Science and technology studies (STS) or science, technology, and society is an interdisciplinary field that examines the creation, development, and consequences of science and technology in their historical, cultural, and social contexts.[1]
History
Like most interdisciplinary fields of study, STS emerged from the confluence of a variety of disciplines and disciplinary subfields, all of which had developed an interest—typically, during the 1960s or 1970s—in viewing science and technology as socially embedded enterprises.[2] The key disciplinary components of STS took shape independently, beginning in the 1960s, and developed in isolation from each other well into the 1980s, although Ludwik Fleck‘s (1935) monograph Genesis and Development of a Scientific Fact anticipated many of STS’s key themes. In the 1970s Elting E. Morison founded the STS program at the Massachusetts Institute of Technology (MIT), which served as a model. By 2011, 111 STS research centers and academic programs were counted worldwide.[
Important key points
- History of technology, that examines technology in its social and historical context. Starting in the 1960s, some historians questioned technological determinism, a doctrine that can induce public passivity to technologic and scientific “natural” development. At the same time, some historians began to develop similarly contextual approaches to the history of medicine.
- History and philosophy of science (1960s). After the publication of Thomas Kuhn‘s well-known The Structure of Scientific Revolutions (1962), which attributed changes in scientific theories to changes in underlying intellectual paradigms, programs were founded at the University of California, Berkeley and elsewhere that brought historians of science and philosophers together in unified programs.
- Science, technology, and society. In the mid-to-late-1960s, student and faculty social movements in the U.S., UK, and European universities helped to launch a range of new interdisciplinary fields (such as women’s studies) that were seen to address relevant topics that the traditional curriculum ignored. One such development was the rise of “science, technology, and society” programs, which are also—confusingly—known by the STS acronym. Drawn from a variety of disciplines, including anthropology, history, political science, and sociology, scholars in these programs created undergraduate curricula devoted to exploring the issues raised by science and technology. Feminist scholars in this and other emerging STS areas addressed themselves to the exclusion of women from science and engineering, focusing instead on critiquing gendered power dynamics in prior STS research.[4]
- Science, engineering, and public policy studies emerged in the 1970s from the same concerns that motivated the founders of the science, technology, and society movement: A sense that science and technology were developing in ways that were increasingly at odds with the public’s best interests.[according to whom?] The science, technology, and society movement tried to humanize those who would make tomorrow’s science and technology, but this discipline took a different approach: It would train students with the professional skills needed to become players in science and technology policy. Some programs came to emphasize quantitative methodologies, and most of these were eventually absorbed into systems engineering. Others emphasized sociological and qualitative approaches, and found that their closest kin could be found among scholars in science, technology, and society departments.[citation needed]
During the 1970s and 1980s, universities in the US, UK, and Europe began drawing these various components together in new, interdisciplinary programs. For example, in the 1970s, Cornell University developed a new program that united science studies and policy-oriented scholars with historians and philosophers of science and technology. Each of these programs developed unique identities due to variations in the components that were drawn together, as well as their location within the various universities. For example, the University of Virginia’s STS program united scholars drawn from a variety of fields (with particular strength in the history of technology); however, the program’s teaching responsibilities—it is located within an engineering school and teaches ethics to undergraduate engineering students—means that all of its faculty share a strong interest in engineering ethics.
The "turn to technology" (and beyond)
A decisive moment in the development of STS was the mid-1980s addition of technology studies to the range of interests reflected in science. During that decade, two works appeared en seriatim that signaled what Steve Woolgar was to call the “turn to technology”.[6] In a seminal 1984 article, Trevor Pinch and Wiebe Bijker showed how the sociology of technology could proceed along the theoretical and methodological lines established by the sociology of scientific knowledge.[7] This was the intellectual foundation of the field they called the social construction of technology. Donald MacKenzie and Judy Wajcman primed the pump by publishing a collection of articles attesting to the influence of society on technological design (Social Shaping of Technology, 1985).[8] Social science research continued to interrogate STS research from this point onward as researchers moved from post-modern to post-structural frameworks of thought, Bijker and Pinch contributing to SCOT knowledge and Wajcman providing boundary work through a feminist lens.[9]
The “turn to technology” helped to cement an already growing awareness of underlying unity among the various emerging STS programs. More recently, there has been an associated turn to ecology, nature, and materiality in general, whereby the socio-technical and natural/material co-produce each other. This is especially evident in work in STS analyses of biomedicine (such as Carl May and Annemarie Mol) and ecological interventions (such as Bruno Latour, Sheila Jasanoff, Matthias Gross, Sara B. Pritchard, and S. Lochlann Jain).
Sociotechnical imaginaries (STIs)
Sociotechnical imaginaries are what certain communities, societies, and nations envision as achievable through the combination of scientific innovation and social changes. These visions can be based on what is possible to achieve for a certain society, and can also show what a certain state or nation desires.[16] STIs are often bound with ideologies and ambitions of those who create and circulate them. Sociotechnical imaginaries can be created by states and policymakers, smaller groups within society, or can be a result of the interaction of both.[16]
The term was coined in 2009 by Sheila Jasanoff and Sang-Hyun Kim who compared and contrasted sociotechnical imaginaries of nuclear energy in the USA with those of South Korea over the second half of the 20th century.[16] Jasanoff and Kim analyzed the discourse of government representatives, national policies, and civil society organizations, looked at the technological and infrastructural developments, and social protests, and conducted interviews with experts. They concluded that in South Korea nuclear energy was imagined mostly as the means of national development, while in the US the dominant sociotechnical imaginary framed nuclear energy as risky and in need of containment.[16]
The concept has been applied to several objects of study including biomedical research,[17][18] nanotechnology development[19] and energy systems and climate change.[20][21][22][23][24][16] Within energy systems, research has focused on nuclear energy,[16] fossil fuels,[21][24] renewables[20] as well as broader topics of energy transitions,[22] and the development of new technologies to address climate change.[23]
