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Citation |
Vos SC, Sutton J, Yu Y, Renshaw SL, Olson MK, Gibson CB, Butts CT. Risk Anal. 2018; 38(12): 2580-2598. |
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Affiliation |
University of California, Irvine, CA, USA. |
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Copyright |
(Copyright © 2018, Society for Risk Analysis, Publisher John Wiley and Sons) |
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DOI |
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PMID |
30080933 |
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Abstract |
Social media platforms like Twitter and Facebook provide risk communicators with the opportunity to quickly reach their constituents at the time of an emerging infectious disease. On these platforms, messages gain exposure through message passing (called "sharing" on Facebook and "retweeting" on Twitter). This raises the question of how to optimize risk messages for diffusion across networks and, as a result, increase message exposure. In this study we add to this growing body of research by identifying message-level strategies to increase message passing during high-ambiguity events. In addition, we draw on the extended parallel process model to examine how threat and efficacy information influence the passing of Zika risk messages. In August 2016, we collected 1,409 Twitter messages about Zika sent by U.S. public health agencies' accounts. Using content analysis methods, we identified intrinsic message features and then analyzed the influence of those features, the account sending the message, the network surrounding the account, and the saliency of Zika as a topic, using negative binomial regression. The results suggest that severity and efficacy information increase how frequently messages get passed on to others. Drawing on the results of this study, previous research on message passing, and diffusion theories, we identify a framework for risk communication on social media. This framework includes four key variables that influence message passing and identifies a core set of message strategies, including message timing, to increase exposure to risk messages on social media during high-ambiguity events. Language: en |
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Keywords |
Efficacy; risk communication; social media; threat |