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Journal articles on the topic 'Polluted soils'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Scullion, John. "Remediating polluted soils." Naturwissenschaften 93, no. 2 (2006): 51–65. http://dx.doi.org/10.1007/s00114-005-0079-5.

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2

Chibuike, G. U., and S. C. Obiora. "Heavy Metal Polluted Soils: Effect on Plants and Bioremediation Methods." Applied and Environmental Soil Science 2014 (2014): 1–12. http://dx.doi.org/10.1155/2014/752708.

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Soils polluted with heavy metals have become common across the globe due to increase in geologic and anthropogenic activities. Plants growing on these soils show a reduction in growth, performance, and yield. Bioremediation is an effective method of treating heavy metal polluted soils. It is a widely accepted method that is mostly carried outin situ; hence it is suitable for the establishment/reestablishment of crops on treated soils. Microorganisms and plants employ different mechanisms for the bioremediation of polluted soils. Using plants for the treatment of polluted soils is a more common
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3

Bech, J., M. M. Abreu, C. Pérez-Sirvent, and C. Poschenrieder. "Phytoremediation of polluted soils." Journal of Geochemical Exploration 123 (December 2012): 1–2. http://dx.doi.org/10.1016/j.gexplo.2012.11.001.

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4

Bech, Jaume. "Remediation of Polluted Soils." Journal of Geochemical Exploration 174 (March 2017): 1–3. http://dx.doi.org/10.1016/j.gexplo.2016.11.019.

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5

Yasseen, Bassam T., and Roda F. Al-Thani. "Endophytes and Halophytes to Remediate Industrial Wastewater and Saline Soils: Perspectives from Qatar." Plants 11, no. 11 (2022): 1497. http://dx.doi.org/10.3390/plants11111497.

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Many halophytes are considered to be salt hyperaccumulators, adopting ion extrusion and inclusion mechanisms. Such plants, with high aboveground biomass, may play crucial roles in saline habitats, including soil desalination and phytoremediation of polluted soils and waters. These plants cause significant changes in some of the soil’s physical and chemical properties; and have proven efficient in removing heavy metals and metabolizing organic compounds from oil and gas activities. Halophytes in Qatar, such as Halopeplis perfoliata, Salicornia europaea, Salsola soda, and Tetraena qatarensis, ar
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6

A, Venkatachalapathi, Abdul Kaffoor H, and Nagarajan N. "Evaluate the association of arbuscular mycorrhizal fungi in some medicinal plants grown in noyal river bed, tiruppur district, tamil nadu." Kongunadu Research Journal 7, no. 1 (2020): 54–62. http://dx.doi.org/10.26524/krj.2020.9.

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To evaluate the rhizosphere soils and ten medicinal herbs polluted soils were tested for the association of arbuscular mycorrhizal fungi and determined the impact of the physico chemical factors in relation to the quantitative and qualitative assessment of AM fungi in polluted soils. Forty species of AMF belonging to five genera such as Glomus, Acaulospora, Gigaspora, Sclerocystis and Scutellospora were recorded and identified. Glomus fistulosum was noticed as the moist dominant in the polluted. In the non-polluted soils,all the plant species were colonized with AM fungi. Where as in polluted
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7

Ullah, Sana, Marius Praspaliauskas, Irena Vaskeviciene, Ahmed Hosney, and Karolina Barcauskaite. "Compost Mitigates Metal Toxicity and Human Health Risks and Improves the Growth and Physiology of Lettuce Grown in Acidic and Neutral Loam-Textured Soils Polluted with Copper and Zinc." Land 14, no. 3 (2025): 478. https://doi.org/10.3390/land14030478.

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A pot study was conducted to assess the potential of green waste compost on soil properties, growth, physiology, and metal uptake of lettuce plants grown in acidic and neutral loam-textured soils irrigated with copper- and zinc-polluted wastewater (WW). The experiment consists of sixteen treatments involving two different soils with and without compost addition (compost and NoCompost) and irrigated with unpolluted WW, Cu-polluted WW, Zn-polluted WW, and Cu- plus Zn-polluted WW, arranged following factorial layout with three replications. The results illustrated that Cu- and Zn-polluted WW sign
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8

Einax, J., and U. Soldt. "Geostatistical investigations of polluted soils." Fresenius' Journal of Analytical Chemistry 351, no. 1 (1995): 48–53. http://dx.doi.org/10.1007/bf00324291.

