Joffre, Olivier M. (author), Bosma, Roel H. (author), Ligtenberg, Arend (author), Tri, Van Pham Dang (author), Ha, Tran Thi Phung (author), and Bregt, Arnold K. (author)
Format:
Journal article
Publication Date:
2015-12
Published:
Vietnam: Elsevier
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 160 Document Number: D07800
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 34 Document Number: D10674
Notes:
6 pages., via Scientific American website., Demand for seafood is increasing across the globe, and the United States is no exception. Aquaculture, or aquatic farming, is increasingly meeting this demand and now supplies just over 50 percent of all seafood globally. In fact, it has been one of the world’s fastest growing food sectors for years.
Using two samples of U.S. adults (Study 1: N = 336; Study 2: N = 2329), this study features a messaging experiment utilizing a between-subjects design, with a no-message control group, to explore the impact of a narrative video, in comparison to an infographic video, on support for sustainable aquaculture. Results indicate that the infographic video type is more transporting than the narrative video, and that transportation influences support for aquaculture indirectly through emotional response, as well as risk and benefit perceptions; however, importantly, we also note that video content may have contributed to the observed differences. For an emerging issue like aquaculture with environmental and human health implications, strategic messaging, especially when accompanied by vivid images, may allow audiences to better engage with a complex and contentious topic.
International: Center for Food Integrity, Gladstone, Missouri.
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 166 Document Number: D11681
Notes:
3 pages., News release via online., News release covering a meeting panelist's remarks during a webinar about shifting sustainability priorities related to the food system.
8 pages, via online journal, Dense networks of rivers, canals, ditches, dikes, sluice gates, and compartmented fields have enabled the farms of the Red River Delta to produce 18% of Vietnam's rice (Oryza sativa) crop (figure 1), 26% of the country's vegetable crops, and 20% of capture and farmed aquaculture (Redfern et al. 2012). Agriculture in this fertile delta was transformed in the 11th and 13th century AD by large-scale hydraulic projects to protect the delta from flooding and saltwater intrusion, and provide field drainage during the wet season and crop irrigation in the dry season (Tinh 1999). The 20th century brought advancements in agricultural science globally—new crops and livestock genetics, inorganic fertilizers, mechanization, and pesticides that could double and triple food production per unit of land. It was the diesel pump combined with post-Vietnam War agricultural collectivization from 1975 to 1988 that brought the Green Revolution to the Red River Delta.
