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Using social media to understand the impact of weather on skiing and snowboarding in Utah
National Outdoor Recreation Conference | Burlington, VT | April 23, 2018
SOCIAL MEDIA USE
79%32% 31%
29% 24%Greenwood et al. (2016)
SOCIAL MEDIA DATAAnalysis types
• Text-based• Photo-based• Geotagged spatial
• Tweets to understand how people frame climate change1
• Photos from Instagram and Flickr at a national park to understand visitor preferences2
• Geotags to track visitation3
1 Jang & Hart (2015) 2 Hausmann et al. (2017) 3 Wood et al. (2013)
SOCIAL MEDIA DATATracking visitation
• Flickr is useful for estimating visitation and home location at 836 tourism sites globally1
• Flickr shows temporal trends in US national park visitation2
• Flickr data shows a strong relationship with survey data for visitation to Iowa lakes3
• Instagram/Twitter/Flickr data are highly associated with monthly park visitation in Finland and South Africa4
1 Wood et al. (2013) 2 Sessions et al. (2016) 3 Keeler et al. (2015) 4 Tenkanen et al. (2017)
OBJECTIVES1. Examine the feasibility and uses of geotagged
Twitter data for outdoor recreation management2. Investigate how Twitter post volume at Utah ski
areas changes due to snow conditions
STUDY SITE Solitude, Brighton, Alta, & Snowbird
DATA COLLECTION: TWITTER• Rest API or streaming API• All tweets within resort boundaries• Tweet text
• Date/time• Geotag (coordinates)• Number of followers• Number of retweets• Home location• User name• User profile description
PLATFORM DIFFERENCESPLATFORM ACCESSABILITY TIME FRAME DATA SCALETwitter Live streaming,
7 days pastPresent + 7 days past 500 million tweets
per day, 1% availableInstagram Live streaming
(ending 12/11/2018)Present 95 million
photos/videos a dayFacebook None NA NA
Flickr Open access 2005 - Present 5 billion photos
Panoramio Open accessNo longer exists
2005-2016 94 million photos
Twitter, Inc. (2018); Instagram (2018); Flickr (2018); Kaiser (2018)
TEMPORAL SCALES
n = 594PUD = 325
n = 223PUD = 196
TWITTER DATA
NOAA (2018)
3/18/18 – 4/7/18
Snow data in inches
SPATIAL SCALES
n = 594PUD = 325
n = 3,344PUD = 1,417
MANAGEMENT IMPLICATIONSCommunicateTrack Visitation #Preferences
DOWNLOADING DATA
• Easily collect Twitter or Instagram data• Up to 100 posts every hour• Hashtag or location (5 km radius) • Saves to a csv file• Up to 5 datasets
Gruzd (2016)
#HASHTAG DATA COLLECTION
LOCATION DATA COLLECTION• Create locations• Search social media for location tag• Instagram locations taken from Facebook
COMMUNICATION TOOL
Wilkins, Smith, & Keane (in review)
Emily J. WilkinsJordan W. Smith
Contact : emily.wilkins@aggiemail.usu.edu: @WilkinsScience
REFERENCESFlickr. (2018). The Flickr Developer Guide. Available from https://www.flickr.com/services/developer
Greenwood, S., Perrin, A., & Duggan, M. (2016). Social media update 2016. Washington, DC: Pew Research Center.
Gruzd, A. (2016). Netlytic: Software for Automated Text and Social Network Analysis. Available at http://Netlytic.org
Hausmann, A., Toivonen, T., Slotow, R., Tenkanen, H., Moilanen, A., Heikinheimo, V., & Di Minin, E. (2017). Social Media Data Can Be Used to Understand Tourists’ Preferences for Nature-Based Experiences in Protected Areas. Conservation Letters.
Instagram (2018). Instagram API Overview. Available from https://www.instagram.com/developer.
Jang, S. M., & Hart, P.S. (2015). Polarized frames on “climate change” and “global warming” across countries and states: Evidence from Twitter big data. Global Environmental Change, 32, 11-17.
Kaiser. (2018). Panorank – Global stats. Available from www.panorank.com/index.php?lang=en&op=global
Keeler, B.L., Wood, S. A., Polasky, S., Kling, C., Filstrup, C.T., Downing, J.A. (2015). Recreational demand for clean water: evidence from geotaggedphotographs by visitors to lakes. Frontiers in Ecology and the Environment, 13(2), 76-81.
NOAA (2018). National Centers for Environmental Information: Climate Data Online. Available at https://www.ncdc.noaa.gov/cdo-web/customoptions
Sessions, C., Wood, S. A., Rabotyagov, S., & Fisher, D. M. (2016). Measuring recreational visitation at U.S. National Parks with crowd-sourced photographs. Journal of Environmental Management, 183, 703-711. doi:10.1016/j.jenvman.2016.09.018
Tenkanen, H., Di Minin, E., Heikinheimo, V., Hausmann, A., Herbst, M., Kajala, L., & Toivonen, T. (2017). Instagram, Flickr, or Twitter: Assessing the usability of social media data for visitor monitoring in protected areas. Scientific Reports, 7(1), 17615
Twitter, Inc. (2018). Getting started. Available from https://developer.twitter.com/en/docs/basics/getting-started
Wilkins, E. J., Smith, J. W., & Keane, R. (in review). Social media communication preferences of national park visitors. Manuscript submitted to Applied Environmental Education & Communication.
Wood, S. A., Guerry, A. D., Silver, J. M., & Lacayo, M. (2013). Using social media to quantify nature-based tourism and recreation. Scientific reports, 3, 2976. doi:10.1038/srep02976
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