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9

Chernykh, N. A., and Yu I. Baeva. "Microbiocenoses of Oil-Polluted Soils." Russian Journal of General Chemistry 88, no. 13 (2018): 2903–7. http://dx.doi.org/10.1134/s1070363218130121.

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10

Samokhvalova, V., A. Fateev, S. Zuza, et al. "Phytoremediation of technologically polluted soils." Agroecological journal, no. 1 (March 5, 2015): 92–100. http://dx.doi.org/10.33730/2077-4893.1.2015.272192.

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We have elaborated the methodological approach for phytoremediation of anthropogenic contamination of soils by heavy metals (HM) according to the results of soil-geochemical investigations of the impact zones of the anthropogenic emissions of pollution sources of JSC «Ukrzink», JSC «Avdiivka coking plant» in Donetsk region. Methodological approach to anthropogenic contamination soil with HM is developed, method of soil phytoremediation for its more effective use, in which due to the expansion of spectrum use as phytoremediation dominant herbaceous wild plant species of competing families Aster
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11

Kireeva, N. A., T. R. Kabirov, and I. E. Dubovik. "Oil-Polluted Soils Complex Biotesting." Theoretical and Applied Ecology, no. 1 (May 10, 2007): 65–69. https://doi.org/10.25750/1995-4301-2007-1-041-45.

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Investigation was held to maintain a complex biotest system for indication of oil polluted soils toxicity levels for different groups of organisms. Soil enzymes, plants, soil animals, bacteria and algae were tested for there co-operative response for oil pollution. A pattern was observered, allowing approximate evaluation of oil polluted soil condition based on this biotests.
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12

Gurbanov, E. M., and A. A. Akhundova. "Phytoecological indicators for biological recultivation of soils polluted with oil in the Absheron peninsula." Biosystems Diversity 17, no. 2 (2009): 3–8. http://dx.doi.org/10.15421/010937.

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Phytoecological indicators of polluted soils of Amirov Oil-and-Gas Production Department (Garadag district,Baku) were studied. Phytocenological and biomorphological analysis of flora was done with the aim of further biological rehabilitation of Absheron peninsula. Oil products (black oil, boring waters, etc.) pollution turns the plant cover into a dead mass. Decontamination of soil and rehabilitation of microbial community improve the soil’s fertility. Wild and cultured plant indicators may be used in biopurification of the soils polluted with oil products. Sowing of the fodder crops followed
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13

Osadebe, Anwuli, Chioma Chikere, and Gideon Okpokwasili. "Impact of Chronic Crude Oil Pollution on Nitrification in Edaphic Systems." ECOTOXICOLOGY AND ENVIRONMENTAL CONTAMINATION 17, no. 2 (2023): 50–63. http://dx.doi.org/10.5132/eec.2022.02.07.

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Nitrification plays a key role in regulating soil fertility, concentration of soil inorganic nitrogen and production of the highly potent greenhouse gas, nitrous oxide, from soil. This study investigated the effect of long-term crude oil pollution on the activity, abundance and diversity of autotrophic nitrifying bacteria in impacted soils from Bomu and Abonema in the Nigerian Niger Delta compared to unpolluted systems. Nitrifier activity was investigated by determining the soil oxidation potentials while the most probable number microtechnique using Winogradsky media was used to ascertain nit
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14

Huang, Jinrong, Heng Liang, Lilong Huang, et al. "Natural Revegetation Alters Habitat Conditions, Bacterial Components, and Polycyclic Aromatic Hydrocarbon (PAH)-Degrading Communities in Aged PAH-Polluted Soils." Microorganisms 13, no. 5 (2025): 1098. https://doi.org/10.3390/microorganisms13051098.

