In his latest book “The scientific life. A moral history of a late modern vocation”, the social historian of science Steven Shapin addresses the public image of contemporary scientists, their virtues and vocations. Who are, and how they represent themselves, those scientists who work on the edge between industry and academy, and who are responsible for the radical uncertainty embedded in the contemporary production of scientific knowledge? If “people matter”, as Shapin states, the genealogy he provides should encourage us to dig more deeply in the main stage of the virtues and ethos of scientists: the mass media.

“Science on the air” is an enjoyable and extremely well researched account of the origins of science programming in north American radio. From 1923 to the mid-50s, LaFollette takes us in a journey through the life and programs of many scientists, journalists and storytellers who chosed radio as a medium for science communication. A journey who allow the reader to visit many success, but also many incomprehension and missed opportunities, mainly by scientific institutions, who often failed to understand the potential of radio as a tool for science communication. It is a fully enjoyable journey, that leave the reader with an appetite to know how the US situation relates to other wonderful experiences around the world in the same years, and how those pioneer experiences influenced today's landscape.

Science, politics, industry, media, state-run and private organisations, private citizens: everyone has their own demands, their own heritage of knowledge, thoughts, opinions, aspirations, needs. Different worlds that interact, question one another, discuss; in one word: they communicate. It is a complicated process that requires professionals «who clearly understand the key aspects of the transmission of scientific knowledge to society through the different essential communication channels for multiple organizations». The purpose of this commentary is to cast some light upon the goals, the philosophy and the organisation behind some European and extra-European Master’s degrees in science communication. We have asked the directors of each of them to describe their founding elements, their origins, their specific features, their structure, their goals, the reasons why they were established and the evolution they have seen over their history.

There is a compelling need to ensure that the points of view and preferences of stakeholders are fully considered and incorporated into natural resources management strategies. Stakeholders include a diverse group of individuals in several sectors that have an interest in how natural resources are managed. Typically, stakeholders with an interest in groundwater resources include groups who could be affected by the manner in which the resource is managed (e.g., farmers who need water for irrigation; municipalities and individuals who need drinking water, agencies and organizations that want to maintain in-stream flows to support ecosystems, etc.) Refugio County in South Texas provides an interesting case study since several groups of water users in the region are working with researchers at Texas A&M University-Kingsville (TAMUK) to develop decision-support models that incorporate stakeholder concerns. The focus of this paper is to provide a series of arguments and approaches about the ways in which stakeholder issues have recently been incorporated into environmental models, to briefly describe some of the TAMUK efforts to develop groundwater models that incorporate stakeholder inputs, and to present and discuss a method in which communication research can be used to obtain stakeholder preferences input into modeling efforts.

Mouse-related research in the life sciences has expanded remarkably over the last two decades, resulting in growing use of the term “mouse model”. Our interviews with 64 leading Japanese life sciences researchers showed heterogeneities in the definition of “mouse model” in the Japanese life sciences community. Here, we discuss the implications for the relationship between the life sciences community and society in Japan that may result from this ambiguity in the terminology. It is suggested that, in Japanese life sciences, efforts by individual researchers to make their scientific information unambiguous and explanative are necessary.

The importance the Brazilian government has given in the last few years to the dissemination of science points out the necessity of a more discerning analysis about the establishment of this subject on the public agenda and the related public policies undertaken. This work tries to contribute to the debate as an inquiry about the policies to popularize and disseminate Science and Technology (S&T) established by the Science and Technology Popularization and Dissemination Department, which was created in 2004. In order to do so, theoretical references from Public Policy Analysis, the Studies of Science, Technology and Society (SSTS), and Public Communication of Science are used. Furthermore, we analyze some of the results from research on Science and Technology Understanding carried out in Brazil in 2006. As a final point, this associated approach aims at identifying some of the limiting factors related to science dissemination actions in Brazil.

The knowledge deficit model with regard to the public has been severely criticized in the sociology of the public perception of science. However, when dealing with public decisions regarding scientific matters, political and scientific institutions insist on defending the deficit model. The idea that only certified experts, or those with vast experience, should have the right to participate in decisions can bring about problems for the future of democracies. Through a type of "topography of ideas", in which some concepts from the social studies of science are used in order to think about these problems, and through the case study of public participation in the elaboration of the proposal of discounts in the fees charged for rural water use in Brazil, we will try to point out an alternative to the deficit model. This alternative includes a "minimum comprehension" of the scientific matters involved in the decision on the part of the participants, using criteria judged by the public itself.

Human health has currently to face a growing series of global issues. From the spread of HIV/AIDS to a fresh outbreak of tuberculosis, increasingly drug-resistant, the world is witnessing a return, mostly unexpected, of infectious diseases. At the same time, the economic growth in many regions of the globe is generating a sort of “epidemics of wellbeing diseases”: obesity, diabetes, heart disease.

In a refereed journal in the food and agriculture sector, papers were tracked over a five-year period during the introduction of electronic submissions. Papers originated in the Americas and Pacific region and were processed in Canada. Acceptance times for revised papers were reduced (P < 0.001) to 59% of the original, from 156.5 ± 69.1 days to 92.8 ± 57.5 days. But the start of electronic submission coincided with a change in the geographical origin of papers, with papers from Anglophone countries changing from a 61% majority to a 42% minority. It is possible that submissions from non-Anglophone sources were facilitated, thus creating challenges to the traditional Anglophone reviewer population.

In 2008 two collections were published: the Handbook of Public Communication of Science and Technology, edited by Massimiano Bucchi and Brian Trench, and Communicating Science in Social Contexts: New models, new practices, edited by Donghong Cheng and five other scholars from China, Canada, Belgium and Australia. These books try to define and draw the boundaries of science communication’s field from both a theoretical and empirical point of view. But do we need to establish it as a distinct research field? For a number of decades, a growing community of scholars and communicators is trying to reply positively to this question, but the need to look outside the disciplinary boundaries, to other academic fields, is still vital.