Science
Royal Society of Chemistry will make all its journals open access – Chemistry World
The Royal Society of Chemistry (RSC) has committed to making all of its journals open access within the next five years. It is the first chemistry publisher to commit to a 100% open access model and hopes to fund the move in a way that will avoid individual authors having to pay article processing charges (APCs).
Traditionally publishers of scientific journals have relied on subscription fees to journals to cover the cost of their activities. But in recent years there has been a growing push for scientific knowledge to be shared freely, regardless of readers’ ability to pay.
For example, the Plan S movement in Europe has campaigned for funders to ensure the researchers they support publish their results in open access journals. This has led to the European Research Council and UKRI requiring grantees to publish their work in open access journals. Meanwhile in the US, all government-funded research will need to be published open access from 2026. These measures have seen a growing number of journals move towards open access models.
Open access journals generally require authors to pay a one-off APC in order to publish their papers. This covers costs associated with managing the peer review process and maintaining the scientific record, and means that anyone can read the journal’s content without having to pay a subscription.
But in announcing its commitment to a fully open access model, the RSC notes that it hopes to negotiate new ‘institutional or funder level’ agreements, where institutions pay a flat rate so that their researchers can publish in RSC journals without paying individual APCs. These deals would take into account regional differences so that institutions in poorer nations would not be expected to pay the same rates as those in richer countries.
The RSC publishes 44 journals across the chemical sciences, with most still operating a subscription model.
Addressing barriers
‘Obviously, a transition to full open access is great in terms of making research as broadly available as possible for all, without barriers to reading. My biggest worry with such transitions is always that if the transition is done as an APC-based approach, it just shifts the barriers from reading to publishing,’ says computational biochemist Lynn Kamerlin, who works at Uppsala University in Sweden. ‘So actually one of the best things in the announcement in my opinion was the fact that the RSC is very much aware of this challenge, and is committed to exploring new and other open access models to ensure that this transition doesn’t become a barrier to publishing.’
‘It’s worth noting also that while those most affected are indeed researchers from the countries where funds to even conduct research is extremely restricted, even in nominally wealthy countries access to research funds is heavily variable, and APCs can present a major barrier to dissemination,’ she adds. ‘I fully support the RSC’s goal to ensure that the majority of the global author community is covered by institutional or funder level deals, and commend the RSC for taking this major step in a transition towards full open access, with addressing equity concerns so high up on the agenda.’
Floris Rutjes, a synthetic organic chemist from Radboud University in the Netherlands who is president of the European Chemical Society, says that he is ‘pleasantly surprised’ to learn of the RSC’s new commitment to open access publishing, describing it as ‘a big step forward in pursuing open science’.
‘A few years ago, I was involved in negotiations between the Dutch universities and the RSC about a new transformative deal on a national level, which was rather complex with read and publish components for the different journals and long negotiations,’ says Rutjes. ‘This situation will become much more straightforward after switching to a full open access system. From the researcher’s point of view, I do hope that there still will be agreements between the RSC and university libraries so that the APCs will be paid by the libraries and not by the researchers themselves as is currently often the case when publishing in open access journals.’
In a statement, RSC director of publishing Emma Wilson notes that it is ‘essential’ to the organisation that all authors retain the same ability to publish regardless of where they are based. ‘We are aiming for a future in which [open access] publication makes authors’ work accessible on a global scale,’ she said. ‘As we saw with Covid research, enabling that level of openness and international collaboration can be a catalyst for accelerating innovation and discovery, creating a better, more sustainable future for all.’
‘This is an exciting step for the RSC and our growing portfolio of highly respected journals,’ added University of Strathclyde chemist Duncan Graham, who chairs the RSC’s publishing board. ‘The transition to open access will mean the RSC can ensure that everyone across the globe has the same ability to read and build upon all of the important research published in RSC journals while continuing to maintain the high-quality standards and reputation our community relies on.’
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The artwork and publicity materials showcasing a giant salmon that lived five million years ago were ready to go to promote a new exhibit, when the discovery of two fossilized skulls immediately changed what researchers knew about the fish.
Initial fossil discoveries of the 2.7-metre-long salmon in Oregon in the 1970s were incomplete and had led researchers to mistakenly suggest the fish had fang-like teeth.
