Science 2.0: Great New Tool, or Great Risk?
Consistent with the content of the article, Mitch invites feedback:
Welcome to a Scientific American experiment in "networked journalism," in which readers—you—get to collaborate with the author to give a story its final form.UsefulChem got a mention:
The article, below, is a particularly apt candidate for such an experiment: it's my feature story on "Science 2.0," which describes how researchers are beginning to harness wikis, blogs and other Web 2.0 technologies as a potentially transformative way of doing science. The draft article appears here, several months in advance of its print publication, and we are inviting you to comment on it. Your inputs will influence the article’s content, reporting, perhaps even its point of view.
So consider yourself invited. Please share your thoughts about the promise and peril of Science 2.0.—just post your inputs in the Comment section below. To help get you started, here are some questions to mull over:
* What do you think of the article itself? Are there errors? Oversimplifications? Gaps?
* What do you think of the notion of "Science 2.0?" Will Web 2.0 tools really make science much more productive? Will wikis, blogs and the like be transformative, or will they be just a minor convenience?
* Science 2.0 is one aspect of a broader Open Science movement, which also includes Open-Access scientific publishing and Open Data practices. How do you think this bigger movement will evolve?
* Looking at your own scientific field, how real is the suspicion and mistrust mentioned in the article? How much do you and your colleagues worry about getting “scooped”? Do you have first-hand knowledge of a case in which that has actually happened?
* When young scientists speak out on an open blog or wiki, do they risk hurting their careers?
* Is "open notebook" science always a good idea? Are there certain aspects of a project that researchers should keep quite, at least until the paper is published?
Unfortunately, this kind of technical safeguard does little to address a second concern: Getting scooped and losing the credit. "That's the first argument people bring to the table," says Drexel University chemist Jean-Claude Bradley, who created his independent laboratory wiki, UsefulChem, in December 2005. Even if incidents are rare in reality, Bradley says, everyone has heard a story, which is enough to keep most scientists from even discussing their unpublished work too freely, much less posting it on the Internet.
However, the Web provides better protection that the traditional journal system, Bradley maintains. Every change on a wiki gets a time-stamp, he notes, “so if someone actually did try to scoop you, it would be very easy to prove your priority--and to embarrass them. I think that's really what is going to drive open science: the fear factor. If you wait for the journals, your work won't appear for another six to nine months. But with open science, your claim to priority is out there right away."
Under Bradley's radically transparent "open notebook" approach, as he calls it, everything goes online: experimental protocols, successful outcomes, failed attempts, even discussions of papers being prepared for publication. "A simple wiki makes an almost perfect lab notebook," he declares. The time-stamps on every entry not only establish priority, but allow anyone to track the contributions of every person, even in a large collaboration.
Bradley concedes that there are sometimes legitimate reasons for researchers to think twice about being so open. If work involves patients or other human subjects, for example, privacy is obviously a concern. And if you think your work might lead to a patent, it is still not clear that the patent office will accept a wiki posting as proof of your priority. Until that is sorted out, he says, "the typical legal advice is: do not disclose your ideas before you file."
Still, Bradley says the more open scientists are, the better. When he started UsefulChem, for example, his lab was investigating the synthesis of drugs to fight diseases such as malaria. But because search engines could index what his team was doing without needing a bunch of passwords, "we suddenly found people discovering us on Google and wanting to work together. The National Cancer Institute contacted me wanting to test our compounds as anti-tumor agents. Rajarshi Guha at Indiana University offered to help us do calculations about docking--figuring out which molecules will be reactive. And there were others. So now we're not just one lab doing research, but a network of labs collaborating."
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