22 pages., via online journal., Scientists are frequently asked to broadly share their expertise and research with a variety of audiences, beyond typical academic circles in their home disciplines. That could include developing community engagement programs, school outreach, leveraging online social networks, and other activities. The purpose of this study was to examine U.S. agricultural and natural resources (ANR) scientists’ typical science communication channels, their experiences utilizing Twitter for sharing their knowledge, research, and engaging in online public science discussion. Diffusion of Innovations theory and the model of science in-reach versus outreach guided this study. Researchers used a qualitative case study design. Data collection included ANR scientist interviews (n = 8) and application of Internet-based research methods for observing scientists’ Twitter activities. Four themes emerged from the data: 1) academic journals and conferences as scientists’ typical communication channels, yet Extension efforts help to broaden audiences, 2) scientists expected research to be peer-reviewed before public dissemination to combat misinformation and spreading of ‘junk science’, 3) scientists balanced professionalism, personalization, promotion, and Twitter hashtags for engagement, and 4) scientist-identified barriers to using Twitter included lack of time and avoiding heated discussions. Recommendations include revisiting scientists’ job descriptions and expectations for online science engagement. Also, there should be continual development and implementation of science communication training for scientists targeting best Twitter practices, growing followers for outreach beyond academic colleagues and groups, using visuals for online engagement, intentional scheduling for social media, and how to effectively navigate heated online discussions.
13 pages., Via online journal., Agricultural research in developing countries often involves collaboration between dispersed multicultural teams of scientists from developed and developing countries. The teams use information and computing technologies (ICTs) to communicate between team members, who originate from different cultures using different languages. This paper investigates the usability and utility of a range of ICTs used for communication between team members from different cultures. The research used an intercultural heuristic evaluation tool, or I‐CHET, to evaluate nine ICTs used by Australian and Lao scientists for team communication. The evaluation showed that asynchronous ICTs (e.g., e‐mail) were preferred by non‐native English speakers, while synchronous media (e.g., audio conferencing, instant messaging, Skype) presented considerable problems between team members from different cultures. Most ICTs evaluated in the study demonstrated little consideration for non‐native English speakers and for inexperienced ICTs users. However, all evaluated ICTs demonstrated the ability to transmit information and encourage communication between information users in scientific collaborations. The I‐CHET assessment tool highlights the ongoing need for a “toolbox” of communication ICTs for research collaborations that can be adapted to suit the cultural and professional needs of multinational teams, worldwide.
7 pages., ebook ISBN 978-3-319-90835-9, Via ebook chapter., The article studies the main reasons for low level of information provision of agricultural production, including the absence of legal documents on systemic development of informatization; imperfection of applied forms and methods of operative planning and regulation of technological processes in most agricultural organizations; unpreparedness of most managers and specialists in agriculture in the sphere of effective usage of scientific methods for managing production processes. The offers for creation of a single three-level automated information and management system are given; it is an initial and necessary condition for improvement of management of agricultural production, improvement of organizational and economic mechanism of management of production processes in the sphere, and implementation of digital economy. Besides, two variants of development of informatization in agricultural production are provided. The first one is the classic variant, based on studying the management object, design of its tasks and functions, and the second is based on creation of a three-level information system of managing the system in the country’s regions.
17 pages., via online journal., The biosecurity system is extremely important to New Zealand because the economy is based largely on exporting products derived from primary industry practices. Recent developments in trade practices such as online trade have put the biosecurity system in New Zealand under further strain. In light of this, engaging young people to support biosecurity initiatives is crucial. A qualitative approach using the interpretive mode of inquiry was used to investigate the message young people got out of biosecurity educational material in the public. One hundred and seventy-one young people completed a questionnaire that consisted of Likert-scale type questions and open-ended questions that focused on getting young people’s understanding of biosecurity related educational material. The findings show that young people emotionally connected with the biosecurity educational material, but were unable to get the biosecurity message. Building prior knowledge about biosecurity through teaching and learning is recommended.
16 pages., via online journal., The 2018 report from the Intergovernmental Panel on Climate Change warns that Earth’s temperatures may soon reach a tipping point that threatens humanity’s future. Scientists from many disciplines agree that anthropogenic climate change is a serious problem yet many Americans remain skeptical of the existence, causes, and/or severity of climate change. In this article, we review recent research on climate change communication focusing on audience variables and messaging strategies with the goal of providing communication practitioners research-based recommendations for climate change message design. Factors that influence audience acceptance and understanding of climate science include: demographic variables (such as political party affiliation, religious orientation, and geographic location), as well as brief sections on misinformation, and beliefs in pseudoscience. Keys to effectively construct climate messaging are discussed including: framing strategies; reducing psychological distance; emotional appeals; efficacy cues; weight-of-evidence/ weight of expert reporting; inoculation/correcting misinformation; and separating science from conspiracy theories. Evidence-based strategies are critical in giving science communicators the tools they need to bridge the gap between the scientific community and the at-risk public.
