Recalcitrant maize: Conserving agrobiodiversity in the era of genetically modified organisms

IF 3.7 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Plants People Planet Pub Date : 2023-09-11 DOI:10.1002/ppp3.10426
Marianna Fenzi, Jean Foyer, Valérie Boisvert, Hugo Perales
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Abstract

Societal Impact Statement The problem of genetically modified maize contamination in Mexico is the result of both planned and unplanned consequences of scientific and political choices. We show how a risk management strategy based on the modernist dichotomy between “modern” and “native” has failed to protect Mexican landraces and has marginalized other forms of knowledge that are urgently needed to understand and support the fluidity of Mexican biocultural landscapes. Farmers' seed systems are a fundamental source of crop resilience and evolution. They can constitute safe pathways for creating new maize varieties able to withstand climate and societal changes. Summary In 2001, an alert on the contamination of Mexican maize landraces by genetically modified (GM) maize spurred new actions to conserve the world's biggest reservoir of maize genetic diversity. We analyze how the largest maize collection effort in Mexican history, and the definition of the conservation procedures employed in it, either involved or marginalized different approaches to this environmental problem. The article is grounded in the sociohistorical analysis of the controversy of GM maize contamination and brings together new historiographical perspectives on Mexican scientific and political interest in native maize. It also draws on ethnographic approaches, extended fieldwork, and analysis of data from Mexican government agencies. We show how different epistemological traditions have made the risk of GM maize contamination (in)visible and thereby generated normative choices. We illustrate how the GMO controversy brought the theme of native maize back onto the Mexican political and scientific agenda. The normativity that shaped the controversy in the 2000s influenced current knowledge and how the problem of GM maize introgression is still addressed today. The entanglements between biotechnology, native landraces, and farmers' practices are too dense to be “scientized” and kept separate to be made manageable as areas of purely technical “risk.” The result is a geography of maize infused with all sorts of temporalities and materiality, which escapes the bounds of technoscientific framings. This intricate environment‐making process calls for new collaborations among epistemic cultures to tackle the possible consequences of GMOs for agrobiodiversity, seed systems, and their resilience.
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顽固性玉米:在转基因生物时代保护农业生物多样性
墨西哥的转基因玉米污染问题是科学和政治选择的计划和非计划后果的结果。我们展示了基于现代主义“现代”和“本土”二分法的风险管理策略如何未能保护墨西哥本土种族,并边缘化了其他形式的知识,而这些知识对于理解和支持墨西哥生物文化景观的流动性是迫切需要的。农民的种子系统是作物恢复力和进化的基本来源。它们可以构成培育能够抵御气候和社会变化的玉米新品种的安全途径。2001年,关于墨西哥玉米地方品种受到转基因玉米污染的警报促使人们采取新的行动来保护世界上最大的玉米遗传多样性储存库。我们分析了墨西哥历史上最大的玉米收集工作,以及其中所采用的保护程序的定义,如何涉及或边缘化了解决这一环境问题的不同方法。这篇文章基于对转基因玉米污染争议的社会历史分析,并汇集了墨西哥对本土玉米的科学和政治兴趣的新史学观点。它还借鉴了民族志方法、扩展的田野调查和墨西哥政府机构的数据分析。我们展示了不同的认识论传统如何使转基因玉米污染的风险可见,从而产生规范的选择。我们说明了转基因争议如何将本土玉米的主题重新带入墨西哥的政治和科学议程。在2000年代形成争议的规范性影响了当前的知识,以及今天如何解决转基因玉米渗入问题。生物技术、本土种族和农民实践之间的纠缠过于密集,无法“科学化”,也无法作为纯技术“风险”领域进行管理。其结果是玉米的地理注入了各种各样的时间性和物质性,它逃脱了技术科学框架的界限。这一复杂的环境形成过程要求认知文化之间开展新的合作,以解决转基因生物对农业生物多样性、种子系统及其恢复力可能产生的影响。
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来源期刊
CiteScore
9.90
自引率
5.90%
发文量
81
审稿时长
12 weeks
期刊介绍: Plants, People, Planet aims to publish outstanding research across the plant sciences, placing it firmly within the context of its wider relevance to people, society and the planet. We encourage scientists to consider carefully the potential impact of their research on people’s daily lives, on society, and on the world in which we live. We welcome submissions from all areas of plant sciences, from ecosystem studies to molecular genetics, and particularly encourage interdisciplinary studies, for instance within the social and medical sciences and chemistry and engineering.
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