Advanced bioremediation by an amalgamation of nanotechnology and modern artificial intelligence for efficient restoration of crude petroleum oil-contaminated sites: a prospective study

Patowary, Rupshikha; Devi, Arundhuti; Mukherjee, Ashis K.

doi:10.1007/s11356-023-27698-4

Cited by 18 publications

(4 citation statements)

References 218 publications

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“…Nevertheless, even after a considerable duration since the occurrence of the oil spi there is no conclusive evidence of community recovery. This could possibly be attribute to the extremely high levels of oil products in the soil at the beginning of the experimen Several investigations [39][40][41] highlight that the restoration of oil-contaminated soil usin biopreparations depends on the initial concentration of hydrocarbons. The efficacy of th biopreparation is most pronounced in cases of low initial pollution levels, owing to t inherent toxicity of oil products, especially PAH, as well as the chemically hydrophob nature of crude oil [38,39].…”

Section: Discussionmentioning

confidence: 99%

Soil Microbiome in Conditions of Oil Pollution of Subarctic Ecosystems

Melekhina,

Belykh,

Kanev

et al. 2023

Microorganisms

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The present study aimed to investigate the recovery of soil quality and the bacterial and fungal communities following various recultivation methods in areas contaminated with oil. Oil spills are known to have severe impacts on ecosystems; thus, the restoration of contaminated soils has become a significant challenge nowadays. The study was conducted in the forest–tundra zone of the European North-East, where 39 soil samples from five oil-contaminated sites and reference sites were subjected to metagenomic analyses. The contaminated sites were treated with different biopreparations, and the recovery of soil quality and microbial communities were analyzed. The analysis of bacteria and fungi communities was carried out using 16S rDNA and ITS metabarcoding. It was found that 68% of bacterial OTUs and 64% of fungal OTUs were unique to the reference plot and not registered in any of the recultivated plots. However, the species diversity of recultivated sites was similar, with 50–80% of bacterial OTUs and 44–60% of fungal OTUs being common to all sites. New data obtained through soil metabarcoding confirm our earlier conclusions about the effectiveness of using biopreparations with indigenous oil-oxidizing micro-organisms also with mineral fertilizers, and herbaceous plant seeds for soil remediation. It is possible that the characteristics of microbial communities will be informative in the bioindication of soils reclaimed after oil pollution.

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Section: Discussionmentioning

confidence: 99%

Soil Microbiome in Conditions of Oil Pollution of Subarctic Ecosystems

Melekhina,

Belykh,

Kanev

et al. 2023

Microorganisms

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“…Artificial intelligence involves vast amounts of data and knowledge, including images, sounds, and other categories of problems. Once a large amount of data is acquired, it can be sorted, summarized, and computationally reasoned, and finally the results can be obtained for use by computer systems [7][8]. For a complex problem, it is usually necessary to clearly express all objects, which requires intelligent algorithms to accurately deal with the relationship between things of different types, structures and properties.…”

Section: Intelligent Algorithmmentioning

confidence: 99%

Urban Public Art and Artificial Intelligence: Application of Intelligent Algorithms in Art Creation and Interaction

2024

Proceedings of the First International Conference on Science, Engineering and Technology Practices for Sustainable Development,

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With the continuous advancement of science and technology, intelligent algorithms have been widely used in artistic creation. Compared with traditional computers, artificial intelligence technology has the advantages of higher efficiency, more flexibility, and easier operability. This paper will first provide an overview of intelligent algorithms and analyze the current research status; secondly, the application of neural network method in artistic creation based on fuzzy set theory is explained through examples, and at the same time, a high-tech company is taken as an example to discuss the problems existing in the system design and implementation process; finally, this paper tests the performance of intelligent algorithms in artistic creation and interaction. The test results show that the average data of the intelligent algorithm after 50 rounds of training is between 71 and 76. This paper believes that applying the advantages of artificial intelligence to the creation of artistic works will make the works more humanized, more efficient, easier to operate and more accurate.

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“…The design of SynComs also consider functional traits and potential niche occupancy (Jing et al., 2024 ), ecological coexistence (Chen et al., 2023 ), as well as microbial species interactions within the microbiome and outside the microbiome with organisms in its environment (Leggieri et al., 2021 ), that will benefit hydrocarbon bioremediation treatments. In order to direct the construction of microbial consortia, guide their transfer into the environment and anticipate their effects once released, SynComs draws largely on the recent developments of powerful computational genomic analyses (Jing et al., 2024 ), mathematical models (Tsoi et al., 2018 ), machine learning (Ghannam & Techtmann, 2021 ), and artificial intelligence (Patowary et al., 2023 ). The engineered microbial consortia have not only promising potential for developing technologies to reclaim hydrocarbon‐contaminated ecosystems (Yang et al., 2021 ), but they have also been proposed as tool for microbiome rescue to restore ecological stability in damaged ecosystems (de Lorenzo, 2018 ; Shade, 2023 ).…”

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confidence: 99%

“…Several stratagems and formulations have been proposed to deliver microorganisms and microbial consortia into contaminated sites to ensure their colonization and maintenance overcoming colonization resistance (Das & Chandran, 2011 ), which have been conceptualized as ‘Environmental Galenics’ (de Lorenzo, 2022 ). Most of them involve (bio)surfactants, foams, encapsulation, and immobilization of cells using supports such as biochar or nanoparticles (Mrozik & Piotrowska‐Seget, 2010 ; Patowary et al., 2023 ). Even, engineered horizontal gene transfer has been proposed especially for the treatment of large contaminated areas (de Lorenzo, 2022 ).…”

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confidence: 99%