Aeration and sawdust application effects as structural material in the bioremediation of clayey acid soils contaminated with diesel oil

Alvim, Gabriela Menta; Pontes, Patrícia Procópio

doi:10.1016/j.iswcr.2018.04.002

Cited by 23 publications

(7 citation statements)

References 27 publications

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“…These phenomena probably occurred in treatments C, CF and CD where respiration was limited. Addition of bulking agent can improve oxygen uptake in clay rich soils (Alvim and Pontes, 2018), as observed in treatment BA.…”

Section: Impact Of Digestate Addition On Microbial Respirationmentioning

confidence: 79%

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Gielnik

Péchaud

Huguenot

et al. 2019

Science of The Total Environment

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Revised version resubmitted to Science of the Total Environment Highlights Digestate application with bulking agent or immobilized bacteria improve TPH removal Digestate effect on soil respiration depends on soil texture Sewage sludge digestate contains high concentrations of alkB genes *Manuscript (double-spaced and continuously LINE and PAGE numbered)-for final publication Click here to view linked References Highlights Digestate application with bulking agent or immobilized bacteria improve TPH removal Digestate effect on soil respiration depends on soil texture Sewage sludge digestate contains high concentrations of alkB genes Application of digestate increases and maintains alkB genes content in the soil Distinct microbial groups developed in amended and non-amended soils *Highlights (for review : 3 to 5 bullet points (maximum 85 characters including spaces per bullet point)

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Section: Impact Of Digestate Addition On Microbial Respirationmentioning

confidence: 79%

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Gielnik

Péchaud

Huguenot

et al. 2019

Science of The Total Environment

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“…The intake of molecular oxygen or the generation of CO 2 can be used to measure microbial activity and aerobic metabolism using respirometry [145]. Furthermore, respirometric studies can be used to examine the possible decomposition in soil of petroleum hydrocarbons, nutritional limits, the heavy metal ability to, toxic chemicals, clayey acidic soil, and the impact of pH on soil microbial activity [146][147][148][149].…”

Section: Monitoring Of Bioremediation Processesmentioning

confidence: 99%

Microbe-mediated bioremediation: Current research and future challenges

Kour¹,

Khan²,

Kour³

et al. 2022

J App Biol biotech

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The rise in environmental pollution over the past few decades due to rapid industrialization and unsafe agricultural practices has become a major challenge. The presence of toxic pollutants such as nuclear wastes, heavy metals, pesticides, and hydrocarbons has been languishing the environment as well as the human health. Bioremediation using microbial communities is emerging as an incredible, eco-friendly, and cost-effective approach to ameliorate the adverse effects of toxic pollutants. Microbes possess astonishing metabolic capabilities to alter most forms of organic material and can survive in extreme environmental conditions which make them attractive candidate for the bioremediation. Microbes are the treasure houses for environmental cleaning and recovering of contaminated soil and they have been reported from diverse environmental conditions including hot, cold, drought, and saline. Different groups of bioremediating microbes have reported from diverse conditions, that is, bacteria, fungi including yeast, and algae. Microbes belonging to genera Alcaligenes, Aspergillus, Bacillus, Flavobacterium, Ganoderma, Methosinus, Nocardia, Phormidium, Pseudomonas, Rhizopus, Rhodococcus, and Stereum have been reported as potential and efficient bioremediators for the degradation of different pollutants of the environment such as xenobiotics, heavy metals, hydrocarbons, and paper and pulp effluent. The present review focuses on microbial diversity in bioremediation, techniques applied in bioremediation, bioremediation of different environmental pollutants, and how bioremediation processes could be monitored.

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“…This has led to the application of various remediation methods in order to achieve environmental sustainability in line with the global Sustainable Development Goals (SDGs) framework. Some future and emerging remediation technologies are in the development stages and current existing methods like physical methods [10], chemical methods [11] [12] [13] and biological processes, where soil microbial activities are enhanced for effective biodegradation of PAHs compounds [14] [15] [16]. Among these methods, bioremediation involving the application of microorganisms either through bioaugmentation, biostimulation, composting and the likes has been proven extremely viable and cost-effective [14] [16] [17].…”

Section: Introductionmentioning

confidence: 99%

Bioremediation of Total Polycyclic Aromatic Hydrocarbon Contaminated Soil Using Nitrified Sawdust and <i>Pseudomonas auriginosa</i>

Etim¹,

Ola²,

Owoade³

2022

JEP

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Aeration and sawdust application effects as structural material in the bioremediation of clayey acid soils contaminated with diesel oil

Cited by 23 publications

References 27 publications

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Microbe-mediated bioremediation: Current research and future challenges

Bioremediation of Total Polycyclic Aromatic Hydrocarbon Contaminated Soil Using Nitrified Sawdust and <i>Pseudomonas auriginosa</i>

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Aeration and sawdust application effects as structural material in the bioremediation of clayey acid soils contaminated with diesel oil

Cited by 23 publications

References 27 publications

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Effect of digestate application on microbial respiration and bacterial communities' diversity during bioremediation of weathered petroleum hydrocarbons contaminated soils

Microbe-mediated bioremediation: Current research and future challenges

Bioremediation of Total Polycyclic Aromatic Hydrocarbon Contaminated Soil Using Nitrified Sawdust and &lt;i&gt;Pseudomonas auriginosa&lt;/i&gt;

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Product

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Bioremediation of Total Polycyclic Aromatic Hydrocarbon Contaminated Soil Using Nitrified Sawdust and <i>Pseudomonas auriginosa</i>