Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 141 Document Number: D06191
Notes:
Locate in file folder for Document No. D06187, Pages 56-59 in L. Johnson, Alhassan WS Anthony V. and P. Rudelsheim (eds.), 2011. Agricultural biotechnology in Africa: stewardship case studies. Forum for Agricultural Research in Africa, Accra,Ghana. 60 pages., Authors emphasize the importance of having integrated communication and awareness training programmes for all players in the product life cycle.
26 pages., via online journal., This paper employs the patent data of four major genetically modified (GM) crops, soybeans, cotton, maize and rapeseed, to illustratee how the innovation of GM crop technology diffused and distributed globally over time. Data collected from the Derwent Innovation Index, were employed to construct country patent citation networks, from 1984 to 2015, and the results revealed that developed countries were early adopters, and the primary actors in the innovation of GM crop technology. Only seven developing countries appeared in the country citation network. Most developed countries were reluctant to apply GM crop technology for commercial cultivation. Private businesses stood out in the patent citation network. The early adoption and better performance of developed countries can be explained by the activities of large established private companies.
USA: U.S. Department of Agriculture, Washington, D.C.
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 201 Document Number: D11770
Notes:
Online via AgriMarketing Weekly. 1 page., U.S. Department of Agriculture reports that more than 90 percent of corn, soybean, and cotton acreage involves herbicide-resistant varieties. Currently, 92 percent of U.S. cotton acres are planted with genetically-engineered, insect-resistant seeds and 83 percent of U.S. corn acres.
