Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma

Among the innovative technologies being elaborated for sustainable agriculture, one of the most rapidly developing fields relies on the positive effects of non-thermal plasma (NTP) treatment on the agronomic performance of plants. A large number of recent publications have indicated that NTP effects...
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Autor*in:	Vida Mildaziene [verfasserIn] Anatolii Ivankov [verfasserIn] Bozena Sera [verfasserIn] Danas Baniulis [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	non-thermal plasma gene expression germination photosynthesis phytohormones plant yield

Übergeordnetes Werk:	In: Plants - MDPI AG, 2013, 11(2022), 7, p 856
Übergeordnetes Werk:	volume:11 ; year:2022 ; number:7, p 856

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/plants11070856

Katalog-ID:	DOAJ023474157

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callnumber-first	Q - Science
author	Vida Mildaziene
spellingShingle	Vida Mildaziene misc QK1-989 misc non-thermal plasma misc gene expression misc germination misc photosynthesis misc phytohormones misc plant yield misc Botany Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma
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topic_title	QK1-989 Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma non-thermal plasma gene expression germination photosynthesis phytohormones plant yield
topic	misc QK1-989 misc non-thermal plasma misc gene expression misc germination misc photosynthesis misc phytohormones misc plant yield misc Botany
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title	Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma
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title_auth	Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma
abstract	Among the innovative technologies being elaborated for sustainable agriculture, one of the most rapidly developing fields relies on the positive effects of non-thermal plasma (NTP) treatment on the agronomic performance of plants. A large number of recent publications have indicated that NTP effects are far more persistent and complex than it was supposed before. Knowledge of the molecular basis and the resulting outcomes of seed treatment with NTP is rapidly accumulating and requires to be analyzed and presented in a systematic way. This review focuses on the biochemical and physiological processes in seeds and plants affected by seed treatment with NTP and the resulting impact on plant metabolism, growth, adaptability and productivity. Wide-scale changes evolving at the epigenomic, transcriptomic, proteomic and metabolic levels are triggered by seed irradiation with NTP and contribute to changes in germination, early seedling growth, phytohormone amounts, metabolic and defense enzyme activity, secondary metabolism, photosynthesis, adaptability to biotic and abiotic stress, microbiome composition, and increased plant fitness, productivity and growth on a longer time scale. This review highlights the importance of these novel findings, as well as unresolved issues that remain to be investigated.
abstractGer	Among the innovative technologies being elaborated for sustainable agriculture, one of the most rapidly developing fields relies on the positive effects of non-thermal plasma (NTP) treatment on the agronomic performance of plants. A large number of recent publications have indicated that NTP effects are far more persistent and complex than it was supposed before. Knowledge of the molecular basis and the resulting outcomes of seed treatment with NTP is rapidly accumulating and requires to be analyzed and presented in a systematic way. This review focuses on the biochemical and physiological processes in seeds and plants affected by seed treatment with NTP and the resulting impact on plant metabolism, growth, adaptability and productivity. Wide-scale changes evolving at the epigenomic, transcriptomic, proteomic and metabolic levels are triggered by seed irradiation with NTP and contribute to changes in germination, early seedling growth, phytohormone amounts, metabolic and defense enzyme activity, secondary metabolism, photosynthesis, adaptability to biotic and abiotic stress, microbiome composition, and increased plant fitness, productivity and growth on a longer time scale. This review highlights the importance of these novel findings, as well as unresolved issues that remain to be investigated.
abstract_unstemmed	Among the innovative technologies being elaborated for sustainable agriculture, one of the most rapidly developing fields relies on the positive effects of non-thermal plasma (NTP) treatment on the agronomic performance of plants. A large number of recent publications have indicated that NTP effects are far more persistent and complex than it was supposed before. Knowledge of the molecular basis and the resulting outcomes of seed treatment with NTP is rapidly accumulating and requires to be analyzed and presented in a systematic way. This review focuses on the biochemical and physiological processes in seeds and plants affected by seed treatment with NTP and the resulting impact on plant metabolism, growth, adaptability and productivity. Wide-scale changes evolving at the epigenomic, transcriptomic, proteomic and metabolic levels are triggered by seed irradiation with NTP and contribute to changes in germination, early seedling growth, phytohormone amounts, metabolic and defense enzyme activity, secondary metabolism, photosynthesis, adaptability to biotic and abiotic stress, microbiome composition, and increased plant fitness, productivity and growth on a longer time scale. This review highlights the importance of these novel findings, as well as unresolved issues that remain to be investigated.
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title_short	Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma
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Biochemical and Physiological Plant Processes Affected by Seed Treatment with Non-Thermal Plasma

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