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The vegetation restoration of contaminated sites plays a critical role in ensuring the sustained stability and functional integrity of natural ecosystems. However, during the natural revegetation process, the variations in habitat conditions, bacterial community structure, and metabolic functions in aged, polluted soil are still unclear. In the present study, we investigated aged, polycyclic aromatic hydrocarbon (PAH)-polluted soils at closed, abandoned oil well sites from the Yellow River Delta. Using gene amplification and real-time qPCR methods, the abundance, taxonomy, and diversity charac
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15

Aguilar-Garrido, Antonio, Ana Romero-Freire, Mario Paniagua-López, Francisco Javier Martínez-Garzón, Francisco José Martín-Peinado, and Manuel Sierra-Aragón. "Technosols Derived from Mining, Urban, and Agro-Industrial Waste for the Remediation of Metal(loid)-Polluted Soils: A Microcosm Assay." Toxics 11, no. 10 (2023): 854. http://dx.doi.org/10.3390/toxics11100854.

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This study evaluated the effectiveness of six Technosols designed for the remediation of polluted soils (PS) by metal(loid)s at physicochemical, biological, and ecotoxicological levels and at a microcosm scale. Technosols T1–T6 were prepared by combining PS with a mix of organic and inorganic wastes from mining, urban, and agro-industrial activities. After two months of surface application of Technosols on polluted soils, we analysed the soil properties, metal(loid) concentration in total, soluble and bioavailable fractions, soil enzymatic activities, and the growth responses of Trifolium camp
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16

Shamsuzzoha, M., and M. A. Khan. "Effect of Industrial Soil Contamination and Fertilizer Management on Growth, Yield and Metal Uptake by BARI Tomato 8." Journal of the Bangladesh Agricultural University 22, no. 4 (2024): 404–11. https://doi.org/10.3329/jbau.v22i4.78838.

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The concern about industrial pollution and food safety is growing due to crop contamination and a major route to human exposure. The experiment was completed at a net house of Sher-e-Bangla Agricultural University during November 2021 to April 2022 to find out the effect of industrial soil pollution and fertilizer management on growth, yield and metal accumulation by BARI Tomato 8. Industrially polluted soils were collected from contaminated areas considering the soil pollution intensity. The physico-chemical properties were determined in soils. The experiment consists of two-factor, as Factor
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17

Shit, Puspendu, Indranil Bhattacharjee, Partha Pratim Chakravorty, Harekrishna Jana, and Yuji Sakai. "Pesticide Soil Pollution: An Overview about Advantages and Disadvantages of Different Remediation Technologies." Current World Environment 18, no. 2 (2023): 752–74. http://dx.doi.org/10.12944/cwe.18.2.25.

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The use of pesticides presents a looming danger to the living elements of our ecological system, crops, and the well-being of our species. As an outcome, various organic contaminants pollute the soil. Different physical, chemical, and biological remediation techniques have been employed for the decontamination of pesticide-polluted soils. Remediation technology should always be affordable, on-site or in-situ, and capable of restoring the soil's natural functionality. The presence of multiple pesticides can pose challenges in effectively remediating them from the soil. The present work examines
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18

Rehman, Muneeb Ur, Naseer Ahmad, Aziz Ullah, Paul John Pangilinan, and Endalamaw Alebachew. "Hazardous effects of heavy metal toxicity on soil and plants and their bioremediation: a review." Agricultural Sciences 15, no. 38 (2023): 12–32. http://dx.doi.org/10.22620/agrisci.2023.38.002.

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Heavy metal-polluted soils have grown ubiquitous worldwide due to increased geologic and anthropogenic activity, and the plants growing in these soils exhibit decreased growth, performance, and yield. Contaminated soil with heavy metals has become a concern for agricultural scientists because of the progress made in agricultural product safety. Heavy metals are metalloids with biological toxicity. The most common are arsenic (As), cadmium (Cd), chromium (Cr), copper (Cu), mercury (Hg), lead (Pb), and zinc (Zn). These metals exist throughout the terrestrial environment and have spread out due t
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19

Naser, HM, S. Sultana, M. Manjurul Haque, S. Akhter, and RA Begum. "Lead, Cadmium and Nickel Accumulation in Some Common Spices Grown in Industrial Areas of Bangladesh." Agriculturists 12, no. 1 (2014): 122–30. http://dx.doi.org/10.3329/agric.v12i1.19867.

