Fitness of Insect-resistant transgenic rice T1C-19 under four growing conditions combining land use and weed competition.

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 : 2021-01-02 DOI:10.1080/21645698.2021.1914290

Jianmei Fu, Biao Liu, Laipan Liu, Zhixiang Fang

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Abstract

Transgene escape into natural ecosystems through seed spraying or transgene introgression may potentially cause environmental biosafety problems. In this study, we assessed the environmental risk of insect-resistant transgenic rice entering farmland margins or natural ecosystems adjacent to farmland. Transgenic Cry1C* rice (T1C-19) was used to study the effects of exogenous Cry1C* expression on vegetative and reproductive growth indices under different growing conditions using the following four combined treatments of land use and weeds: farmland and uncultivated land without weeds (F-NW and U-NW, respectively), and farmland and uncultivated land with weeds (F-W and U-W, respectively). The expression of Cry1C* protein under the U-NW, F-W, and U-W conditions was significantly lower than under the control condition, F-NW. Tiller number, biomass, filled grain number, filled grain weight, and other vegetative and reproductive indices were significantly lower in the rice line TIC-19 than in MH63 under F-NW and U-NW conditions, indicating a significant fitness cost. However, under F-W and U-W conditions, vegetative growth indices such as plant height, tiller number, and biomass, as well as reproductive growth indices such as filled grain number per plant, filled grain weight per plant, and seed setting rate in TIC-19 were similar to those in MH63, indicating a long-term coexistence. These results indicate a lower ecological risk of T1C-19 compared to MH63 under F-NW and U-NW, although their long-term coexistence may lead to potential ecological risks under F-W and U-W.

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抗虫转基因水稻T1C-19在土地利用和杂草竞争相结合的4种生长条件下的适宜性

转基因通过种子喷洒或基因渗入渗入自然生态系统，可能会造成环境生物安全问题。在本研究中，我们评估了转基因抗虫水稻进入农田边缘或农田周边自然生态系统的环境风险。以转Cry1C*转基因水稻(T1C-19)为研究对象，采用四种土地利用与杂草组合处理，即农田与无杂草荒地(F-NW和U-NW)和农田与有杂草荒地(F-W和U-W)，研究外源Cry1C*表达对不同生长条件下营养和生殖生长指标的影响。在U-NW、F-W和U-W条件下Cry1C*蛋白的表达量均显著低于对照条件F-NW。在F-NW和U-NW条件下，TIC-19的分蘖数、生物量、灌浆粒数、灌浆粒重等营养和生殖指标显著低于MH63，表明适宜性成本显著。而在F-W和U-W条件下，TIC-19的株高、分蘖数、生物量等营养生长指标，以及单株灌浆粒数、单株灌浆粒重、结实率等生殖生长指标与MH63相似，表现为长期共存。这些结果表明，在F-NW和U-NW条件下，T1C-19的生态风险较MH63低，但其长期共存可能导致F-W和U-W条件下的潜在生态风险。

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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