Abstract
Climate change is forcing our societies to undertake socioeconomic changes to mitigate greenhouse gas emissions, primarily carbon dioxide, which continue to rise globally. Governments are applying policies to offset carbon emissions, despite the significant economic impact. Biotechnology offers solutions to dampen this impact, particularly in agriculture and industry, where plant biotechnology enhances production efficiency while reducing environmental impact. Camelina sativa, a climate-flexible oilseed crop with low agronomical exigence, offers promising alternatives to petroleum-derived oils. Oil derived from camelina seeds has the potential to substitute petroleum as the feedstock for the production of oleochemicals, which are compounds derived from vegetable or animal oils and/or petrochemical feedstock. The deep knowledge of the camelina genome, together with the optimized process to obtain genetically engineered camelina lines with on-demand modified oils, makes this oilseed crop a workhorse to counteract the environmental impact derived from human activity.
Funder
EU ERDF (FEDER) funds through the General Secretariat for Universities, Research and Technology of the Andalusian Knowledge System
Spanish Ministry of Universities
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