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Chemical analysis was conducted to determine the contents of lead (Pb), cadmium (Cd) and nickel (Ni) of three common spices viz, onion (Allium cepa), garlic (A. sativum) and chilli (Capsicum annuum) and their rhizospheric soils grown in polluted and non-polluted areas of Gazipur city in Bangladesh. Plant and rhizospheric soil samples were collected from: (i) directly polluted (Kaliakoir, Konabari, Gazipur), (ii) indirectly polluted (Donker bill, East Kaliakoir, Konabari, Gazipur), and iii) non-polluted (Bangladesh Agricultural Research Institute, Joydebpur, Gazipur) areas. Regardless of the lo
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20

Ablieieva, Iryna, Leonid Plyatsuk, Iryna Berezhna, and Myroslav Malovanyy. "Biotechnological Reclamation of Oil-Polluted Soils." Ecological Engineering & Environmental Technology 22, no. 2 (2021): 27–38. http://dx.doi.org/10.12912/27197050/133328.

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21

Simeonov, Vasil, Juergen Einax, Stafan Tsakovski, and Joerg Kraft. "Multivariate statistical assessment of polluted soils." Open Chemistry 3, no. 1 (2005): 1–9. http://dx.doi.org/10.2478/bf02476233.

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AbstractThis study deals with the application of several multivariate statistical methods (cluster analysis, principal components analysis, multiple regression on absolute principal components scores) for assessment of soil pollution by heavy metals. The sampling was performed in a heavily polluted region and the chemometric analysis revealed four latent factors, which describe 84.5 % of the total variance of the system, responsible for the data structure. These factors, whose identity was proved also by cluster analysis, were conditionally named “ore specific”, “metal industrial”, “cement ind
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22

Erdogan, Esin (Eraydin), and Ayten Karaca. "Bioremediation of Crude Oil Polluted Soils." Asian Journal of Biotechnology 3, no. 3 (2011): 206–13. http://dx.doi.org/10.3923/ajbkr.2011.206.213.

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23

Schulin, R. "Ecological Risk Evaluation of Polluted Soils." European Journal of Soil Science 52, no. 3 (2001): 524–25. http://dx.doi.org/10.1046/j.1365-2389.2001.00418-6.x.

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24

Wang, Luo, Dongsheng Liu, and Houyuan Lü. "Magnetic susceptibility properties of polluted soils." Chinese Science Bulletin 45, no. 18 (2000): 1723–26. http://dx.doi.org/10.1007/bf02898995.

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25

Oghoje, S. U., J. E. Ukpebor, and E. E. Ukpebor. "The Effects of Chicken Manure Digestates on the Removal of Diesel Range Organics from Petroleum Products Polluted Soils." Bulgarian Journal of Soil Science 6, no. 1 (2021): 78–95. https://doi.org/10.5281/zenodo.4887779.

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This study was designed to investigate the efficiency of using locally produced chicken manure digestates (CMD) as nutrient supplement for the removal of diesel range organics (DRO) from petroleum products polluted soils by land farming process. Soils samples spiked with hydrocarbon mixture (HCM), 5 % and 10 %) were treated with three rates of the CMD (0, 10 or 20 %) for a 336 days period. Soil samples were collected at day 1, 14, 28, 56, 84, 168 and 336 time interval and the samples were extracted using standard methods. The concentrations of DRO at various sampling periods were determined us
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26

MBAEGBU, Godswill Ifeanyichukwu, Emmanuel Emangha IHEM, Michael Akaninyene OKON, and Obinna Chigoziem AKAKURU. "Impact of waste dumps on soil and groundwater quality in Owerri, Southeastern Nigeria." Agriculture, Food and Natural Resources Journal 3, no. 1 (2024): 113–21. https://doi.org/10.5281/zenodo.13932188.

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This study evaluated the soil physico-chemical properties and concentration of heavy metals (lead and chromium) and their influence on the soil and groundwater quality due to waste dumps in Owerri, Southeastern Nigeria. Four profile pits of about 180 cm depth were dug, one each at the polluted and control sites, from which soil samples were collected and analysed. Also, water samples proximate to the dumpsite (5 m) were collected, and control samples about 300 m away from the dumpsite were collected. Soil data were subjected to analysis of variance, and significant means were separated using t
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27

Zhao, Zheng, Changyin Huang, Baohui Liang, et al. "The Effect of Microbial Compound Fertilizer on the Heavy Metal Binding Forms and Enzyme Activity in Soil." Processes 12, no. 6 (2024): 1134. http://dx.doi.org/10.3390/pr12061134.

