INFLUENCE OF RHISOSPHERIC BACTERIA ON THE PRODUCTIVITY OF WHEAT PLANTS AND THE INPUT OF ELEMENTS FROM POLLUTED SOILS

Ser-17_2023-3 Pub Date : 2023-08-30 DOI:10.55959/msu0137-0944-17-2023-78-3-76-82

I. O. Plekhanova, V. Kulikov, V. Shabaev

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Abstract

The results of a vegetation experiment on the humus horizon of soddy-podzolic sandy loamy soil (Albic Retisol), which was contaminated with heavy metals as a re sult of sewage sludge as a fertilize r, are presented. The soil was used for growing vegetables and forage grasses but has been abandoned for the last 10 years. In the experiment, the effect of rhizospheric bacteria of the genus Pseudomonas on biomass and the entry of micro- and heavy metals into the vegetative organs and root system of spring wheat plants was studied. Under the influence of inoculation with bacteria, the biomass of wheat plants increased by 10–12% and the content of the main macro- and microelements in plants changed. The content of Ca, K, Mg, Na and P decreased by 1,5–2 times in the vegetative part of wheat plants inoculated with P. fluorescens 21 and P. putida 23. The content of macroelements in wheat roots changed little, but the ratio between the content of elements increased in roots and vegetative parts of plants. The distribution of the content of trace elements and HMs was much more contrasting: the content of Cd in the roots of wheat plants exceeded that in the vegetative part of plants by 9 times without treatment with bacteria and by 18 and 11 times aft er inoculation with P. fluorescens 21 and P. putida 23, and in variants with P. fl uorescens 20 by 7 times. A decrease in the content of Cd in the vegetative part of wheat plants was noted, by 2 times upon inoculation with P. fluorescens 21 and by 1,5 times for variants with P. putida 23. The content of Zn in the aerial parts of plants also decreased upon inoculation with P. fluorescens 21 and by 1,8 times for variants with and P. putida 23 by 1,4 times. An increase in the ratio of the content of elements in the roots and vegetative mass of plants indicates an increase in the resistance of plants to the toxic effect of heavy metals and the barrier function of the roots.

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根际细菌对小麦植株生产力及污染土壤元素输入的影响

本文介绍了由于污水污泥作为肥料而受到重金属污染的钠灰化砂质壤土(Albic Retisol)腐殖质层的植被试验结果。这片土地曾被用来种植蔬菜和牧草，但在过去10年里一直被废弃。本试验研究了假单胞菌属根际细菌对春小麦植株生物量以及微量元素和重金属进入营养器官和根系的影响。接种细菌后，小麦植株生物量增加10 ~ 12%，植株中主要宏微量元素含量发生变化。接种荧光假单胞菌21和腐臭假单胞菌23后，小麦营养部分的Ca、K、Mg、Na和P含量降低了1.5 ~ 2倍。小麦根系中常量元素含量变化不大，但根系与植株营养部位元素含量之比增加。微量元素和HMs含量的分布差异更大:未接种细菌处理的小麦根系Cd含量是植物营养部分的9倍，接种荧光假单孢菌21和腐臭假单孢菌23后的Cd含量是植物营养部分的18倍和11倍，接种荧光假单孢菌20的变异体Cd含量是植物营养部分的7倍。结果表明，接种荧光假单胞菌21后，小麦植株营养部分Cd含量下降了2倍，接种腐臭假单胞菌23后，Cd含量下降了1.5倍。接种荧光假单胞菌21后，植株地上部分的锌含量下降了1.8倍，接种和腐臭假单胞菌23后下降了1.4倍。植物根系中元素含量与营养质量比值的增加表明植物对重金属毒性作用的抗性增强，根系的屏障功能增强。

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Ser-17_2023-3

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