Editorial
Editorial. Transgene containment by molecular means - is it possible and cost effective?
- Bao-Rong Lu
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- Published online by Cambridge University Press:
- 15 January 2003, pp. 3-8
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With the rapid advancement of transgenic biotechnology, large numbers of transgenic crops have been produced and released for commercial cultivation (James, 2001), raising considerable biosafety concerns all over the world. One of the major issues is the potential ecological risk resulting from transgenes escaping into and persist- ing in the environment. The extensive on-going debate on this issue (Arriola, 1997; Wolfenbarger and Phifer, 2000; Crawley et al., 2001; Prakash, 2001; Dale et al., 2002) poses challenging questions regarding the research direc- tions that need to be taken to ensure that biotechnology outputs are responsibly deployed worldwide. Unless these biosafety issues are satisfactorily addressed, large-scale commercial release of the transgenic crops developed and further advancement of transgenic bio- technology are likely to be hampered. For an in-depth review of crop-to-wild gene flow, see Jenczewski et al. (2002) in this number of EBR. Here the more specific issue of the effectiveness of preventing gene flow from occurring will be discussed.
Research Article
Crop-to-wild gene flow, introgression and possible fitness effects of transgenes
- Eric Jenczewski, Joëlle Ronfort, Anne-Marie Chèvre
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- Published online by Cambridge University Press:
- 15 January 2003, pp. 9-24
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Crop-to-wild gene flow has received close attention over the past ten years in connection with the development and cultivation of transgenic crops. In this paper, we review key examples of crop/wild sympatry and overlapping flowering phenology, pollen and seed dispersal, the barriers to hybridisation and introgression, the evolution and fate of interspecific hybrids, their fitness, and the potential cost of transgenes. We pay particular attention to ways in which the evolution and divergence between crops and their wild relatives may interfere with these successive steps. Our review suggests that crop-to-weed gene flow is highly idiosyncratic and that crop gene dispersion will certainly be very difficult to preclude totally. Future directions for research should thus focus on the long-term establishment and effects of transgenes on natural communities.
Using environmental bonds to regulate the risks of GM crops: problems and prospects
- Siân Mooney, David Gerard
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- Published online by Cambridge University Press:
- 15 January 2003, pp. 25-32
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We examine the characteristics and limitations of the existing system of tort liability for addressing potential environmental damages from GM crops and consider whether environmental bonding could be used to address these risks. We find that in the case of GM crops, a bonding mechanism would complement some of the strengths of tort liability. Specifically, the bonding mechanism provides some protection against bankruptcy, and also shifts the burden of risk toward life science companies that develop the technology. These factors could encourage additional early research by life science firms. However, a bonding mechanism adds to the regulatory apparatus, and would likely increase administrative costs, over tort liability, for public and private parties. Nevertheless, an attractive possibility is that the cumulative outcomes of bonding, e.g., shifting the risk burden, providing a measure of bankruptcy protection, and introducing an additional regulatory component, would mitigate some of the political and social objections to the environmental release of GM crops.
Towards the safe use of modern biotechnology: Report on the 7th International Symposium on the Biosafety of Genetically Modified Organisms held in Beijing (China) October 10-16, 2002
- Ervin Balázs
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- Published online by Cambridge University Press:
- 15 January 2003, pp. 35-36
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Along with the introduction of genetically modified organisms in the field, both biotechnology companies and academic institutes have conducted biosafety research in order to study the potential ecological impact of the modified organisms. With the growing concerns among various stakeholders, priority has been given to academic research on biosafety-related issues. For instance, the European Commission begun funding biosafety research of genetically modified plants in 1989, right after the first experimental releases of those modified crops. In the 5th Framework EC Research program biosafety research became a key action supporting 81 projects (for details see: http:// europa.eu.int/comm/research/quality-of-life/gmo/index.html).