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Nowadays, heavy metal pollution in soil caused by human production activities is increasingly serious. The heavy metal ions in soil inhibit plant growth and endanger human health as they can disrupt the physicochemical properties of soil. However, the elimination of heavy metals in soil is so difficult that more and more researchers are studying effective soil conditioners. The negatively charged groups in microbial communities can bind with heavy metal ions in the soil to remove them. In this paper, Cr- and Cd-polluted soils were used to simulate heavy-metal-polluted soil, and microbial compo
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28

Nesterov, Evgeni, Timofei Belyakov, Stanislav Dubrova, and Pavel Egorov. "Geochemical studies of surface bottom sediments and soils of small watercourses." E3S Web of Conferences 169 (2020): 01005. http://dx.doi.org/10.1051/e3sconf/202016901005.

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Analytical data on samples of bottom sediments of the Novaya river watercourse made it possible to identify areas of pollution, sources of pollution and determine the nature of the influence of the anthropogenic factor on the state of the river. It was found that bottom sediments are divided into slightly polluted, moderately polluted, and dangerously polluted. Soils on the total indicator of pollution belong to the permissible category. The list of defined indicators includes: hydrogen index (pH), total metal content (cadmium, copper, lead, mercury, nickel, zinc), arsenic, petroleum products,
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29

Canu, Marta, Paolo Mulè, Erminio Spanu, Stefania Fanni, Alessandro Marrone, and Gianluca Carboni. "Hemp Cultivation in Soils Polluted by Cd, Pb and Zn in the Mediterranean Area: Sites Characterization and Phytoremediation in Real Scale Settlement." Applied Sciences 12, no. 7 (2022): 3548. http://dx.doi.org/10.3390/app12073548.

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Polluting activities affect, directly or indirectly, large areas of agricultural lands. Metal polluted soils could be managed by phytoremediation using hemp (Cannabis sativa L.). To know the phytoremediation capability of industrial hemp in metal polluted soils under semiarid environments, an experimental project with the support of local farmers was conducted in Sardinia (Italy). This work was carried out in three main steps: (i) identification and selection of the study sites, (ii) field trials, at local farms, both on contaminated and non-polluted sites, (iii) evaluation of heavy metals con
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30

Kovalev, V., I. Derebon, and V. Feschenko. "Growing lobal cultures on radioactive polluted soils." Scientific Horizons 70, no. 7-8 (2018): 15–21. http://dx.doi.org/10.33249/2663-2144-2018-70-7-8-15-21.

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31

Barna, Gyöngyi, Tünde Csatári, Réka Balázs, et al. "Water regime change of surfactant polluted soils." Review on Agriculture and Rural Development 5, no. 1-2 (2016): 126–31. http://dx.doi.org/10.14232/rard.2016.1-2.126-131.

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Studies were made on the adsorption of a cationic surfactant, hexadecylpyridinium-chloride (CPC), on various soils and sediments. The aim was to determine how modify the adsorbed surfactant the soil physical characteristics, mainly water regime. Water retention were measured, pore size distribution curves were derived from water retention curves, modal suction, total porosity and rate of different pores (macro-, meso-, micro-, ultramicro- and cryptopores) were evaluated. Due to CPC treatment, samples became hydrophobic. Rate of cryptopores declined at all surfactant treated samples, while rate
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32

Glyaznetsova, Yu S., O. N. Chalaya, S. H. Lifshits, and I. N. Zueva. "MONITORING OF OIL POLLUTED SOILS OF CRYOLITHOZONE." Problems of Ecological Monitoring and Ecosystem Modelling 29, no. 4 (2018): 111–28. http://dx.doi.org/10.21513/0207-2564-2018-4-111-128.

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33

Svarovskaya, L. I., and L. K. Altunina. "Biotechnology for Recultivation of Oil Polluted Soils." Eurasian Chemico-Technological Journal 6, no. 2 (2017): 151. http://dx.doi.org/10.18321/ectj605.

