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.
19pgs, The following exploratory convergent mixed-methods study examined graduate students’ experiences
developing and facilitating 360º photo-based virtual reality (VR) tours titled Labs and Landscapes
focused on forest conservation and climate change education, as well as tour impacts on public
audiences. Graduate students in an agricultural and natural resources communication course at The
University of Florida used 360º cameras, mobile devices, and online software to create VR tours about the UF/IFAS Austin Cary Research Forest. Then, the students guided public participants through the tours in three physical informal learning environments including a museum, brewery, and campus tabling site within the university community. Data collection included VR tour artifacts, audio recordings of students’ VR facilitation and discourse with the public, post-surveys of public participants’ tour impressions and climate change attitudes, and pre-/post-student reflections. Data sources were collected separately and mixed in interpretation. Results showed students increased their multimedia communication skills, knowledge of natural resource conservation, and confidence in communicating with public audiences. Additionally, survey results indicated public participants agreed the students successfully guided the
tours, agreed it is important to learn about conservation and climate change, and had some disagreement with the statement that humans cannot prevent climate change.