Standards and Good Practice guidelines provide explicit criteria for maintaining quality and integrity in science. But research practices are now openly questioned. I defend the idea that the tension between norms and practices in scientific writing must be addressed primarily by the scientific community if quality of the sources in the process of science communication is to be guaranteed. This paper provides evidence that scientific writing and researchers’writing practices do not reflect expected quality criteria. Evidence is based on four complementary analyses of: (i) communication manuals, journals’ recommendations to authors and the norms they convey (ii) feedback given by reviewers (ii) interviews and questionnaires (iv) researchers’ written productions and writing practices. I show that researchers’ writing and communication practices are very often in total contradiction with the norms and standards the scientific community has established. Unless researchers can improve and guarantee quality and integrity of the sources, the whole system of science communication will be threatened.

Effective training in key communications skills is critical for successful public engagement. However, what are the secrets to designing and delivering an effectual training course? This paper outlines key findings from a research study into communication training programmes for public engagement with STEM (science, technology, engineering and mathematics). The research focused on training in direct communication methods, (as separate from media training) and encompassed both trainers and trainees, the latter group spanning across both scientists and explainers. The findings indicated that training courses are effective at increasing involvement in science communication events and trainees feel more confident and able to engage due to training. An interactive style was found to be a key element of training courses. Demonstrations of good practice followed by own performance with feedback were also important, preferably involving a ‘real’ audience. A list of guidelines on best practice has been developed which offers practical advice.

Brazilian research has grown intensely in all areas of microbiology, with the increase in the amount of governmental resources for the sector and the strengthening of a greater number of research groups. However, very few academic studies deal with research about teaching and science communication in microbiology. There is no in-depth study of how this topic is currently being divulgated in communication journals, didactic books and the Internet, or about the interest and the difficulties faced by researchers in communicating microbiology to the general public. This paper investigates academic production on science communication and the teaching of microbiology in Brazil and contextualizes the need for studies about the ways and means through which this activity is being carried out.

Assessment of trends in the state of the environment constitutes one important aspect of efforts to achieve environmental sustainability. Assessments are often undertaken via indicators which measure progress towards environmental objectives and interim targets. This paper starts from the assumption that different types of environmental indicators have different implications for the public communication and the societal dialogue about the state of the environment and the measures needed to increase ecological sustainability. The paper concludes that it is important to evaluate environmental indicators on the basis of their communicative potential. It is demonstrated how science-based assessment of progress towards environmental objectives may fulfil different aims. Each of these aims may be linked to particular types of indicators, as well as to particular ideas of how to communicate uncertainties, and to particular views of the role of the public in the system of environmental objectives.

“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.

A recent article published in Science Communication addresses the training issue in issue in our discipline. Henk Mulder and his colleagues discuss the shared features that university curricula should or could have to favour the full admission of science communication into the academic circle. Having analysed analogies and differences in the curricula that a number of schools provide all over the world, the authors reached the conclusion that much remains to be done. Science communication seems far from having found shared fundamental references, lessons that cannot be missed in the practical-theoretical education of future professionals or researchers in this discipline. What should one study to become a good science communicator? And to make innovative research?

The Internet is by far the most intensely used communication tool of today and the main channel of interaction in the globalized world. This technology has opened up a whole new area for the interaction of knowledge: cyberspace, where information is always present and continuously changing. The interactivity that characterizes the virtual media together with the interactive modules developed by science centers and museums make the Internet a whole new space for the popularization of science. In order to stimulate dialog between science and society, Espaço Ciência Viva has decided to employ the Internet to divulge and to popularize scientific knowledge by bringing debates about the advances of science to the daily lives of people. To this end, its website was remodeled, which led to an increase of up to 600% in the number of visitors.

One of the main purposes of weather forecasting is that of protecting weather-sensitive human activities. Forecasts issued in the probabilistic form have a higher informative content, as opposed to deterministic one, since they bear information that give also a measure of their own uncertainty. However, in order to make an appropriate and effective use of this kind of forecasts in an operational setting, communication becomes significatively relevant.The present paper, after having briefly examined the weather forecasts concerning Hurricane Charley (August 2004), tackles the issue of the communicative process in detail.The bottom line of this study is that for the weather forecast to achieve its best predictive potential, an in-depth analysis of communication issues is necessary.

The multidisiciplinary Master’s Degree Program in Scientific and Cultural Communication (MDCC) began in the first semester of 2007. It is offered by the Laboratory of Advanced Studies in Journalism (Labjor) of the Creativity Development Nucleus (NUDECRI) and by the Institute of Language Studies (IEL), both of which are entities the State University of Campinas (UNICAMP). The program is also supported by the Department of Scientific and Technological Policy (DPCT) of the Geosciences Institute (IG) and by MediaTec – Media and Communication Technologies Laboratory of the Multimedia Department (DMM) of the Art Institute (IA). The objective of the MDCC is to train and enable researchers with in-depth theoretical knowledge about current questions related to science communication. A global vision of the systems of science and technology are joined together with an understanding of a solid, contemporary literary and cultural repertoire. The interaction among subjects offered in the MDCC seeks to provide an education that allows critical reflection about the main accomplishments of science, technology and culture in our current society and the way in which the mass or specialized media have worked in order to communicate these accomplishments. The areas of research focus on the analysis of cultural production and science communication within the most diverse means of information, such as print, radio, television and electronic media. There is a special emphasis on areas such as science and technical history and the sociology of science, as well as other spaces of science and cultural communication, such as museums, forums and events.

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.