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<p>All the biotechnologies intended for improvement of environmental conditions are based on the ability of microorganisms for hydrocarbon oxidizing. In the development of biotechnological approaches for soil re-cultivation the extent of soil pollution has to be taken into account. Among the advantages of a technology employing mineral nutrient substrates for enhancing the oxygenizing activity of soil microflora its cost-effectiveness is very important. When dealing with highly polluted soils, more complex methods for soil restoration are called for; however, these are much more labour-e
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34

Tripathi, D. S., and S. K. Roy. "Comparison of MIC polluted soils of Bhopal." CYTOLOGIA 53, no. 3 (1988): 465–68. http://dx.doi.org/10.1508/cytologia.53.465.

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35

Hiroki, Mikiya, and Yoshihito Yoshiwara. "Arsenic fungi isolated from arsenic-polluted soils." Soil Science and Plant Nutrition 39, no. 2 (1993): 237–43. http://dx.doi.org/10.1080/00380768.1993.10416995.

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Hiroki, Mikiya. "As-tolerantBacillus circulansisolated from as-polluted soils." Soil Science and Plant Nutrition 39, no. 2 (1993): 351–55. http://dx.doi.org/10.1080/00380768.1993.10417006.

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37

Hallberg, Rolf O., and Björn S. Trepte. "Bioremediation of pah polluted soils: Column studies." Journal of Soils and Sediments 3, no. 1 (2003): 21–27. http://dx.doi.org/10.1007/bf02989464.

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38

Baltrenas, P., and S. Tretjakovas. "Biopurification of Soils Polluted with Oil Products." Chemical and Petroleum Engineering 41, no. 7-8 (2005): 388–90. http://dx.doi.org/10.1007/s10556-005-0126-2.

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39

Hinojosa, M. Belén, José A. Carreira, Roberto García-Ruíz, and Richard P. Dick. "Microbial Response to Heavy Metal-Polluted Soils." Journal of Environmental Quality 34, no. 5 (2005): 1789–800. http://dx.doi.org/10.2134/jeq2004.0470.

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40

Kőmives, T., G. Gullner, and Z. Király. "Phytoremediation of soils polluted with chloroacetanilide herbicides." Cereal Research Communications 33, no. 1 (2005): 393–97. http://dx.doi.org/10.1556/crc.33.2005.1.97.

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41

Ettler, Vojtěch, Václav Tejnecký, Martin Mihaljevič, Ondřej Šebek, Milan Zuna, and Aleš Vaněk. "Antimony mobility in lead smelter-polluted soils." Geoderma 155, no. 3-4 (2010): 409–18. http://dx.doi.org/10.1016/j.geoderma.2009.12.027.

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42

Jensen, Pernille E., Lisbeth M. Ottosen, and Anne J. Pedersen. "Speciation Of Pb In Industrially Polluted Soils." Water, Air, and Soil Pollution 170, no. 1-4 (2006): 359–82. http://dx.doi.org/10.1007/s11270-005-9008-7.

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43

Rippen, Gerd, Thomas Held, and Peter Ripper. "Microbiological remediation of waste-oil polluted soils." Environmental Science and Pollution Research 1, no. 3 (1994): 185–89. http://dx.doi.org/10.1007/bf02986946.

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44

Bech, Jaume. "Preface: Remediation of Polluted Soils-Part 2." Journal of Geochemical Exploration 182 (November 2017): 121–22. http://dx.doi.org/10.1016/j.gexplo.2017.09.015.

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45

Bech, Jaume. "Remediation of Polluted Soils - Part 3: Preface." Journal of Geochemical Exploration 184 (January 2018): 223–25. http://dx.doi.org/10.1016/j.gexplo.2017.10.025.

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46

Ibrahimova, T., and N. Jabbarova. "USING ORNAMENTAL PLANTS TO RESTORE POLLUTED SOILS." SCIENTIFIC-DISCUSSION, no. 100 (May 15, 2025): 22–27. https://doi.org/10.5281/zenodo.15427342.

