Your search keyword '"GM eucalyptus"' showing total 2 results

1. Characterization of glyphosate-tolerant genetically modified eucalyptus

Author

Antonio Carlos Mota Porto, José Mateus Wisniewski Gonsalves, Paula Aparecida Vieira, Matheus Perek, Diego da Costa Lima, Marcio Nagayschi, Thais Regina Drezza, Ana Cristina Pinheiro, Eduardo Jose de Mello, Dror Avisar, and Rodrigo Neves Graca

Subjects

CP4-EPSPS, GM eucalyptus, herbicide-tolerance, photosynthesis, weed control, Plant culture, SB1-1110, Genetics, QH426-470

Abstract

Eucalyptus stands out as one of the most productive tree species for large-scale cultivation. However, like all cultivated crops, it requires specialized management practices, including the control of weeds, pathogens, and pests. Glyphosate is the most widely applied herbicide used in the essential weeding effort, and it ensures the sustainable management of eucalyptus cultivation in Brazil. Given the sensitivity of eucalyptus to glyphosate, existing weed control methods in young eucalyptus farms predominantly rely on protected mechanical or/and knapsack spraying. Both methods contribute to herbicide drift, which compromises tree yield and increases chemical waste due to uneven spraying. This study provides a detailed observation of the physiological parameters and long-term field performance of glyphosate-tolerant (HT), genetically modified (GM) eucalyptus developed by FuturaGene/Suzano S.A. and approved in Brazil for operational deployment. The HT GM eucalyptus events were meticulously evaluated to ensure high levels of glyphosate tolerance. This involved the direct application of herbicide on seedlings in greenhouse studies and on young trees in field conditions. The herbicide-treated GM eucalyptus in all trials demonstrated consistent growth and maintained physiological parameters comparable to their respective non-sprayed wild-type (WT) counterparts. The HT GM eucalyptus represents a significant advancement by enabling the direct application of glyphosate over the top of the trees to control the weeds within the planting row. This innovative approach minimizes the need for frequent mechanical and manual interventions, thereby lowering worker herbicide exposure, reducing the environmental impact of mechanical operations, and enhancing the overall efficiency and sustainability of HT GM eucalyptus stands.

Published

2024

2. Characterization of glyphosate-tolerant genetically modified eucalyptus.

Author

Mota Porto AC, Wisniewski Gonsalves JM, Vieira PA, Perek M, da Costa Lima D, Nagayschi M, Drezza TR, Pinheiro AC, de Mello EJ, Avisar D, and Neves Graca R

Subjects

Brazil, Weed Control methods, Eucalyptus genetics, Eucalyptus drug effects, Eucalyptus growth & development, Glyphosate, Glycine analogs & derivatives, Glycine pharmacology, Glycine toxicity, Plants, Genetically Modified genetics, Plants, Genetically Modified drug effects, Herbicides pharmacology, Herbicide Resistance genetics

Abstract

Eucalyptus stands out as one of the most productive tree species for large-scale cultivation. However, like all cultivated crops, it requires specialized management practices, including the control of weeds, pathogens, and pests. Glyphosate is the most widely applied herbicide used in the essential weeding effort, and it ensures the sustainable management of eucalyptus cultivation in Brazil. Given the sensitivity of eucalyptus to glyphosate, existing weed control methods in young eucalyptus farms predominantly rely on protected mechanical or/and knapsack spraying. Both methods contribute to herbicide drift, which compromises tree yield and increases chemical waste due to uneven spraying. This study provides a detailed observation of the physiological parameters and long-term field performance of glyphosate-tolerant (HT), genetically modified (GM) eucalyptus developed by FuturaGene/Suzano S.A. and approved in Brazil for operational deployment. The HT GM eucalyptus events were meticulously evaluated to ensure high levels of glyphosate tolerance. This involved the direct application of herbicide on seedlings in greenhouse studies and on young trees in field conditions. The herbicide-treated GM eucalyptus in all trials demonstrated consistent growth and maintained physiological parameters comparable to their respective non-sprayed wild-type (WT) counterparts. The HT GM eucalyptus represents a significant advancement by enabling the direct application of glyphosate over the top of the trees to control the weeds within the planting row. This innovative approach minimizes the need for frequent mechanical and manual interventions, thereby lowering worker herbicide exposure, reducing the environmental impact of mechanical operations, and enhancing the overall efficiency and sustainability of HT GM eucalyptus stands.

Published

2024