During this period, researchers gathered regularly to exchange ideas and their latest research results in this field at different workshops and also at a series of symposia held biennially since 1990. As early as the 5th International Symposium on the Biosafety of Genetically Modified Organisms, held in Braunschweig (Germany) in 1998, the Symposium's International Advisory Committee supported an idea to launch a new peer-reviewed journal, Environmental Biosafety Research (EBR), to facilitate communication in this research area, where controversial views are constantly expressed. It is hoped that EBR will contribute to clarifying the scientific terms of the debate, and that this will be useful for decision makers and other members of society. Another important event was the incorporation of a new learned Society, the International Society for Biosafety Research (ISBR), which was decided at the the 6th Symposium held in Saskatoon (Canada) in 2000.
At the most recent Symposium, the first ISBR officers were elected: President, Alan McHughen (USA); Vice- President, Mark Tepfer (France); Secretary/Treasurer, Allison Snow (USA). Scientists who met at the 7th International Symposium in Beijing appreciated the quality of the first issue of EBR (a sample copy can be requested, and subscription purchased at: http:// www.edpsciences.org/ebr/) and the possibility of registration for membership of the newly-incorporated Society. Information on becoming an ISBR member, which gives the right to a reduced subscription price for EBR, can be obtained from Allison Snow (snow.1@osu.edu).
In Beijing, where more than 300 scientists registered from more than 30 countries, participants were able to learn not only the latest results on biosafety research, and in particular received first hand information about biosafety research in China, where GM crops are grown for commercial purposes. At this latest Symposium, the opening ceremony reflected the importance of the new technology, along with the safety considerations. This was followed by the different scientific sessions on new science for enhanced biosafety, consequences of gene flow, the possible implications of the releases of transgenic crops in centers of origin or diversity, the rationale of GMO regulations, biosafety considerations in China, transgenic insects for pest management programs and the effect of GMOs on microbial communities. The Symposium Programme Committee selected the above mentioned hot topics, among which two had outstanding interest for the audience. First, this was the first time that biosafety considerations on the release of transgenic insects were discussed, and second, the different questions raised by the detection of a Bt gene in landraces of Mexican corn were debated. These sessions were followed by a field trip to Langfang (Hebei Province) to visit a transgenic Bt cotton field.
The opening lectures, delivered by the Vice Minister of China's Ministry of Science and Technology, followed by the Vice Minister of China's Ministry of Agriculture, emphasized that Chinese agriculture is the fourth largest in the world, feeding over 20 This fact underlines that food safety and security are of great concern to Chinese society. The introduction of modern technology into agricultural practice could start a new green revolution by helping to meet with the growing food demand especially from the point of view of quality. China issued safety administration regulations on genetic engineering as early 1993. Implementing the regulations was started in 1996, by regulating field tests, environmental releases, and commercialization of transgenic plants. Since 1997, a total of 703 applications for biosafety evaluations were registered, and 517 were approved. Last year, ten lines of transgenic plants were approved, including the most important crops for China, such as rice, soybean and cotton. After the inaugural lectures, Axel Hebel, representing UNESCO, expressed the importance of biosafety research on a global scale, while Charles Kessler (EC) presented the view of the European Union member states, and the actions taken by the Commission, which supported the organization of this symposium and is strongly committed to the organization of the following ISBR Symposium in France in 2004.
The independent scientific sessions chaired by distinguished scientists from all over the world presented the state of the art of the selected topics. In this special section of EBR, the session chairs have been asked to collaborate closely with the speakers, in order to summarize the major achievements of their sessions.
Plenary scientific sessions at 7th International Symposium on the Biosafety of Genetically Modified Organisms :
• New science for enhanced biosafety – Joachim Schiemann
• Consequences of gene flow – Allison Snow
• Possible implication of the release of transgenic crops in centers of origin or diversity – Ariel Alvarez–Morales
• Why regulate and how? – Julian Kinderlerer
• Research and regulation on Biosafety of GMOs in China – Hongguang Wang (overview written by Yufa Peng and Shirong Jia)
• Transgenic insects for pest management programs: status and prospects – Marjorie Hoy
• Effects of GMOs on microbial communities – Kornelia Smalla