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In recent centuries, due to urbanization, industrialization and rapid growth of world population, organic and inorganic pollutants resulting from household and industrial production and consumption conditions have led to excessive release of heavy metals into the nature. Excessive accumulation of heavy metals in soil has a significant impact not only on soil fertility and ecosystem functions, but also on animal and human health through the food chain. Nowadays, the use of hyperaccumulatory plants for remediation of heavy metal-contaminated soils (phytoremediation) and the identification of suc
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47

Ávila-Pozo, Paloma, Juan Parrado, Pablo Caballero, Marta Díaz-López, Felipe Bastida, and Manuel Tejada. "Use of Slaughterhouse Sludge in the Bioremediation of an Oxyfluorfen-Polluted Soil." International Journal of Environmental Research 15, no. 4 (2021): 723–31. http://dx.doi.org/10.1007/s41742-021-00351-z.

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AbstractThe use of organic matter is a highly accepted environmental practice among scientists for the bioremediation of polluted soils. In this manuscript we study under laboratory conditions the bioremediation capacity of a new biostimulant obtained from slaughterhouse sludge in a soil polluted by the oxyfluorfen at a rate of 4 l ha−1 (manufacturer’s rate recommended) over a 90-day period. We determined its effects on dehydrogenase, urease, β-glucosidase and phosphatase activities, the soil microbial community structure and the evolution of the herbicide in soil. Possibly due to the high con
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48

IKHAJIAGBE, B., G. O. ANOLIEFO, O. OMOREGBEE, and P. B. MSHELBULLA,. "THE EFFECTS OF SOIL AMENDMENTS ON THE GROWTH AND YIELD PERFORMANCE OF COWPEA (VIGNA UNGUICULATA CV. IFE BROWN) SOWN IN A PETROLEUM HYDROCARBON-POLLUTED SOIL." Nigerian Journal of Life Sciences (ISSN: 2276-7029) 4, no. 2 (2022): 80–93. http://dx.doi.org/10.52417/njls.v4i2.186.

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The present study was on the phytoassessment of a waste engine oil (WEO)-polluted soil after soil amendment, using Vigna unguiculata cv. Ife Brown. Top soil (0 - 10 cm) of constant was measured into buckets. The WEO was poured into the measured soil and thoroughly mixed to obtain 2.5% w/w oil-in-soil concentration. Polluted soils were mixed with manure (MN) and/or sawdust (SD) at 10% w/w respectively. However, when more than a soil amendment was applied, they were both added together in equal proportions to make 10% w/w substrate in soil. Urea (UR) was also applied to soil at 4g/kg soil. The t
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49

Aguilar-Garrido, Antonio, Ana Romero-Freire, Minerva García-Carmona, Francisco J. Martín Peinado, Manuel Sierra Aragón, and Francisco J. Martínez Garzón. "Arsenic Fixation in Polluted Soils by Peat Applications." Minerals 10, no. 11 (2020): 968. http://dx.doi.org/10.3390/min10110968.

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Soil arsenic (As) pollution is still a major concern due to its high toxicity and carcinogenicity, thus, the study of decontamination techniques, as the organic amendment applications, keeps upgrading. This research evaluates the potential remediation of peat in different As-polluted soils, by assessing the decrease of As solubility and its toxicity through bioassays. Obtained reduction in As solubility by peat addition was strongly related to the increase of humic substances, providing colloids that allow the complexation of As compounds. Calcareous soils have been the least effective at buff
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50

Gogo, T. E. A., H. N. Ukoima, and F. A. Chukunda. "Floristic Abundance and Diversity of Mangrove in Polluted Soil of Ikuru Town, Andoni, Rivers State, Nigeria." INTERNATIONAL JOURNAL OF AGRICULTURE AND EARTH SCIENCE 8, no. 3 (2022): 17–28. http://dx.doi.org/10.56201/ijaes.v8.no3.2022.pg17.28.

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This study investigated into the floristic abundance and diversity of mangrove in polluted soils in Ikuru town, Andoni Local Government Area, Rivers State. The study covered an area of about five hectares (ha) of land. The area was measured using a transect of 100m x 20m in each zone. 10m transects were used in the experimental study. A control was chosen within the mangrove forest at Eagle Island Port Harcourt. Soil samples were randomly collected from subtidal, middle intertidal and lower intertidal zones, and control location using soil augar. Composite soil Samples were carefully placed in
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