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RESPONSE OF MICROORGANISMS AND ENZYMES TO SOIL CONTAMINATION WITH THE HERBICIDE SUCCESSOR T 550 SE.
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- Environment Protection Engineering, 2014, v. 40, n. 4, p. 15, doi. 10.5277/epe140402
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- Article
RESPONSE OF MICROORGANISMS AND ENZYMES TO SOIL CONTAMINATION WITH THE HERBICIDE SUCCESSOR T 550 SE.
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- Environment Protection Engineering, 2014, v. 40, n. 3, p. 15, doi. 10.5277/epe140402
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- Article
The influence of chlorothalonil on the activity of soil microorganisms and enzymes.
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- Ecotoxicology, 2018, v. 27, n. 9, p. 1188, doi. 10.1007/s10646-018-1968-7
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The effect of the Falcon 460 EC fungicide on soil microbial communities, enzyme activities and plant growth.
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- Ecotoxicology, 2016, v. 25, n. 8, p. 1575, doi. 10.1007/s10646-016-1713-z
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The effect of carfentrazone-ethyl on soil microorganisms and soil enzymes activity / Wpływ karfentrazonu etylu na mikroorganizmy i aktywność enzymów glebowych.
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- Archives of Environmental Protection, 2015, v. 41, n. 3, p. 3, doi. 10.1515/aep-2015-0025
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Effects of Tebuconazole Application on Soil Microbiota and Enzymes.
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- Molecules, 2022, v. 27, n. 21, p. 7501, doi. 10.3390/molecules27217501
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Response of microorganisms and enzymes to soil contamination with a mixture of pethoxamid terbuthylazine.
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- Environmental Earth Sciences, 2016, v. 75, n. 18, p. 1, doi. 10.1007/s12665-016-6092-5
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Responses of microorganisms and enzymes to soil contamination with metazachlor.
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- Environmental Earth Sciences, 2014, v. 72, n. 7, p. 2251, doi. 10.1007/s12665-014-3134-8
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Response of microorganisms and enzymes to soil contamination with a mixture of terbuthylazine, mesotrione, and S-metolachlor.
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- Environmental Science & Pollution Research, 2017, v. 24, n. 2, p. 1910, doi. 10.1007/s11356-016-7919-z
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Microbial and enzymatic activity of soil contaminated with a mixture of diflufenican + mesosulfuron-methyl + iodosulfuron-methyl-sodium.
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- Environmental Science & Pollution Research, 2015, v. 22, n. 1, p. 643, doi. 10.1007/s11356-014-3395-5
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- Article
Changes in microbiological properties of soil during fungicide degradation.
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- Soil Science Annual, 2018, v. 69, n. 3, p. 169, doi. 10.2478/ssa-2018-0017
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- Article
Response of Fungi, β-Glucosidase, and Arylsulfatase to Soil Contamination by Alister Grande 190 OD, Fuego 500 SC, and Lumax 537.5 SE Herbicides.
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- Polish Journal of Environmental Studies, 2014, v. 23, n. 1, p. 19
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- Article
Effect of Previous Crop on the Structure of Bacterial and Fungal Communities during the Growth of Vicia faba L. spp. minor.
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- Agriculture; Basel, 2024, v. 14, n. 3, p. 370, doi. 10.3390/agriculture14030370
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- Article
Effect of Bentonite and Barley Straw on the Restoration of the Biological Quality of Agriculture Soil Contaminated with the Herbicide Successor T 550 SE.
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- Agriculture; Basel, 2021, v. 11, n. 1, p. 27, doi. 10.3390/agriculture11010027
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Influence of Forecrop on Soil Quality Estimated on the Basis of the Growth and Development of Faba Bean and Biochemical Properties of the Soil.
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- Sustainability (2071-1050), 2024, v. 16, n. 17, p. 7492, doi. 10.3390/su16177492
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The effect of nitrogen on the microbiological and biochemical properties of zinc-contaminated soil.
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- Journal of Environmental Engineering & Landscape Management, 2017, v. 25, n. 1, p. 13, doi. 10.3846/16486897.2016.1184154
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The Influence of Nitrogen on the Biological Properties of Soil Contaminated with Zinc.
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- Bulletin of Environmental Contamination & Toxicology, 2017, v. 98, n. 3, p. 426, doi. 10.1007/s00128-016-1977-2
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MICROBIOME OF SOIL CONTAMINATED WITH ZINC.
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- Journal of Elementology, 2017, v. 22, n. 3, p. 907, doi. 10.5601/jelem.2016.21.4.1322
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CHANGES IN THE MICROBIOLOGICAL AND BIOCHEMICAL PROPERTIES OF SOIL CONTAMINATED WITH ZINC.
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- Journal of Elementology, 2017, v. 22, n. 2, p. 437, doi. 10.5601/jelem.2016.21.2.1213
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SENSITIVITY OF SOIL ENZYMES TO EXCESSIVE ZINC CONCENTRATIONS.
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- Journal of Elementology, 2014, v. 19, n. 3, p. 637, doi. 10.5601/jelem.2014.19.2.456
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PRESSURE EXERTED BY ZINC ON THE NITRIFICATION PROCESS.
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- Journal of Elementology, 2014, v. 19, n. 2, p. 327
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EFFECT OF HERBICIDES ON THE COURSE OF AMMONIFICATION IN SOIL.
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- Journal of Elementology, 2009, v. 14, n. 3, p. 477
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IMPACT OF CROP PROTECTION CHEMICALS ON PLANTS AND ANIMALS.
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- Journal of Elementology, 2007, v. 12, n. 2, p. 135
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Bioaugmentation of Soil Contaminated with Zinc.
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- Water, Air & Soil Pollution, 2020, v. 231, n. 8, p. N.PAG, doi. 10.1007/s11270-020-04814-5
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An Evaluation of the Effectiveness of Sorbents in the Remediation of Soil Contaminated with Zinc.
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- Water, Air & Soil Pollution, 2018, v. 229, n. 7, p. 1, doi. 10.1007/s11270-018-3882-2
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The Role of Compost in Stabilizing the Microbiological and Biochemical Properties of Zinc-Stressed Soil.
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- Water, Air & Soil Pollution, 2017, v. 228, n. 9, p. 1, doi. 10.1007/s11270-017-3539-6
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Bioaugmentation of Soil Contaminated with Azoxystrobin.
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- Water, Air & Soil Pollution, 2017, v. 228, n. 1, p. 1, doi. 10.1007/s11270-016-3200-9
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Response of Soil Microbiota, Enzymes, and Plants to the Fungicide Azoxystrobin.
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- International Journal of Molecular Sciences, 2024, v. 25, n. 15, p. 8104, doi. 10.3390/ijms25158104
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Bacteria, Fungi, and Enzymes in Soil Treated with Sulcotrione and Terbuthylazine.
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- International Journal of Molecular Sciences, 2023, v. 24, n. 19, p. 14469, doi. 10.3390/ijms241914469
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Microbiological and biochemical properties of soil polluted with a mixture of spiroxamine, tebuconazole, and triadimenol under the cultivation of Triticum aestivum L.
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- Environmental Monitoring & Assessment, 2019, v. 191, n. 7, p. N.PAG, doi. 10.1007/s10661-019-7539-4
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Biostimulation as a process aiding tebuconazole degradation in soil.
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- Journal of Soils & Sediments: Protection, Risk Assessment, & Remediation, 2019, v. 19, n. 11, p. 3728, doi. 10.1007/s11368-019-02325-3
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