[1] Xincai YANG. Planting history and technical evolution of Chinese medlar. Ancient and Modern Agriculture, 49-54(2006).

[2] B Šerá, V Scholtz, J Jirešová et al. Effects of non-thermal plasma treatment on seed germination and early growth of leguminous plants-a review. Plants (Basel), 10, 1616(2021).

[3] Y L Zhu et al. Feasibility of cold plasma for the control of biofilms in food industry. Trends in Food Science & Technology, 99, 142-151(2020).

[4] T VON Woedtke, A Schmidt, S Bekeschus et al. Plasma medicine: a field of applied redox biology. In Vivo (Athens, Greece), 33, 1011-1026(2019).

[5] A E Dubinov, E R Lazarenko, V D Selemir. Effect of glow discharge air plasma on grain crops seed. IEEE Transactions on Plasma Science, 28, 180-183(2000).

[6] Aixiang WANG. Formation of contact glow discharge electrolysis plasma and its application in polymerization(2008).

[7] Lei WANG, Guoxin LI, Dailin LI et al. Oxidative degradation of dibutyl phthalate induced by glow discharge plasma in aqueous solution. Chinese Journal of Environmental Engineering, 8, 3577-3584(2014).

[8] Mingyuan DU, Haitao LONG, Lipeng TIAN et al. Fungicidal effect of glow discharge plasma on fusarium sulphureum. Food Science, 41, 89-96(2020).

[9] Yuhong XU, Haitao LONG, Ting WANG et al. Effects of contact glow discharge plasma and seed treatment methodology on alfalfa seed germination. Journal of Radiation Research and Radiation Processing, 40, 51-61(2022).

[10] Yan SUN, Lumei PU, Haitao LONG et al. Effect of glow discharge plasma on the degradation of patulin in apple juice and its quality. Science and Technology of Food Industry, 36, 104-108(2015).

[11] Zhan SHU, Xiaosu ZHANG, Juan CHEN et al. The simplification of chlorophyll content measurement. Plant Physiology Communications, 46, 399-402(2010).

[12] C L Rüntzel, J R da Silva, B A da Silva et al. Effect of cold plasma on black beans (Phaseolus vulgaris L.), fungi inactivation and micro-structures stability. Emirates Journal of Food and Agriculture, 864(2019).

[13] A Mitra, Y F Li, T G Klämpfl et al. Inactivation of surface-borne microorganisms and increased germination of seed specimen by cold atmospheric plasma. Food and Bioprocess Technology, 7, 645-653(2014).

[14] Y G Liu, N H Ye, R Liu et al. H2O2 mediates the regulation of ABA catabolism and GA biosynthesis in Arabidopsis seed dormancy and germination. Journal of Experimental Botany, 61, 2979-2990(2010).

[15] L Rajjou, K Gallardo, I Debeaujon et al. The effect of α-amanitin on the Arabidopsis seed proteome highlights the distinct roles of stored and neosynthesized mRNAs during germination. Plant Physiology, 134, 1598-1613(2004).

[16] Min WANG, Qingyun CHEN, Guangliang CHEN et al. Effect of atmospheric pressure plasma on growth and development of lettuce. Acta Agriculturae Boreali-Sinica, 22, 108-113(2007).

[17] R W Zhou, J W Li, R S Zhou et al. Atmospheric-pressure plasma treated water for seed germination and seedling growth of mung bean and its sterilization effect on mung bean sprouts. Innovative Food Science & Emerging Technologies, 53, 36-44(2019).

[18] Yang CHEN, Baosheng HE, Kang XUE. Study on the mechanism of biological effect of electrostatic. Chinese Journal of Medical Physics, 22, 531-533, 524(2005).

[19] Yuntao GUO, Dongheyu ZHANG, Liyang ZHANG et al. Air disinfection for SARS-CoV-2 and other pathogens: a review. Journal of Tsinghua University (Science and Technology), 61, 1438-1451(2021).

[20] P Lukes, A T Appleton, B R Locke. Hydrogen peroxide and ozone formation in hybrid gas-liquid electrical discharge Reactors. IEEE Transactions on Industry Applications, 40, 60-67(2004).

[21] E Bormashenko, R Pogreb, G Whyman et al. The reversible giant change in the contact angle on the polysulfone and polyethersulfone films exposed to UV irradiation. Langmuir, 24, 5977-5980(2008).

[22] E Bormashenko, R Grynyov, Y Bormashenko et al. Cold radiofrequency plasma treatment modifies wettability and germination speed of plant seeds. Scientific Reports, 2, 741(2012).

[23] W J Zhang, L O Björn. The effect of ultraviolet radiation on the accumulation of medicinal compounds in plants. Fitoterapia, 80, 207-218(2009).

[24] F Grzegorzewski, S Rohn, L W Kroh et al. Surface morphology and chemical composition of lamb's lettuce (Valerianella locusta) after exposure to a low-pressure oxygen plasma. Food Chemistry, 122, 1145-1152(2010).

[25] Y R Meng, G Z Qu, T C Wang et al. Enhancement of germination and seedling growth of wheat seed using dielectric barrier discharge plasma with various gas sources. Plasma Chemistry and Plasma Processing, 37, 1105-1119(2017).

[26] T Stolárik, M Henselová, M Martinka et al. Effect of low-temperature plasma on the structure of seeds, growth and metabolism of endogenous phytohormones in pea (Pisum sativum L.). Plasma Chemistry and Plasma Processing, 35, 659-676(2015).

[27] I Filatova, V Azharonok, M Kadyrov et al. The effect of plasma treatment of seeds of some grain and legumes on their sowing quality and productivity. Romanian Reports of Physics, 56, 139-143(2011).

[28] S Paatre Shashikanthalu, L Ramireddy, M Radhakrishnan. Stimulation of the germination and seedling growth of Cuminum cyminum L. seeds by cold plasma. Journal of Applied Research on Medicinal and Aromatic Plants, 18, 100259(2020).

[29] D Liu, L T Wu, M S Naeem et al. 5-Aminolevulinic acid enhances photosynthetic gas exchange, chlorophyll fluorescence and antioxidant system in oilseed rape under drought stress. Acta Physiologiae Plantarum, 35, 2747-2759(2013).

[30] L Li, J G Li, M C Shen et al. Improving seed germination and peanut yields by cold plasma treatment. Plasma Science and Technology, 18, 1027-1033(2016).

[31] N C Roy, M M Hasan, M R Talukder et al. Prospective applications of low frequency glow discharge plasmas on enhanced germination, growth and yield of wheat. Plasma Chemistry and Plasma Processing, 38, 13-28(2018).