PEA (Pisum sativum L.) CULTIVARS WITH LOW ACCUMULATION OF HEAVY METALS FROM CONTAMINATED SOIL

Puhalsky, Jan V.; Vishnyakova, M. A.; Loskutov, S. I.; Семенова, Е. В.; Sekste, E. A.; Шапошников, А. И.; Belimov, Andrey A.; Тихонович, И. А.

doi:10.15389/agrobiology.2017.3.597eng

S-h. biol.

2017

DOI: 10.15389/agrobiology.2017.3.597eng

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PEA (Pisum sativum L.) CULTIVARS WITH LOW ACCUMULATION OF HEAVY METALS FROM CONTAMINATED SOIL

Jan V. Puhalsky¹,

M. A. Vishnyakova²,

S. I. Loskutov³

et al.

Abstract: A b s t r a c tHeavy metals are among the most common contaminants of agricultural lands. Cleaning (remediation) of such territories is extremely difficult or impossible. A promising approach for the production of environmentally friendly products of crop industry in the contaminated soils can be a selection of varieties with reduced accumulation of heavy metals. The aim of this work was to study the variability of pea in accumulation and transport of heavy metals from shoots to seeds and to identify varieties… Show more

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Cited by 2 publications

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Evaluation of the drought resistance of pea (<i>Pisum sativum</i> L.) from the VIR collection

Семенова

Kosareva

2021

Biotehnologiâ i selekciâ rastenij

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Background. As a result of global warming, climate change is now taking place, increasing the frequency and duration of droughts. Therefore, the development of new varieties with an increased drought resistance and adaptation to certain environmental conditions is of primary importance. The aim of this work was to modify the express method of drought resistance evaluation in peas at an early stage of plant growth and development, and to apply this method to test 50 accessions from the VIR global collection.Materials and methods. Drought resistance studies involved garden pea accessions of different eco-geographic origin, which had been previously characterized in field tests in conditions of the Krasnodar Territory in 2017-2019. The roll-ups protocol was used for evaluating early drought resistance in the accessions. The stress intensity was modified by varying the concentration of sucrose in the solution used for growing of pea seedlings. To select an appropriate concentration, an osmotic pressure of 0.5 and 0.7 MPa was applied. As a result, the osmotic pressure of 0.5 MPa was chosen. The diagnostic criterion of the method is the radicle length index (RLI), that is, the ratio of the average radicle length of seedlings against a provocative background to the control values.Results. The osmotically active solution led to significant reduction in the radicle length of pea seedlings. The studied accessions exhibited considerable genetic variability for early drought tolerance, the RLI value varied from 0.28 to 0.88. Sources of high drought resistance during the period of seedling growth have been identified. The correlation analysis showed the absence of a reliable relationship between the RLI and the crop structure indicators (correlation coefficients from r = +0.17 to r = -0.24).Conclusion. By using the method of determining the relative drought tolerance at early stages of pea accessions development, one highly resistant (k-9333 from Morocco) and 10 resistant accessions (k-1495, k-9372, k-9401, k-9418, k-9733, k-9909, k-9934, k-9938, k-10072, and k-10116.) have been identified.

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Evaluation of the drought resistance of pea (<i>Pisum sativum</i> L.) from the VIR collection

Семенова

Kosareva

2021

Biotehnologiâ i selekciâ rastenij

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Comparative Analysis of Triticum aestivum L. (Poaceae, Poales) and Pisum sativum L. (Fabaceae, Fabales) Resistance to Heavy Metals

Erofeeva

2020

Povolžskij èkologičeskij žurnal

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Heavy metals are most common soil pollutants, including agricultural land. At the same time, the level of heavy metal pollution can significantly exceed the standards. Pea (Pisum sativum L.) and wheat (Triticum aestivum L.) are most important crops. At the same time, no comparative analysis of their resistance to high concentrations of heavy metals has been carried out. In connection with this, the resistance of T. aestivum and P. sativum seedlings to the chronic effects of lead and copper salts in the range of lethal concentrations for T. aestivum was comparatively evaluated (0.15, 0.30 and 0.60 g/L of copper sulfate; 0.5, 1.0 and 1.5 g/L of lead nitrate) in experimental conditions. All studied concentrations of the toxicants caused a decrease in seed germination of T. aestivum relative to the control by 19–38% and 23–58% when exposed to lead nitrate and copper sulphate, respectively, which indicated the manifestation of lethal effects. All studied concentrations of both toxicants caused a significant reduction in the root system length (from 69% to 25 times) and shoot height (by 25–76%) as compared with the control level in T. aestuvum seedlings, and also led to an increase in the intensity of lipid peroxidation in seedling shoots, indicating the development of a stress reaction. At the same time, the studied concentrations of heavy metal salts, which were lethal for T. aestivum, did not cause almost any disturbances of the studied parameters in P. sativum, except for a decrease in the root system length after lead nitrate exposure. Thus, seed germination, growth processes of the root system and shoot, as well as peroxide homeostasis in P. sativum seedlings were much more resistant to the studied concentrations of lead nitrate and copper sulfate as compared with these parameters of T. aestivum.

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PEA (Pisum sativum L.) CULTIVARS WITH LOW ACCUMULATION OF HEAVY METALS FROM CONTAMINATED SOIL

Cited by 2 publications

References 12 publications

Evaluation of the drought resistance of pea (<i>Pisum sativum</i> L.) from the VIR collection

Evaluation of the drought resistance of pea (<i>Pisum sativum</i> L.) from the VIR collection

Comparative Analysis of Triticum aestivum L. (Poaceae, Poales) and Pisum sativum L. (Fabaceae, Fabales) Resistance to Heavy Metals

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