Wyniki wyszukiwania - AGRO

1

Zinc and copper fractions in soil contaminated with nickel

100%

Kuziemska B., Wieremiej W., Jaremko D.

Polish Journal of Soil Science

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2015

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tom 48

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nr 1

Soil subject to a three-year pot experiment was analyzed, in which the following factors were considered: (i) soil contamination with nickel (0, 75, 150 and 225 mg Ni kg⁻¹ of soil); (ii) liming (0 Ca and Ca in a dose calculated according to 1 Hh of soil); (iii) organic fertilization (with no organic fertilization, rye straw and brown coal from the Turów coalmine). The test plant was orchardgrass, which was harvested in the amount of four cuts each year of the experiment. The copper and zinc fractions were assessed using the BCR method, whereas the pH was calculated using the potentiometer method. The total content of copper and zinc in the analyzed soil did not exceed the values of the geochemical background of the soils of Poland. No impact of the varied content of nickel in the soil on the total content and distribution of Cu and Zn was found in the investigated fractions. Liming caused an increase in the total content of zinc in the analyzed soil and a decrease in the content of Cu and Zn in the F1 fraction. The straw and brown coal caused an increase in the content of both metals in the soil in the F3 fraction.

2

Soil contamination with polycyclic aromatic hydrocarbons [PAHs] in Poland - a review

100%

Wcislo E.

Polish Journal of Environmental Studies

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1998

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tom 07

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nr 5

The purpose of this paper is to provide a summary of data on PAH content in soils in Poland, published in literature over the last 20 years. This paper presents a preliminary assessment of soil contamination by PAHs for different land use patterns. A review of available literature highlights the need to continue research on PAH contamination levels in environmental media in Poland, including surface soil. Results of such research would be important in order to better define exposure estimates in the general population and to examine the relationship between levels of PAHs in thc environment and thc subsequent development of health effects.

3

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Changes in the enzymatic activity in sandy loam soil exposed to zinc pressure

88%

Kucharski J., Wieczorek K., Wyszkowska J.

Journal of Elementology

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2011

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tom 16

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nr 4

One of the bioindicators most often applied to assess the quality of soil is its enzymatic activity. Undesirable changes in the activity of enzymes can imply excessive presence of substances which are harmful to soil environment, such as heavy metals. Being a heavy metal, zinc is also an element essential for maintaining proper functions of live organisms. The purpose of this study has been to determine the significance of changes occurring in moderately heavy soil under the influence of zinc. The experiment was carried out in three replicates under laboratory conditions. Sandy loams of pH 5.5 and 7.0 were used for the trials. The soils were contaminated with zinc according to the following design: control (natural content), raised content (70 mg Zn2+ kg–1), weakly polluted (200 mg Zn2+ kg–1 ), moderately polluted (500 mg Zn2+ kg–1), heavily polluted (1,500 mg Zn2+ kg–1) and very heavily polluted soil (5,000 mg and 10,000 mg Zn2+ kg–1). The soil samples prepared as above were brought to the moisture content of 50% maximum water capacity and incubated at 25oC for 120 days. On day 30, 60 and 120, the activity of dehydrogenases, β-glucosidase, urease, acid phosphatase and arylsulphatase was determined. Based on these determinations, the following indices were calculated: ED50, the index for resistance (RS) and the index for resilience (RL). The tests have demonstrated that as the rate of soil contamination with zinc increased, the activity of all the analyzed enzymes was significantly depressed. The negative influence of zinc contamination on the activity of particular enzymes, irrespective of the soil pH, persisted throughout the whole experiment. In respect of their sensitivity to zinc, the enzymes can be ordered as follows: arylsulphatase > dehydrogenases > acid phosphatase > urease > β-glucosidase. Zinc contamination caused lasting changes in the soil environment, but the return to the state of equilibrium was the quickest in the case of dehydrogenases (RL = 0.276), less rapid for arylsulphatase (RL = 0.173) and the slowest for acid phosphatase (RL = 0.064). In contrast, the activity of urease, instead of regenerating, was increasingly disturbed (RL = 0.350). Soil acidification was the factor that most evidently exacerbated the negative influence of zinc on the activity of β-glucosidase and arylsulphatase. Values of ED50 for the activity of particular enzymes were varied. In the soil of pH 7.0, they ranged from 3,324 mg Zn2+ kg–1 for β-glucosidase to 412 mg Zn2+ kg–1 for dehydrogenases, and in the soil of pH 5.5, they varied from 1,008 Zn2+ kg–1 for β-glucosidase to 280 mg Zn2+ kg–1 for arylsulphatase.

