Advances in the life sciences are occurring with extreme rapidity and accumulating a great deal of knowledge about life’s vital processes. While this knowledge is essential for fighting disease in a more effective way, it can also be misused either intentionally or inadvertently to develop novel and more effective biological weapons. For nearly a decade civil-academic society as well as States Parties to the Biological and Toxin Weapons Convention have recognised the importance of dual-use biosecurity education for life scientists as (...) a means to foster a culture of responsibility and prevent the potential misuse of advances in the life sciences for non-peaceful purposes. Nevertheless, the implementation of dual-use biosecurity education for life scientists has made little progress in institutions of higher learning. Professional societies and academic organizations have worked from the bottom-up in developing online dual-use biosecurity education modules that can be used for instruction. However, top-down help is needed from goverments if further progress is to be made in implementing biosecurity education for life scientists. (shrink)

The emergence of synthetic biology holds the potential of a major breakthrough in the life sciences by transforming biology into a predictive science. The dual-use characteristics of similar breakthroughs during the twentieth century have led to the application of benignly intended research in e.g. virology, bacteriology and aerobiology in offensive biological weapons programmes. Against this background the article raises the question whether the precautionary governance of synthetic biology can aid in preventing this techno-science witnessing the same fate? In order to (...) address this question, this paper proceeds in four steps: it firstly introduces the emerging techno-science of synthetic biology and presents some of its potential beneficial applications. It secondly analyses contributions to the bioethical discourse on synthetic biology as well as precautionary reasoning and its application to life science research in general and synthetic biology more specifically. The paper then identifies manifestations of a moderate precautionary principle in the emerging synthetic biology dual-use governance discourse. Using a dual-use governance matrix as heuristic device to analyse some of the proposed measures, it concludes that the identified measures can best be described as “patchwork precaution” and that a more systematic approach to construct a web of dual-use precaution for synthetic biology is needed in order to guard more effectively against the field’s future misuse for harmful applications. (shrink)