University of California Boycotts Publishing Giant Elsevier
News Mar 01, 2019 | Original story by the University of California, Berkeley
Wheeler Hall, University of California, Berkeley. Image credit: Bob Collowân [CC BY-SA 3.0 (https://creativecommons.org/licenses/by-sa/3.0)]
The University of California system took a bold stand in its push for publicly-funded UC research to be accessible to the world, free of charge. It chose not to renew its nearly $11 million-a-year scholarly journal subscription to publishing industry giant Elsevier, producer of more than 1,500 scientific journals.
The UC had been trying to negotiate a new subscription deal with Elsevier since Dec. 31, when its five-year license ended. But Elsevier was unwilling to provide the main goal of UC’s fight: achieving what’s called universal open access publishing, so that the 10-campus system’s research could be freely available to anyone, anywhere.
“Make no mistake: The prices of scientific journals now are so high that not a single university in the U.S. — not the University of California, not Harvard, no institution — can afford to subscribe to them all,” says professor Jeffrey MacKie-Mason, University Librarian at UC Berkeley and co-chair of UC’s negotiation team.
“Publishing our scholarship behind a paywall deprives people of the access to and benefits of publicly-funded research. That is terrible for society.”A letter to the UC Berkeley academic community from Executive Vice Chancellor and Provost Paul Alivisatos, Barbara Spackman, chair of Berkeley’s Academic Senate, and MacKie-Mason breaks down the news to help professors and other researchers understand what happened and what happens next.
This article has been republished from materials provided by the University of California, Berkeley. Note: material may have been edited for length and content. For further information, please contact the cited source.
A research team has zeroed in on what may be easily detectable markers of Parkinson’s disease.The evidence is in the specific angles and sharpness of electrical waves in unfiltered raw data captured by scalp electroencephalograms of patients receiving treatment for the degenerative disease that slowly damages the central nervous system.READ MORE
Like what you just read? You can find similar content on the communities below.Analysis & Separations Applied Sciences Biopharma Cancer Research Cell Science Diagnostics Drug Discovery Genomics Research Informatics Proteomics & Metabolomics Immunology & Microbiology
To personalize the content you see on Technology Networks homepage, Log In or Subscribe for FreeLOGIN SUBSCRIBE FOR FREE