4

Identification of dioxins in forest soil

88%

Czerniak A., Poszyler-Adamska A.

Acta Scientiarum Polonorum. Formatio Circumiectus

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2007

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tom 06

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nr 3

3-7

5

Spatial conditions of environmental risk posed by obsolete pesticides - case study of the “Green Lungs of Poland” area

88%

Kocur-Bera K., Dudzinska M.

Polish Journal of Environmental Studies

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2014

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tom 23

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nr 3

Issues related to storage and elimination of obsolete pesticides concern all developing countries. Eastern Europe is a region with the largest stocks in the world. In Poland, the problem with obsolete pesticides has its roots in history. Storage sites and containers in which obsolete pesticides were deposited posed, or continue to pose, a threat to the environment. The spatial conditions, particularly land features and features of the object, can actually increase environment risk. The proposed algorithm makes it possible to distinguish areas where poisonous substances posing the greatest threat to the environment are stored. This knowledge will help to determine the priorities for waste removal and monitoring of environmental receptors.

6

Biotransformation of phosphogypsum in petroleum-refining wastewaters

88%

Wolicka D., Kowalski W.

Polish Journal of Environmental Studies

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2006

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tom 15

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nr 2

Eleven isolates of sulphate-reducing bacteria (SRB) were isolated from soil contaminated with crude oil derivatives and petroleum-refining wastewaters and used to investigate the effectiveness of carbon reduction and biotransformation of phosphogypsum. One of the isolates (culture no. 10) was found to be very effective with 90% carbon reduction (measured as COD) and the simultaneous biotransformation of approximately 2.65g phosphogypsum/L in industrial petroleum-refining wastewaters.

7

Effects of heating oil on the count of microorganisms and physico-chemical properties of soil

88%

Kucharski J., Jastrzebska E.

Polish Journal of Environmental Studies

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2005

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tom 14

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nr 2

The aim of our experiment was to determine the effect of heating oil application on the count of microorganisms and some physico-chemical properties of limed and lime-free soil and soil sown with yellow lupine of the Markiz variety and unsown soil. The results obtained indicate that heating oil deteriorated the physico-chemical properties of the experimental soil (acidification, decrease in the total alkaline exchangeable cations, soil exchange capacity and alkaline cation soil saturation). At the same time, it stimulated, to a different degree, the multiplication of soil microorganisms, especially oligotrophic bacteria (10-fold) and bacteria representing the genera of Pseudomonas spp. (8-fold). Lime application and cultivation of yellow lupine had a positive effect on the physico-chemical properties of soil and stimulated the growth of Azotobacter spp.

8

Microbiological properties of soil contaminated with the herbicide Treflan 480 EC

88%

Wyszkowska J.

Polish Journal of Natural Sciences

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2002

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tom 10

9

Correlation between the number of cultivatable microorganisms and soil contamination with diesel oil

88%

Wyszkowska J., Kucharski J.