It was dubbed the “sabre-toothed salmon” and became a kind of mascot for the Museum of Natural and Cultural History at the University of Oregon, says researcher Edward Davis.
But then came discovery of two skulls in 2014.
Davis, a member of the team that found the skulls, says it wasn’t until they got back to the lab that he realized the significance of the discovery that has led to the renaming of the fish in a new, peer-reviewed study.
“There were these two skulls staring at me with sideways teeth,” says Davis, an associate professor in the department of earth sciences at the university.
In that position, the tusk-like teeth could not have been used for biting, he says.
“That was definitely a surprising moment,” says Davis, who serves as director of the Condon Fossil Collection at the university’s Museum of Natural and Cultural History.
“I realized that all of the artwork and all of the publicity materials and bumper stickers and buttons and T-shirts we had just made two months prior, for the new exhibit, were all out of date,” he says with a laugh.
Davis is co-author of the new study in the journal PLOS One, which renames the giant fish the “spike-toothed salmon.”
It says the salmon used the tusk-like spikes for building nests to spawn, and as defence mechanisms against predators and other salmon.
The salmon lived about five million years ago at a time when Earth was transitioning from warmer to relatively cooler conditions, Davis says.
It’s hard to know exactly why the relatives of today’s sockeye went extinct, but Davis says the cooler conditions would have affected the productivity of the Pacific Ocean and the amount of rain feeding rivers that served as their spawning areas.
Another co-author, Brian Sidlauskas, says a fish the size of the spike-toothed salmon must have been targeted by predators such as killer whales or sharks.
“I like to think … it’s almost like a sledgehammer, these salmon swinging their head back and forth in order to fend off things that might want to feast on them,” he says.
Sidlauskas says analysis by the lead author of the paper, Kerin Claeson, found both male and female salmon had the “multi-functional” spike-tooth feature.
“That’s part of our reason for hypothesizing that this tooth is multi-functional … It could easily be for digging out nests,” he says.
“Think about how big the (nest) would have to be for an animal of this size, and then carving it out in what’s probably pretty shallow water; and so having an extra digging tool attached to your head could be really useful.”
Sidlauskas says the giant salmon help researchers understand the boundaries of what’s possible with the evolution of salmon, but they also capture the human imagination and a sense of wonder about what’s possible on Earth.
“I think it helps us value a little more what we do still have, or I hope that it does. That animal is no longer with us, but it is a product of the same biosphere that sustains us.”
This report by The Canadian Press was first published April 24, 2024.
Brenna Owen, The Canadian Press
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A new paper says a giant salmon that lived five million years ago in the coastal waters of the Pacific Northwest used tusk-like spikes as defense mechanisms and for building nests to spawn.
The initial fossil discoveries of the 2.7-metre-long salmon in Oregon in the 1970s were incomplete and led researchers to suggest the fish had fang-like teeth.
The now-extinct fish was dubbed the “saber-tooth salmon,” but the study published in the peer-reviewed journal PLOS One today renames it the “spike-toothed salmon” and says both males and females possessed the “multifunctional” feature.
Study co-author Edward Davis says the revelation about the tusk-like teeth came after the discovery of fossilized skulls at a site in Oregon in 2014.
Davis, an associate professor in the department of earth sciences at the University of Oregon, says he was surprised to see the skulls had “sideways teeth.”
Contrary to the belief since the 1970s, he says the teeth couldn’t have been used for any kind of biting.
“That was definitely a surprising moment,” Davis says of the fossil discovery in 2014. “I realized that all of the artwork and all of the publicity materials … we had just made two months prior, for the new exhibit, were all out of date.”
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April 23 (UPI) — SpaceX launched 23 Starlink satellites into low-Earth orbit Tuesday evening from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida.
Liftoff occurred at 6:17 EDT with a SpaceX Falcon 9 rocket sending the payload of 23 Starlink satellites into orbit.
The Falcon 9 rocket’s first-stage booster landed on an autonomous drone ship in the Atlantic Ocean after separating from the rocket’s second stage and its payload.
The entire mission was scheduled to take about an hour and 5 minutes to complete from launch to satellite deployment.
The mission was the ninth flight for the first-stage booster that previously completed five Starlink satellite-deployment missions and three other missions.
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