Assessment of Brassicaceae Seeds Quality by X-ray Analysis

Мусаев, Ф. Б.; Priyatkin, N. S.; Потрахов, Н. Н.; Beletskiy, S.L.; Chesnokov, Yuri A.

doi:10.3390/horticulturae8010029

Cited by 14 publications

(8 citation statements)

References 17 publications

(20 reference statements)

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“…Therefore, several nondestructive methodologies have been developed, many of them being based on the use of different imaging techniques supported by computer vision to rapidly collect and interpret high-resolution images [ 3 , 71 , 72 , 73 ]. These include thermal imaging [ 74 , 75 ], X-rays [ 76 , 77 , 78 ], and spectroscopic techniques such as near-infrared spectroscopy (NIRS) technologies [ 5 , 79 , 80 , 81 ], Raman spectroscopy [ 3 , 82 , 83 ], or hyperspectral imaging [ 83 , 84 ]. Although these noninvasive methods represent a faster, deeper, and more precise way to retrieve important information for the evaluation of seed quality, the associated costs, and the required expertise are still prohibitive for large-scale screening of seed lots.…”

Section: Discussionmentioning

confidence: 99%

Noninvasive Methods to Detect Reactive Oxygen Species as a Proxy of Seed Quality

et al. 2023

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ROS homeostasis is crucial to maintain radical levels in a dynamic equilibrium within physiological ranges. Therefore, ROS quantification in seeds with different germination performance may represent a useful tool to predict the efficiency of common methods to enhance seed vigor, such as priming treatments, which are still largely empirical. In the present study, ROS levels were investigated in an experimental system composed of hydroprimed and heat-shocked seeds, thus comparing materials with improved or damaged germination potential. A preliminary phenotypic analysis of germination parameters and seedling growth allowed the selection of the best-per-forming priming protocols for species like soybean, tomato, and wheat, having relevant agroeconomic value. ROS levels were quantified by using two noninvasive assays, namely dichloro-dihydro-fluorescein diacetate (DCFH-DA) and ferrous oxidation-xylenol orange (FOX-1). qRT-PCR was used to assess the expression of genes encoding enzymes involved in ROS production (respiratory burst oxidase homolog family, RBOH) and scavenging (catalase, superoxide dismutase, and peroxidases). The correlation analyses between ROS levels and gene expression data suggest a possible use of these indicators as noninvasive approaches to evaluate seed quality. These findings are relevant given the centrality of seed quality for crop production and the potential of seed priming in sustainable agricultural practices.

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Section: Discussionmentioning

confidence: 99%

Noninvasive Methods to Detect Reactive Oxygen Species as a Proxy of Seed Quality

et al. 2023

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“…Numerous factors can influence the ability to successfully procure and use seeds to support plant reintroductions, including challenges with seed collection, storage, and germination [ 31 , 42 ]. Therefore, when seeds are available, and confirmed to be viable by, e.g., biochemical 2,3,5-tryphenyl tetrazolium chloride (TTC) test [ 43 ] and proved to be at good quality by, e.g., X-ray imaging [ 44 , 45 ], the next valid issue that requires an answer is the accessibility of the germination and dormancy breaking protocols if seeds become dormant upon maturation. Dormancy regulates germination through various physical and/or physiological means imposed by the seed coat, or within the embryo.…”

Section: Important Questions That Need To Be Addressed Prior To Seed ...mentioning

confidence: 99%

Choosing the Right Path for the Successful Storage of Seeds

Trusiak

Plitta-Michalak

Michalak

2022

Plants

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Seeds are the most commonly used source of storage material to preserve the genetic diversity of plants. However, prior to the deposition of seeds in gene banks, several questions need to be addressed. Here, we illustrate the scheme that can be used to ensure that the most optimal conditions are identified to enable the long-term storage of seeds. The main questions that need to be answered pertain to the production of viable seeds by plants, the availability of proper protocols for dormancy alleviation and germination, seed tolerance to desiccation and cold storage at −20 °C. Finally, it is very important to fully understand the capability or lack thereof for seeds or their explants to tolerate cryogenic conditions. The proper storage regimes for orthodox, intermediate and recalcitrant seeds are discussed.

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“…На протяжении десятков лет в АФИ разрабатываются высокоэффективные ресурсосберегающие фитобиотехнологии и оригинальное светооблучательное оборудование для круглогодичного интенсивного производства растительной продукции с заданными качественными и функциональными характеристиками (71,74). Апробированы системы экспресс-оценки физиологического состояния вегетирующих растений и качества семенного материала с помощью информационно-измерительных средств фитомониторинга, оптических и рентгенографического методов (75)(76)(77).…”

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“…Основу интегративных междисциплинарных исследований взаимодействия генотип-среда составит цифровая методология контроля продукционного процесса (в том числе в системе точного земледелия) (8,(89)(90)(91) и качества семенного материала, диагностики и оценки состояния полей с помощью методов дистанционного зондирования и прогнозирования продуктивности посевов (46,92,93), определения толерантности и адаптивности возделываемых растений к действию абиотических стрессоров (с применением неинвазивных оптических, рентгеноскопических и других физических методов анализа и цифровизации) (75)(76)(77).…”

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90 Years of Agrophysical Institute as a History of Priority Achievements in Russian and World Agrophysical Science

Uskov¹

2022

S-h. biol.

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Assessment of Brassicaceae Seeds Quality by X-ray Analysis

Cited by 14 publications

References 17 publications

Noninvasive Methods to Detect Reactive Oxygen Species as a Proxy of Seed Quality

Noninvasive Methods to Detect Reactive Oxygen Species as a Proxy of Seed Quality

Choosing the Right Path for the Successful Storage of Seeds

90 Years of Agrophysical Institute as a History of Priority Achievements in Russian and World Agrophysical Science

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