Skepticblog » Investing in Basic Science - 0 views
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A recent editorial in the New York Times by Nicholas Wade raises some interesting points about the nature of basic science research – primarily that its’ risky.
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As I have pointed out about the medical literature, researcher John Ioaniddis has explained why most published studies turn out in retrospect to be wrong. The same is true of most basic science research – and the underlying reason is the same. The world is complex, and most of our guesses about how it might work turn out to be either flat-out wrong, incomplete, or superficial. And so most of our probing and prodding of the natural world, looking for the path to the actual answer, turn out to miss the target.
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research costs considerable resources of time, space, money, opportunity, and people-hours. There may also be some risk involved (such as to subjects in the clinical trial). Further, negative studies are actually valuable (more so than terrible pictures). They still teach us something about the world – they teach us what is not true. At the very least this narrows the field of possibilities. But the analogy holds in so far as the goal of scientific research is to improve our understanding of the world and to provide practical applications that make our lives better. Wade writes mostly about how we fund research, and this relates to our objectives. Most of the corporate research money is interested in the latter – practical (and profitable) applications. If this is your goal, than basic science research is a bad bet. Most investments will be losers, and for most companies this will not be offset by the big payoffs of the rare winners. So many companies will allow others to do the basic science (government, universities, start up companies) then raid the winners by using their resources to buy them out, and then bring them the final steps to a marketable application. There is nothing wrong or unethical about this. It’s a good business model.
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What, then, is the role of public (government) funding of research? Primarily, Wade argues (and I agree), to provide infrastructure for expensive research programs, such as building large colliders.
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the more the government invests in basic science and infrastructure, the more winners will emerge that private industry can then capitalize on. This is a good way to build a competitive dynamic economy.
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But there is a pitfall – prematurely picking winners and losers. Wade give the example of California investing specifically into developing stem cell treatments. He argues that stem cells, while promising, do not hold a guarantee of eventual success, and perhaps there are other technologies that will work and are being neglected. The history of science and technology has clearly demonstrated that it is wickedly difficult to predict the future (and all those who try are destined to be mocked by future generations with the benefit of perfect hindsight). Prematurely committing to one technology therefore contains a high risk of wasting a great deal of limited resources, and missing other perhaps more fruitful opportunities.
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The underlying concept is that science research is a long-term game. Many avenues of research will not pan out, and those that do will take time to inspire specific applications. The media, however, likes catchy headlines. That means when they are reporting on basic science research journalists ask themselves – why should people care? What is the application of this that the average person can relate to? This seems reasonable from a journalistic point of view, but with basic science reporting it leads to wild speculation about a distant possible future application. The public is then left with the impression that we are on the verge of curing the common cold or cancer, or developing invisibility cloaks or flying cars, or replacing organs and having household robot servants. When a few years go by and we don’t have our personal android butlers, the public then thinks that the basic science was a bust, when in fact there was never a reasonable expectation that it would lead to a specific application anytime soon. But it still may be on track for interesting applications in a decade or two.
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this also means that the government, generally, should not be in the game of picking winners an losers – putting their thumb on the scale, as it were. Rather, they will get the most bang for the research buck if they simply invest in science infrastructure, and also fund scientists in broad areas.
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The same is true of technology – don’t pick winners and losers. The much-hyped “hydrogen economy” comes to mind. Let industry and the free market sort out what will work. If you have to invest in infrastructure before a technology is mature, then at least hedge your bets and keep funding flexible. Fund “alternative fuel” as a general category, and reassess on a regular basis how funds should be allocated. But don’t get too specific.
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The scientific community can do their part by getting better at communicating with the media and the public. Try to avoid the temptation to overhype your own research, just because it is the most interesting thing in the world to you personally and you feel hype will help your funding. Don’t make it easy for the media to sensationalize your research – you should be the ones trying to hold back the reigns. Perhaps this is too much to hope for – market forces conspire too much to promote sensationalism.