Polish Journal of Environmental Studies

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2005

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tom 14

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nr 3

The effect of diesel oil contamination on the number of soil microrflora in light clay sand and light clay was determined in a pot experiment. The experimental soil was contaminated with the following doses of diesel oil (ON) calculated as maximum water capacity (MWC): 0; 0.5; 1; 1.5; 2; 2.5 and 3%. The lowest dose of diesel oil (0.5% MWC) for the lighter soil was 1.67 g · kg⁻¹ d.m. and for heavier soil it was 1.71 g · kg⁻¹ d.m. Varied urea fertilization also was applied: 0 and 250 mg N g · kg⁻¹ d.m. of soil. For the initial 18 days, the pots were maintained unsown. On day 18, the Juno variety of yellow lupine was planted (7 plants per pot). The yellow lupine plants were harvested at the blooming phase. Soil samples were taken on day 18 and immediately after yellow lupine harvest. Based on the results, soil contamination with 0.5% to 3.0% MWC of diesel oil was found to disturb the soil microbiological balance. This substance stimulated the development of oligotrophic, copiotrophic, sporulating copiotrophic and Actinomycetales and inhibited the development of Azotobacter spp. and cellulolytic bacteria. Fertilisation with urea had a positive effect on the multiplication of the above microorganisms. The number of oligotrophic, copiotrophic bacteria and Actinomycetales was higher in the light clay, whereas the number of sporulating oligotrophic, sporulating copiotrophic and cellulolytic bacteria and fungi was greater in light clay sand soil. Yellow lupine cultivation had a positive effect on the multiplication of sporulating oligotrophic, copiotrophic and cellulolytic bacteria and fungi in both analyzed types of soil. Hydrolytic acidity and organic carbon content were positively correlated, whereas pH, total exchangeable cations and alkaline cation soil saturation were negatively correlated with soil contamination with diesel oil.

10

Effect of soil contamination by copper on the content of macroelements in spring barley

88%

Wyszkowski M., Wyszkowska J.

Polish Journal of Natural Sciences

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2003

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tom 14

11

Activity of beta-glucosidase, arylsulfatase and phosphatases in soil contaminated with copper

75%

Wyszkowska J., Kucharski M., Kucharski J.

Journal of Elementology

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2010

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tom 15

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nr 1

213-226

A pot experiment was carried out to determine the effect of soil (loamy sand and sandy loam) contamination with copper doses of 0, 150, 450 mg Cu·kg-1 d.m. soil on the activity of β-glucosidase (EC 3.2.1.21), acid phosphatase (EC 3.1.3.2), alkaline phosphatase (EC 3.1.3.1) and arylsulfatase (EC 3.1.6.1) in soil. The resistance of these enzymes to copper pollution was also estimated. Soil samples were contaminated with copper chloride. The experiment was carried out in five replications, in two series. The first series was performed on uncropped soil and the second one — on cropped soil. The experimental plants were oat, spring rape and yellow lupine. The activity of soil enzymes was determined in the analyzed samples on the 25th and the 50th day of the experiment. The results of the experiment showed that copper contamination in doses of 150 mg to 450 mg·kg-1 soil significantly inhibits soil’s biochemical activity. The sensitivity of the tested enzymes to copper was determined in the following order: alkaline phosphatase > arylsulfatase > acid phosphatase > β-glucosidase. The resistance of the above enzymes to copper depended on the cultivated plant spe- cies, soil type and the type of soil use and management. In samples of sandy loam, copper induced the smallest change in the activity of acid phosphatase and alkaline phosphatase, and in loamy sand — in the activity of arylsulfatase and acid phosphatase. In uncropped soil, copper was the least effective in changing the activity of arylsulfatase and acid phosphatase. All of the tested enzymes were less resistant to copper contamination in cropped than in uncropped soil. In soil planted with oat, β-glucosidase was the most resistant and arylsulfatase was the least resistant enzyme to copper contamination. In samples sown with spring rape, the analogous enzymes were arylsulfatase and alkaline phosphatase. In yellow lupine treatments, alkaline phosphatase was the most and β-glucosidase was the least resistant enzyme.

12

Effect of soil contamination with arsenic and application of different substances on the manganese content in plants

75%

Najmowicz T., Wyszkowski M., Ciecko Z.

