Gender integration of agricultural innovation: implications for the genetically modified crop product development pipeline.

IF 4.5 2区农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Gm Crops & Food-Biotechnology in Agriculture and the Food Chain Pub Date : 2024-12-31 Epub Date: 2024-12-07 DOI:10.1080/21645698.2024.2431203

Elizabeth Katz

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Abstract

We provide guidance on how to incorporate best practices around gender integration in the development of genetically improved crops by adapting a gender integration framework for conventional crop breeding to the GM product development pipeline, which places greater emphasis on the discovery and launch phases because the technical nature of the development process means fewer opportunities for farmer engagement or pivoting possibilities between these two ends of the product development spectrum. For crop innovation to be relevant to both women and men producers, during the discovery phase, developers can conduct baseline gender analysis consisting of gender-disaggregated value chain analysis, systematic learning about gender-specific crop trait preferences, and identification of varietal preferences by women and men along the value chain. The latter opportunity in the GM product development pathway for intentional gender integration is deployment, including pre-launch activities such as field demonstrations and consumer testing. We also describe ex ante and ex post gender impact assessment methods. We conclude with a number of gender integration recommendations for GM product developers: improving gender data collection and analysis to inform crop innovation efforts, investing in staffing and training of scientific teams to enhance gender expertise, and increasing accountability of product development teams with gender-intentional monitoring and evaluation systems.

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农业创新的性别整合：对转基因作物产品开发管道的影响。

我们通过将传统作物育种的性别整合框架适应于转基因产品开发管道，为如何将性别整合方面的最佳实践纳入转基因作物开发提供指导；它更加强调发现和发布阶段，因为开发过程的技术性质意味着农民参与的机会更少，或者在产品开发光谱的这两个端点之间切换的可能性更少。为了使作物创新与女性和男性生产者都相关，在发现阶段，开发人员可以进行基线性别分析，包括按性别分类的价值链分析，系统地了解针对性别的作物性状偏好，以及确定价值链上女性和男性的品种偏好。在转基因产品开发途径中有意实现性别融合的后一个机会是部署，包括启动前的活动，如实地演示和消费者测试。我们还描述了事前和事后性别影响评估方法。最后，我们为转基因产品开发人员提出了一些性别整合建议：改进性别数据收集和分析，为作物创新工作提供信息；投资于科学团队的人员配备和培训，以增强性别专业知识；通过注重性别的监测和评估系统加强产品开发团队的问责制。

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来源期刊

Gm Crops & Food-Biotechnology in Agriculture and the Food Chain Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

8.10

自引率

10.30%

发文量

期刊介绍： GM Crops & Food - Biotechnology in Agriculture and the Food Chain aims to publish high quality research papers, reviews, and commentaries on a wide range of topics involving genetically modified (GM) crops in agriculture and genetically modified food. The journal provides a platform for research papers addressing fundamental questions in the development, testing, and application of transgenic crops. The journal further covers topics relating to socio-economic issues, commercialization, trade and societal issues. GM Crops & Food aims to provide an international forum on all issues related to GM crops, especially toward meaningful communication between scientists and policy-makers. GM Crops & Food will publish relevant and high-impact original research with a special focus on novelty-driven studies with the potential for application. The journal also publishes authoritative review articles on current research and policy initiatives, and commentary on broad perspectives regarding genetically modified crops. The journal serves a wide readership including scientists, breeders, and policy-makers, as well as a wider community of readers (educators, policy makers, scholars, science writers and students) interested in agriculture, medicine, biotechnology, investment, and technology transfer. Topics covered include, but are not limited to: • Production and analysis of transgenic crops • Gene insertion studies • Gene silencing • Factors affecting gene expression • Post-translational analysis • Molecular farming • Field trial analysis • Commercialization of modified crops • Safety and regulatory affairs BIOLOGICAL SCIENCE AND TECHNOLOGY • Biofuels • Data from field trials • Development of transformation technology • Elimination of pollutants (Bioremediation) • Gene silencing mechanisms • Genome Editing • Herbicide resistance • Molecular farming • Pest resistance • Plant reproduction (e.g., male sterility, hybrid breeding, apomixis) • Plants with altered composition • Tolerance to abiotic stress • Transgenesis in agriculture • Biofortification and nutrients improvement • Genomic, proteomic and bioinformatics methods used for developing GM cops ECONOMIC, POLITICAL AND SOCIAL ISSUES • Commercialization • Consumer attitudes • International bodies • National and local government policies • Public perception, intellectual property, education, (bio)ethical issues • Regulation, environmental impact and containment • Socio-economic impact • Food safety and security • Risk assessments