期刊
PLANTS-BASEL
卷 11, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/plants11101292
关键词
Jatropha curcas; biodiesel; natural resource; micropropagation; plant genetic transformation
资金
- King Faisal University, Saudi Arabia [GRANT338]
Environmental pollution is a pressing global challenge, primarily caused by fuel emissions. Green fuel, such as biodiesel, is a realistic option to address this issue. The use of plant tissue culture techniques is necessary to meet the global demand for biomass in biodiesel production.
Environmental pollution is one of the most pressing challenges in today's world. The main cause of this pollution is fuel emissions from automobiles and other sources. As industrialization progresses, we will be unable to compromise on the use of energy to power heavy machines and will be forced to seek out the best options. As a consequence, utilizing green fuel, such as biodiesel derived from natural sources, is a realistic option. Jatropha curcas L. (Euphorbiaceae) is recognized as the greatest feedstock for biodiesel production throughout the world, and it has gained a huge market value in the recent years. Conventional cultivation alone will not be sufficient to meet the global need for the plant's biomass for the production of biodiesel. Adoption of plant tissue culture techniques that improve the biomass availability is an immediate need. The present review provides detailed information regarding in-vitro plant propagation (direct and indirect organogenesis), somatic embryogenesis, and acclimatization protocols of plantlets for stabilized production of biomass. The review also focuses on biotechnological approaches such as gene transformation studies, production of haploids, and double haploids for developing elite germplasm for high biomass and improved traits for the production of biodiesel.
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