Rohling, Katie (author), Wandersee, Cassie (author), Baker, Lauri M. (author), and Tomlinson, Peter (author)
Format:
Conference paper
Publication Date:
2016-02
Published:
USA
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 162 Document Number: D08133
Notes:
Research paper presented in the Agricultural Communications Section, Southern Association of Agricultural Scientists (SAAS) in San Antonio, Texas, February 7-8, 2016. 23 pages.
Online via publication website., The purpose of this study was to determine how education and communication professionals involved in climate-change communication are framing their discussions about climate change with agricultural producers. Researchers used semi-structured telephone interviews to gather information. Findings touched on communications factors such as audience analysis, appropriate terminology, localization of information, framing messages, and information sources.
14 pages., via online journal., This research aims to identify and communicate water-related vulnerabilities in transport infrastructure, specifically flood risk of road/rail-stream intersections, based on watershed characteristics. This was done using flooding in Värmland and Västra Götaland, Sweden in August 2014 as case studies on which risk models are built. Three different statistical modelling approaches were considered: a partial least square regression, a binomial logistic regression, and artificial neural networks. Using the results of the different modelling approaches together in an ensemble makes it possible to cross-validate their results. To help visualize this and provide a tool for communication with stakeholders (e.g., the Swedish Transport Administration - Trafikverket), a flood ‘thermometer’ indicating the level of flooding risk at a given point was developed. This tool improved stakeholder interaction and helped highlight the need for better data collection in order to increase the accuracy and generalizability of modelling approaches.