Journal of Elementology

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2010

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tom 15

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nr 3

549-558

The aim of the study has been to determine the effect of some substances such as dolomite, loam, compost, pinewood bark, peat, lime, charcoal, natural and synthetic zeolite on reducing the impact of soil contamination with arsenic on the content of manganese in some plant species. The content of manganese in the test plants depended on the degree of soil contamination with arsenic, application of different substances as well as on the plant species and organ. Soil contamination with arsenic caused either an increase or a decrease in the content of manganese in plants depending on a plant species and organ. In the series without soil amending substances, in the arsenic contaminated objects the manganese content decreased in above-ground parts of cocksfoot and swede but increased in above-ground parts and roots of maize and yellow lupine, in roots of cocksfoot and swede and in straw and roots of spring barley. On the other hand, the highest rates of arsenic depressed the content of manganese in roots of cocksfoot, swede and spring barley. Addition of any of the aforementioned substances to contaminated soil changed the content of manganese in the plants. The most unambiguous effect of the different substances was determined in the case of above-ground parts of maize as well as above-ground parts and roots of cocksfoot, in which the manganese content fell down, and in roots of yellow lupine, grain and straw of spring barley, in which the content of manganese rose. Charcoal and loam caused the largest and synthetic zeolite led to the smallest changes in the content of manganese in plants.

13

Sensitivity of selected energy crop to increased copper content in soil

75%

Kocon A., Stanislawska-Glubiak E., Korzeniowska J.

Zeszyty Naukowe Uniwersytetu Przyrodniczego we Wrocławiu. Rolnictwo

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2013

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tom 107

14

Sensitivity of soil enzymes to excessive zinc concentrations

75%

Borowik A., Wyszkowska J., Kucharski J., Bacmaga M., Boros-Lajszner E., Tomkiel M.

Journal of Elementology

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2014

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tom 19

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nr 3

The sensitivity of soil enzymes to soil contamination with zinc was analyzed. A laboratory experiment was performed on sandy loam at pH 7.0, sampled from arable land at a depth of 0 to 20 cm. Soil samples were passed through a sieve with 2 mm mesh size and contaminated with the following zinc doses: 0, 300, 600, 1200 and 2400 mg Zn2+ kg-1 soil. Zinc was applied in the form of aqueous solution of ZnCl2. Soil was mixed thoroughly with zinc, and its moisture content was brought to 50% capillary water capacity. The samples were incubated at 25°C. Beakers with soil samples were weighed once a week to replenish evaporated water. The activity of soil enzymes: dehydrogenases, urease, acid phosphatase, alkaline phosphatase, catalase, arylsulfatase and b-glucosidase, was determined after 15, 30, 60 and 120 days of the experiment. The results were used to calculate soil resistance (RS), ED20 and ED50 values. The results of the study indicate that soil enzymes are characterized by varied sensitivity to excessive zinc concentrations, and that the RS index is a reliable measure of enzymatic responses to zinc pollution. The analyzed enzymes were classified in the following decreasing order in terms of their resistance to zinc: b-glucosidase> acid phosphatase > urease >arylsulfatase = alkaline phosphatase> catalase > dehydrogenases. Zinc continued to exert a negative effect on soil enzymes throughout the experiment (120 days). ED20 values for the analyzed enzymes in mg Zn2+ kg-1 DM soil were determined at: 103 for dehydrogenases, 184 for alkaline phosphatase, 233 for urease, 247 for arylsulfatase, 416 for acid phosphatase, 419 for catalase and 1373 for b-glucosidase.

15

Changes in microbial dehydrogenase activity and pH during bioremediation of fuel contaminated soil

75%

Wieczorek D., Marchut-Mikolajczyk O., Antczak T.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

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2015

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tom 96

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nr 4

16

The state of soil contaminated with nickel in the former sanitary zone of the Glogow Copper Smelter

75%

Kostecki J., Drab M., Wasylewicz R., Greinert A., Walczak B., Krolik D.

Polish Journal of Soil Science

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2015

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tom 48

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nr 1

Substances present in soils are of natural or anthropogenic origin. As a result of industrial activity, large quantities of potentially hazardous elements such as heavy metals are deposited in the environment. They may occur as unavailable (similar to the total form), or available for plants. The content of nickel in the soil from the former sanitary zone of the Głogów Copper Smelter does not exceed the Polish threshold values for industrial areas; however, its content may be influenced by other factors such as content of organic matter and soil reaction. In this article we present the results of the nickel pollution in the former sanitary zone of the Głogów Copper Smelter.

17

Effect of arsenic contamination of soil on iron content in plants

75%

Najmowicz T., Wyszkowski M., Ciecko Z.

