Rice Plants (Oryza sativa L.) under Cd Stress in Fe Deficiency Conditions

Atabayeva, Saule; Rakhymgozhina, Agilan B; Nurmahanova, Akmaral; Kenzhebayeva, S. S.; Усенбеков, Б. Н.; Alybayeva, Ravilya; Asrandina, Saltanat; Tynybekov, Bekzat; Amirova, Aigul K

doi:10.1155/2022/7425085

Cited by 4 publications

(2 citation statements)

References 159 publications

(173 reference statements)

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“…Global climate change and population growth challenge plant breeders and scientists to improve the resistance of crops to ensure sustainable agricultural development and achieve zero hunger by 2030 (according to the UN) (Kim et al, 2021;Marines Marli, 2021;United Nations DESA, 2015). In this regard, research works devoted to the study of plant resistance to abiotic and biotic stresses are relevant (Akter et al, 2022;Atabayeva et al, 2022;Kissoudis et al, 2014;Zhanbyrbayev et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Selection of rice breeding lines for resistance to biotic and abiotic stresses

Amirova,

Usenbekov,

Berkimbay

et al. 2024

Braz. J. Biol.

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Rice (Oryza sativa L.) grown in many countries around the world with different climatic conditions and a huge number of environmental stresses, both biotic (fungi, bacteria, viruses, insects) and abiotic (cold, drought, salinity) limit rice productivity. In this regard, breeders and scientists are trying to create rice lines that are resistant to multiple stresses. The aim of this work was to screen and select cold and blast resistant rice breeding lines (RBLs) using molecular markers. Molecular screening of RBLs and parental varieties to cold tolerance was carried out using markers RM24545, RM1377, RM231 and RM569 associated with QTLs (qPSST-3, qPSST-7, qPSST-9). It was discovered that the presence of three QTLs characterizes the cold resistance of studied genotypes, and the absence of one of them leads to cold sensitivity. As a result, 21 cold-resistant out of the 28 studied RBLs were identified. These cold resistant 21 RBLs were further tested to blast resistance using markers Pi-ta, Pita3, Z56592, 195R-1, NMSMPi9-1, TRS26, Pikh MAS, MSM6, 9871.T7E2b, RM224 and RM1233. It was revealed that 16 RBLs from 21 studied lines contain 5-6 blast resistance genes. In accordance with the blast resistance strategy, the presence of 5 or more genes ensures the formation of stable resistance to Magnaporthe oryzae. Thus, 16 lines resistant to multiple stresses, such as cold and blast disease were developed. It should be noted that 6 of these selected lines are high-yielding, which is very important in rice breeding program. These RBLs can be used in breeding process as starting lines, germplasm exchange as a source of resistant genes for the development of new rice varieties resistant to multiple stress factors.

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Section: Discussionmentioning

confidence: 99%

Selection of rice breeding lines for resistance to biotic and abiotic stresses

Amirova,

Usenbekov,

Berkimbay

et al. 2024

Braz. J. Biol.

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“…The inhibition of chlorophyll production, chloroplast ultrastructure disruption, iron deficiency, and altered mineral nutrition all contribute to the reduced green pigment levels in leaves due to Cd. Moreover, Cd negatively impacts photosynthesis by decreasing carotenoid levels in susceptible plants [9,10].…”

Section: Introductionmentioning

confidence: 99%

Effect of plant growth regulators on rice plants (Oryza sativa L.) growth under cadmium stress

Rakhymgozhina,

Atabayeva,

Shoinbekova

et al. 2024

BIO Web Conf.

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In numerous developing countries, including Kazakhstan, the issue of soil contamination with cadmium is prominent due to the expansion of the mining and metallurgical sectors. A significant contributor to cadmium pollution in soil is the widespread application of phosphorus-based fertilizers and pesticides that contain cadmium. Even trace amounts of cadmium, accumulating in the soil, can decrease crop yields, impede plant growth, and disrupt various physiological and biochemical processes. Consequently, this study aimed to identify cadmium-resistant rice varieties and explore methods to mitigate cadmium toxicity using growth regulators. The investigation examined the effects of growth-stimulating substances, such as “Epin-Extra” (an epibrassinolide alcohol solution), “Cyrcon” (a hydroxycinnamic acid solution), and “Beres-4 universal” (potassium humate), under cadmium-induced stress. Additionally, the research aimed to elucidate how the structural components of these substances relate to reducing cadmium’s toxic impact on rice plants. The findings suggest that these growth-stimulating substances could be beneficial in ameliorating the adverse effects of cadmium on plants.

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Effect of Cd(II) adsorption onto rice roots on its uptake by different indica and japonica rice varieties and toxicity effect of Cd(II) under acidic conditions

Biswash,

Li,

et al. 2024

Environ Sci Pollut Res

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Rice Plants (Oryza sativa L.) under Cd Stress in Fe Deficiency Conditions

Cited by 4 publications

References 159 publications

Selection of rice breeding lines for resistance to biotic and abiotic stresses

Selection of rice breeding lines for resistance to biotic and abiotic stresses

Effect of plant growth regulators on rice plants (Oryza sativa L.) growth under cadmium stress

Effect of Cd(II) adsorption onto rice roots on its uptake by different indica and japonica rice varieties and toxicity effect of Cd(II) under acidic conditions

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