Effect of plasma treatment on the seed germination and seedling growth of radish (Raphanus sativus)

Guragain, Rajesh Prakash; Baniya, Hom Bahadur; Dhungana, Santosh; Chhetri, Ganesh Kuwar; Sedhai, Binita; Basnet, Niroj; shakya, Avash; Pandey, Bishnu Prasad; Pradhan, Shreekar; Joshi, Ujjwal; Subedi, Deepak Prasad

doi:10.1088/2058-6272/ac3476

Cited by 25 publications

(16 citation statements)

References 62 publications

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“…As shown in Figure 1 , accelerated germination was observed, which is in line with the growth enhancement effects observed in other studies [ 4 , 41 ]. Growth enhancement is not the only type of plant response to plasma and also includes seed surface functionalization, seed decontamination, as well as stress anddefense response [ 1 ].…”

Section: Discussionsupporting

confidence: 91%

“…It has been shown that seed germination can be accelerated, or the plant properties can be altered where root length, shoot length, harvest mass or stress and disease resistance have increased after plasma treatment [ 4 , 5 ]. Despite the numerous successful results obtained in other studies, it remains elusive which plasma treatment parameters are required to affect plant growth parameters mainly because of the plethora of physical, chemical, and biological variables [ 6 ].…”

Section: Introductionmentioning

confidence: 99%

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RNA Sequencing of Arabidopsis thaliana Seedlings after Non-Thermal Plasma-Seed Treatment Reveals Upregulation in Plant Stress and Defense Pathways

Waskow

Guihur

Howling

et al. 2022

IJMS

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Not all agricultural practices are sustainable; however, non-thermal plasma treatment of seeds may be an eco-friendly alternative to improve macroscopic plant growth parameters. Despite the numerous successful results of plasma-seed treatments reported in the literature, there is a large gap in our understanding of how non-thermal plasma treatments affect seeds, especially due to the plethora of physical, chemical, and biological variables. This study uses RNA sequencing to characterize the changes in gene transcription in Arabidopsis thaliana (L.) Heynh. seeds 6 days after exposure to surface dielectric barrier discharge plasma treatment. Here, we provide an overview of all pathways that are differentially expressed where few genes are upregulated and many genes are downregulated. Our results reveal that plasma treatment time is a parameter that can activate different pathways in plant defense. An 80 s treatment upregulates the glucosinolate pathway, a defense response to insects and herbivores to deter feeding, whereas a shorter treatment of 60 s upregulates the phenylpropanoid pathway, which reinforces the cell wall with lignin and produces antimicrobial compounds, a defense response to bacterial or fungal plant pathogens. It seems that plasma elicits a wounding response from the seed in addition to redox changes. This suggests that plasma treatment can be potentially applied in agriculture to protect plants against abiotic and biotic stresses without discharging residues into the environment.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

RNA Sequencing of Arabidopsis thaliana Seedlings after Non-Thermal Plasma-Seed Treatment Reveals Upregulation in Plant Stress and Defense Pathways

Waskow

Guihur

Howling

et al. 2022

IJMS

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“…It indicates the amount of time it takes for a seed to germinate or emerge [36,37]. The mean germination time was determined using equation (3).…”

Section: The Mean Germination Time (Mgt)mentioning

confidence: 99%

“…Worldwide food shortage has been increased with increasing industrialization, urbanization, infrastructure, and insufficient land structure and natural resources. And for that, the main challenge is to search for a single viable and cost-effective solution that can be applied to overcome the challenge of modern food scarcity [2,3]. In contemporary research, the focus is given to the development of plasma-treated seeds and to meet the challenges to increase food production and ensure food safety.…”

Section: Introductionmentioning

confidence: 99%

Impact of non-thermal plasma treatment on the seed germination and seedling development of carrot (Daucus carota sativus L.)

et al. 2021

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Seed germination is a complicated physiological process that starts with the seed absorbing water and concludes with the radicle emerging. The kinetics and amount of water uptake by seeds are known to be influenced by both seed surface properties and the surrounding environment. As a result, altering seed surface features are linked to seed medium and is a valuable strategy for controlling seed germination. In the agricultural field, non-thermal plasma surface activation of seeds is currently being investigated as an efficient pre-sowing treatment for modifying seed germination. The impact of non-thermal plasma (NTP) on the germination and seedling growth of carrot seeds at room temperature and atmospheric pressure for varied treatment times was investigated in this study. Seed's germination properties and growth parameters were examined for both control and NTP treated seeds. Germination-related parameters such as germination percentage, vigor index, and chlorophyll content were all improved by NTP treatment. However, no significant changes were seen in the carotenoid content. Similarly, the in-vitro radical scavenging activities, total phenol, and total flavonoid contents in the seedlings were altered by NTP treatment. Our results indicate that NTP treatment has a favorable effect on carrots germination and seedling development.

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“…Along with the interdisciplinary approaches, cold plasma treatment is now identified as a viable solution for enhancing the seed sprouts and subsequent plant growth for crops such as radish, wheat, tomato, and soybean. [1][2][3][4][5][6][7][8][9] Apart from being advantageous for agricultural use, enhancement of the sprouting rate of seeds through nonthermal plasma techniques is beneficial for the food processing industry. [10][11][12] It has generally been accepted that, by boosting seed germination and plant cultivation rates, the global demand may be efficiently satisfied.…”

Section: Introductionmentioning

confidence: 99%

Effects of Plasma-Activated Water on Soybean and Wheat: Germination and Seedling Development

et al. 2022

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The goal of this study is to explore how water treated using plasma affects the germination and growth of soybean and wheat seedlings. Deionized water (DIW) was exposed to a gliding arc discharge (GAD) for 5 and 10 min to create plasma-activated water. DIW revealed significant changes in physical properties as well as chemical parameters after its treatment with plasma. The germination rate (growth metrics, such as shoot/seedling length, imbibition rate of seeds, and vigor indices), increased when plasma-treated water was used for irrigation purposes. In conclusion, when plasma-treated water is used for irrigation, a better result yield in germination is acquired.

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Effect of plasma treatment on the seed germination and seedling growth of radish (Raphanus sativus)

Cited by 25 publications

References 62 publications

RNA Sequencing of Arabidopsis thaliana Seedlings after Non-Thermal Plasma-Seed Treatment Reveals Upregulation in Plant Stress and Defense Pathways

RNA Sequencing of Arabidopsis thaliana Seedlings after Non-Thermal Plasma-Seed Treatment Reveals Upregulation in Plant Stress and Defense Pathways

Impact of non-thermal plasma treatment on the seed germination and seedling development of carrot (Daucus carota sativus L.)

Effects of Plasma-Activated Water on Soybean and Wheat: Germination and Seedling Development

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