Safety of genetically modified glyphosate-tolerant eucalyptus designed for integrated weed management

Background Eucalyptus is the primary cultivated wood species in Brazil, covering 7.5 million hectares. Weed competition in eucalyptus plantations reduces yield and increases operational costs. FuturaGene/Suzano has developed genetically modified (GM) eucalyptus varieties with glyphosate herbicide to...

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Bibliographic Details
Published inAdvances in Weed Science Vol. 41; p. e020230032
Main Authors Avisar, Dror, Dias, Tatiane B., Santos, Anselmo A. dos, Galan, Maria P., Gonsalves, José M. W, Graça, Rodrigo N., Livne, Sivan, Manoeli, Alexandre, Drezza, Thaís R., Porto, Antonio C. M., Rocha, Carolina S., Pinheiro, Ana Cristina
Format Journal Article
LanguageEnglish
Published Londrina Sociedade Brasileira da Ciência das Plantas Daninhas, UFV - Depto de Fitotecnia 01.01.2023
Sociedade Brasileira da Ciência das Plantas Daninhas - SBCPD
Subjects
Agricultural production
AGRONOMY
Cloning
Cost control
Ethanol
Genetic diversity
Genomes
Herbicides
Plantations
Brazil
Herbicide Tolerance
Glyphosate
Biosafety
GM trees
GM Eucalyptus
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Summary:Background Eucalyptus is the primary cultivated wood species in Brazil, covering 7.5 million hectares. Weed competition in eucalyptus plantations reduces yield and increases operational costs. FuturaGene/Suzano has developed genetically modified (GM) eucalyptus varieties with glyphosate herbicide tolerance (HT) as a modern tool for improving weed management practices in plantations. The first event received regulatory approval for commercial deployment in 2021. However, the introgression of a new GM trait into eucalyptus, a non-isogenic species, cannot be achieved through selfing or backcrossing. To overcome this limitation and expedite the introgression of HT into the breeding population, multiple GM events were generated, in various genetic backgrounds and genomic locations, enabling simultaneous crossing with numerous elite parents. Objective To characterize the newly developed HT GM eucalyptus events and assess their safety for the environment and wood production. Methods HT GM eucalyptus events were subjected to genome sequencing and glyphosate tolerance testing. Biosafety analyses and environmental impact assessments were conducted through field trials in various eucalyptus cultivation regions, comparing the HT GM eucalyptus with conventional clones. Results The new events proved highly tolerant to glyphosate and displayed different genomic insertion sites. No adverse effects on non-target organisms were observed, and there were no significant differences in the soil microbiota or decomposition profile.Conclusions: The HT GM events have been proven to be safe, posing a low risk to the environment, humans, and animals. Consequently, these HT GM eucalyptus varieties can be confidently utilized for wood production.
ISSN:2675-9462
2675-9462
DOI:10.51694/AdvWeedSci/2023;41:00019