Zeszyty Problemowe Postępów Nauk Rolniczych

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2009

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tom 541

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nr 2

The aim of the study was to determine the effect of soil contamination with arsenic on the concentration of iron in some plant species. In addition, the following arsenic neutralising substances were added to soil for tests: lime, dolomite, natural and synthetic zeolite, charcoal, loam and compost. Soil contamination with arsenic, application of neutralising substances to the soil as well as the crop species had significant influence on the content of iron in the tested plant organs. Soil contamination with arsenic had an antagonistic or synergistic effect on the content of iron in plants, which was closely related with the crop species. In a series without neutralising substances added to the soil, arsenic had a negative effect on the content of iron in the above-ground parts and roots of cocksfoot, roots of maize, grain, straw and roots of spring barley, but a positive influence on its accumulation in the above-ground parts of maize and roots of swede. The highest increase in the content of iron was found in the above-ground parts of maize. The application of inactivating substances to the soil significantly modified the content of iron in the tested plant organs. These substances caused a decrease in the concentration of iron in the above-ground parts of maize and cocksfoot, but led to an increase in the accumulation of this element in straw and roots of spring barley. The direction of change in the concentration of iron in plants, i.e. decrease or increase, following the application of arsenic neutralising substances depended on plant species and the tested organ as well as the type of substance added to the soil.

18

Changes in soil contamination by selected herbicides used in protection of cereals

75%

Kucharski M., Domaradzki K.

Polish Journal of Soil Science

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2014

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tom 47

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nr 2

The aim of the studies was to evaluate the herbicidal contaminations in soil. Monitoring tests were carried out in two periods: 2002–2008 and 2010–2013, on cereal plantations located in south-western Poland. The samples of soil were collected at harvest time. The determination of 2,4-D, MCPA, diflufenican, dicamba, chlortoluron, fluroxypyr, isoproturon, clopyralid residues were conducted using the chromatography GC/ECD and HPLC/UV. Comparing the research results from both periods, a decrease of several percent in the number of the samples with residues was observed. In the years 2010–2013, the average residues of herbicide determined in 27% of samples ranged from 0.0012 to 0.0052 mg kg⁻¹ .1

19

Mercury contamination of railway areas in South-East Poland

75%

Jozwiak M., Jozwiak M. A.

Rocznik Świętokrzyski. Seria B. Nauki Przyrodnicze. Kieleckie Towarzystwo Naukowe

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2013

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tom 34

20

Remediation of soil contaminated with cadmium

75%

Zaborowska M., Kucharski J., Wyszkowska J.

Journal of Elementology

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2015

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tom 20

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nr 3

The search for the best solutions to restore soil balance is essential for attaining a stable and sustainable agricultural development worldwide. This research, which makes a contribution to these investigations, focuses on four substances (two innovative ones: basalt flour, brown algal extract, and two classic soil improvers: finely ground barley straw and compost) which can potentially alleviate the inhibitory effect of Cd2+ on the soil environment. The following were analyzed: the activity of acid phosphatase and alkaline phosphatase, counts of Pseudomonas sp., cellulolytic bacteria, copiotrophic bacteria and copiotrophic spore-forming bacteria, and the yield of spring barley. Cadmium (Cd2+) was applied as CdCl2 · 2.5H2O in the following doses: 0, 4, 40, 80, 120, 160, and 200 mg Cd2+ kg-1 of soil. For a more complete assessment of the soil, its biochemical properties and the counts of microorganisms were scrutinized with the following indices: RS – soil resistance, R:S – rhizosphere effect and EF – fertilization effect of the contamination alleviating substances. It was found that alkaline phosphatase is more sensitive to cadmium contamination of the soil than acid phosphatase. Cadmium did not exert any inhibitory effect on the number of microorganisms present or the yield of spring barley. Cellulolytic bacteria were the least sensitive to stress associated with the accumulation of high cadmium doses in the soil, whereas copiotrophic bacteria were the most sensitive microorganisms to the above stressor. The ability of cadmium-polluted soil to restore homeostasis depended on the type of a soil improver and the level of soil contamination. Negative consequences of cadmium pollution were effectively mitigated by straw, but less so by brown algal extract and basalt flour.

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