Application of low-temperature plasma technology in the field of agriculture
DOI:
https://doi.org/10.62051/612yer59Keywords:
Plasma, Agricultural processing, Discharge technology, Dynamism.Abstract
The low-temperature plasma crop seed treatment technology has opened up a new way for the application of plasma in crops, creating a new path for high and stable yield of crops, and enriching agricultural yield increasing technology. This article briefly describes the innovative development of low-temperature plasma seed treatment technology, introduces the series of applications of plasma technology in crop seeds, as well as the biological effects and activation mechanisms of plasma. It also looks forward to the development and application prospects of plasma seed treatment technology.
Downloads
References
Tian X., Peng P., Paul K. Enhancement of process efficacy using seed plasma in pulsed high-voltage glow-discharge plasma implantation [J]. Physics Letters, 2002, 303(8): 67-71.
Richard K., Marketa B., Oto M., et al. Application of size-exclusion chromatograpthy-inductively coupled plassma mass spectrometry for fractionation of element species in seeds of legumes [J]. Journal of Chromatography B, 2002, 775(5): 179-187.
Meiqiang Y., Mingjing H., Buzhou M., et al. Stimulating Effects of Seed Treatment by Magnetized Plasma on Tomato Growth and Yield [J]. Plasma Science & Technology, 2005, 7 (6): 3143-3147.
Marshal D., Sook-Yong L., Sang-Un P., et al. Using low-pressure plasma for Carthamus tinctorium L. seed surface modification [J]. Vacuum, 2006, 80(5): 499-506.
Hajime S., Takehiro S., Ichiro T. Expression analysis of genes encoding plasma membrane aquaporins during seed and fruit development in tomato [J]. Plant Science, 2006, 171(4): 277-285.
Downloads
Published
Conference Proceedings Volume
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
