public on Twitter, blogs, and other online platforms, like ResearchHub. In the 19th century, Twitter and ResearchHub hadn’t been invented [citation needed]. Fortunately, Nature was there. A network effect occurs when the value of a product comes primarily from the people who use it. If there are two competing telephone systems, the most valuable one is whichever has the most users (or at least the users you want to talk to). If you create an improved Twitter clone, then all its amazing features won’t do much if you don’t somehow manage to capture Twitter’s network of several million people. Likewise, Nature became an interesting journal to read and contribute to because it gained the attention of Britain’s scientific elite as the place to discuss big science questions. This role as a forum was a constant in Nature’s history, as Making Nature shows with several detailed accounts of debates that took place within the journal’s pages. Some examples: Controversies over the age of the Earth in the 1880s.
Inline links: more than 15,000 letters, https://en.wikipedia.org/wiki/The_Athenaeum_(British_magazine), took many years, https://substackcdn.com/image/fetch/$s_!GYj8!,f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fbucketeer-e05bbc84-baa3-437e-9518-adb32be77984.s3.amazonaws.com%2Fpublic%2Fimages%2Fa4f03221-7d79-42f6-bf6c-35d90fe3f7e5_1142x1600.jpeg, revealed, reports, ResearchHub
First page of the first edition of Nature, 4 November 1869 II. One Hundred Years of Building a Reputation Despite its popularity, Nature didn’t become prestigious overnight. Far from it, in fact. Making Nature often reminds us that the journal spent most of its history as a low-grade publication where anything could be printed quickly, as long as it was factually correct. (This was ensured by basic checks from the editorial team; Nature articles were not consistently peer-reviewed until the 1970s.) As late as the 1960s, a researcher publishing a preliminary report in Nature was expected to follow up with a longer paper “in a more serious journal.” In other words, Nature delivered quick and cheap distribution, not luxury brand approval. This changed about fifty years ago, as we’ll see in Part III. But to understand what happened then, we first need to examine the characteristics of the journal in the roughly 100-year period from its early days until prestige took over, starting with a deeper look into publication speed. Publication Speed John Maddox, editor of Nature in the late 20th century, said that “one of Nature’s greatest early assets was the speed of the Royal Mail.” You could write to Nature, be published within a week, and read the replies to your communication within two weeks. This was state-of-the-art communication tech! Consider how many times publication speed is mentioned throughout the first half of the book (emphasis mine): What made Nature unique was, in large part, its ability to act as a venue for . . . discussions via its correspondence columns and its weekly publication schedule. (p. 8) Many British men of science found that one of the fastest ways to bring a scientific issue or idea to their fellow researchers’ attention was to send a communication to Nature. (p. 39) Unlike the literary periodicals, there was almost no delay between the submission of a piece and its appearance in the journal. (p. 63) A second reason Nature’s speed of publication would have been compelling to men of science is that getting one’s work into print quickly had become an increasingly essential part of establishing priority for a scientific finding or theory. (p. 65) Scientific weeklies [such as Nature] played a unique role in researchers’ publishing strategies at the end of the nineteenth century by offering researchers a forum where short articles could be printed quickly. (p. 105) Both the Proceedings [of the Royal Society of London] and the Philosophical Magazine had significant lag times between submission and publication . . ., which made Nature and its weekly turnaround uniquely valuable for the priority-conscious Rutherford. (p. 109) [Rutherford] sent his most interesting experimental results [to Nature] immediately, both as a way of keeping his colleagues updated on his work and as insurance against being scooped as he had in 1899. (p. 112) These quotes highlight two distinct reasons why speed was important. The first, as I hinted at earlier, was Nature’s role as the аcademic social media of its time. It was simply the best way to have discussions about scientific topics — or science itself — that could, unlike private correspondence, reach a large audience. More on this in the next section. The second reason, as shown by the mentions of physicist Ernest Rutherford, was establishing priority. Today we take for granted that being the first to publish new ideas or results is important, but in the 19th century this was less clear. To bring up Darwin as an example again, he kept his thoughts on evolution private for many years, because he wanted to make sure his argument was sound before he submitted it to the public (although he did eventually sense the urgency of publishing the theory before Alfred Russel Wallace did). But as science became professionalized, “not being scooped” became more and more crucial, and the weekly Nature was a good tool to avoid that. All this talk of speed may surprise anyone who has recently submitted a paper to Nature. In 2016, an analysis revealed that the median time for Nature to review a paper was 150 days, i.e. 5 months, up from 85 days a decade earlier. Nature itself reports, for the year 2020, a median time of 226 days between submission and acceptance. We’re a long way from “less than a week.” Why was there a decrease in publication speed? As we might expect, the reason was Nature’s growing popularity, especially among the international scientific community. At least, that’s what happened the first time there was a slowdown, in the mid-20th century. Early on, Nature was a journal for and by British scientists. But in the first half of the 20th century, science in general and Nature in particular began to involve much more collaboration between researchers across borders. It was a big deal, for instance, when a foreign government banned Nature, as Nazi Germany did in 1938; German researchers had been using it as an important source of scientific news. The ban was furthermore covered in non-British media, such as The New York Times, indicating that the journal was internationally newsworthy. Such an increase in international readership meant more letters and articles sent to the editors, and by the 1950s, there was such a backlog that submissions needed to be held for six months or more. In the 1960s, the new editor John Maddox recognized this as a problem. He began his editorship by clearing the backlog, and even printed the date of submission along with each scientific paper to show everyone how quick Nature was at reviewing articles (“often within a month,” Baldwin’s book says). Clearly, Maddox thought that restoring the speedy reputation of the journal was important. He seems to have succeeded, for a time. As late as 1989, during a controversy around cold fusion, a Wall Street Journal article said that Nature was still fast: it was able to print papers “in as little as three weeks instead of the more usual lead time of six to twelve months for other scientific publications.” Thus, despite a dip in the middle of the century due to its popularity and international reach, speedy publication was still an important characteristic of Nature in the 1970s. A second — and so far permanent — decrease occurred more recently, perhaps as a result of prestige and the competition of near-instantaneous online platforms, but that’s another story. Network Effects As of 2022, scientists argue in public on Twitter, blogs, and other online platforms, like ResearchHub. In the 19th century, Twitter and ResearchHub hadn’t been invented [citation needed]. Fortunately, Nature was there. A network effect occurs when the value of a product comes primarily from the people who use it. If there are two competing telephone systems, the most valuable one is whichever has the most users (or at least the users you want to talk to). If you create an improved Twitter clone, then all its amazing features won’t do much if you don’t somehow manage to capture Twitter’s network of several million people. Likewise, Nature became an interesting journal to read and contribute to because it gained the attention of Britain’s scientific elite as the place to discuss big science questions. This role as a forum was a constant in Nature’s history, as Making Nature shows with several detailed accounts of debates that took place within the journal’s pages. Some examples: Controversies over the age of the Earth in the 1880s.
Inline links: revealed, reports, ResearchHub
Sorry, I Still Think MR Is Wrong About USAID
May 29, 2025 · Original source
I am not an expert on aid. But the development fellows and econ professors I mentioned above are, and they agree with my criticism. I ran this post by someone who’s worked closely with USAID and affiliated programs for a decade and they said they took my side. Not that it matters - the blogosphere, like the Royal Society, ought to be nullius in verba, not a chest-puffing competition of credentials but a data dump of receipts.