How biological background assumptions influence scientific risk evaluation of stacked genetically modified plants: an analysis of research hypotheses and argumentations.

IF 3.1 Q1 Arts and Humanities
Elena Rocca, Fredrik Andersen
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引用次数: 9

Abstract

Scientific risk evaluations are constructed by specific evidence, value judgements and biological background assumptions. The latter are the framework-setting suppositions we apply in order to understand some new phenomenon. That background assumptions co-determine choice of methodology, data interpretation, and choice of relevant evidence is an uncontroversial claim in modern basic science. Furthermore, it is commonly accepted that, unless explicated, disagreements in background assumptions can lead to misunderstanding as well as miscommunication. Here, we extend the discussion on background assumptions from basic science to the debate over genetically modified (GM) plants risk assessment. In this realm, while the different political, social and economic values are often mentioned, the identity and role of background assumptions at play are rarely examined. We use an example from the debate over risk assessment of stacked genetically modified plants (GM stacks), obtained by applying conventional breeding techniques to GM plants. There are two main regulatory practices of GM stacks: (i) regulate as conventional hybrids and (ii) regulate as new GM plants. We analyzed eight papers representative of these positions and found that, in all cases, additional premises are needed to reach the stated conclusions. We suggest that these premises play the role of biological background assumptions and argue that the most effective way toward a unified framework for risk analysis and regulation of GM stacks is by explicating and examining the biological background assumptions of each position. Once explicated, it is possible to either evaluate which background assumptions best reflect contemporary biological knowledge, or to apply Douglas' 'inductive risk' argument.

生物背景假设如何影响堆叠转基因植物的科学风险评估:研究假设和论证的分析。
科学的风险评估是由具体的证据、价值判断和生物学背景假设构成的。后者是我们用来理解一些新现象的框架设置假设。在现代基础科学中,背景假设共同决定了方法论的选择、数据解释和相关证据的选择,这是一个无可争议的主张。此外,人们普遍认为,除非对背景假设加以说明,否则分歧会导致误解和沟通不畅。在这里,我们将背景假设的讨论从基础科学扩展到转基因植物风险评估的争论。在这一领域,虽然经常提到不同的政治、社会和经济价值,但很少审查所起作用的背景假设的身份和作用。我们使用了一个关于堆叠转基因植物风险评估的争论中的例子,该风险评估是通过将常规育种技术应用于转基因植物而获得的。有两种主要的转基因作物管理做法:(i)作为传统杂交品种进行管理;(ii)作为新的转基因植物进行管理。我们分析了代表这些立场的八篇论文,发现在所有情况下,都需要额外的前提才能得出上述结论。我们认为这些前提发挥了生物背景假设的作用,并认为通过解释和检查每个位置的生物背景假设,是建立统一的转基因堆栈风险分析和监管框架的最有效方法。一旦解释清楚,就有可能评估哪些背景假设最能反映当代生物学知识,或者应用道格拉斯的“归纳风险”论点。
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来源期刊
Life Sciences, Society and Policy
Life Sciences, Society and Policy Arts and Humanities-Philosophy
自引率
0.00%
发文量
0
审稿时长
18 weeks
期刊介绍: The purpose of Life Sciences, Society and Policy (LSSP) is to analyse social, ethical and legal dimensions of the most dynamic branches of life sciences and technologies, and to discuss ways to foster responsible innovation, sustainable development and user-driven social policies. LSSP provides an academic forum for engaged scholarship at the intersection of life sciences, philosophy, bioethics, science studies and policy research, and covers a broad area of inquiry both in emerging research areas such as genomics, bioinformatics, biophysics, molecular engineering, nanotechnology and synthetic biology, and in more applied fields such as translational medicine, food science, environmental science, climate studies, research on animals, sustainability, science education and others. The goal is to produce insights, tools and recommendations that are relevant not only for academic researchers and teachers, but also for civil society, policy makers and industry, as well as for professionals in education, health care and the media, thus contributing to better research practices, better policies, and a more sustainable global society.
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