Liliya Beksheneva scite author profile

Liliya Beksheneva

2Publications

0Citation Statements Received

5Citation Statements Given

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Ufa Institute of Chemistry

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Toxic elements of hazard class I in ornamental herbal permanent plants

Reut

Beksheneva

2022

IOP Conf. Ser.: Earth Environ. Sci.

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Technogenic emission of heavy metals (HM) leads to their accumulation and migration in the “soil-plant” system. Herbaceous perennials occupy a significant place among the landscaping components exposed to toxicants. The purpose of the research is to study the accumulation and distribution of elements of hazard class I in plants of the genus Iris L. The research was carried out in 2020-2021 on the basis of the South-Ural Botanical Garden-Institute. Objects of study: soil of the site and plant organs (Iris orientalis, I. pseudacorus, I. sibirica, I. spuria subsp. carthaliniae). The elemental composition was determined by the atomic absorption method with electrothermal atomization. The distribution of pollutants was evaluated using the biological absorption coefficient (BAC), total cumulation in vegetative and generative, as well as underground and aboveground organs. It is shown that the content of mobile forms of HM and metalloids in the soil does not exceed the maximum allowable concentrations (MAC) and averages: Cd – 0.03, As – 0.59, Pb – 0.48 mg/kg. It was found that the distribution of cadmium in organs depends on the species: both basipetal (I. orientalis – 0.05 mg/kg) and acropetal accumulation of the element (I. spuria subsp. carthaliniae – 0.05 mg/kg) are possible. Accumulation in above-ground organs exceeds cumulation in roots from 1.4 to 7.5 times. It was determined that the values of CBA for cadmium differ from 0.27 to 1.56. It was shown that the roots of I. orientalis, I. pseudacorus, I. spuria subsp. carthaliniae perform a barrier function and accumulate arsenic in amounts exceeding the MPC (0.67-0.85 mg/kg). The root system of I. sibirica does not prevent the entry of the toxicant concentrated in the generative organs at a concentration exceeding the MPC (0.61-0.78 mg/kg). It was determined that the CBA of arsenic in the leaves of all species is <1. Lead uptake is species-independent, as evidenced by close total elemental values, similar organ distribution, and consistently high MAC. A predominantly above-ground concentration of the pollutant was revealed (3.4-5.1). The result of the regression analysis showed that the content of the mobile form of lead in the soil does not affect its accumulation in the leaves.

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Accumulation of heavy metals by representatives of the generic complex Iris L.

Beksheneva¹,

Reut²

2022

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Abstract. Technogenic emission of heavy metals (HM) leads to their accumulation and migration in the “soil – plant” system. Herbaceous perennials occupy a significant place among the landscaping components exposed to toxicants. The purpose of the research is to study the accumulation and distribution of elements of hazard class I in plants of the genus Iris L. Methods. The research was carried out in 2020–2021 on the basis of the South-Ural Botanical Garden-Institute UFRC RAS. Objects of study: soil of the site and plant organs (Iris orientalis, I. pseudacorus, I. sibirica, I. spuria subsp. carthaliniae). The elemental composition was determined by the atomic absorption method with electrothermal atomization. Scientific novelty. For the first time, the distribution of pollutants was evaluated using the biological absorption coefficient (BAC) and total cumulation in organs. Results. It has been shown that the content of mobile forms of HM in the soil does not exceed the MPC and averages: Cd – 0.03, As – 0.59, Pb – 0.48 mg/kg. It was found that the distribution of cadmium in organs depends on the species: both basipetal (I. orientalis) and acropetal accumulation of the element (I. spuria subsp. carthaliniae) are possible. Accumulation in above-ground organs exceeds cumulation in roots from 1.4 to 7.5 times. It was shown that the roots of I. orientalis, I. pseudacorus, I. spuria subsp. carthaliniae perform a barrier function and accumulate arsenic in amounts exceeding the MPC. The root system of I. sibirica does not prevent the entry of the toxicant, which is concentrated in the generative organs at a concentration exceeding the MPC. It was determined that the BAC of arsenic in the leaves of all species is less than 1. Lead uptake is species-independent, as evidenced by close total elemental values, similar organ distribution, and consistently high MPC. A predominantly above-ground concentration of the pollutant was revealed. The result of the regression analysis showed that the content of the mobile form of lead in the soil does not affect its accumulation in the leaves.

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