Culture of Bacterium Bacillus subtilis as Degradation Agent in Attempt of Sea Water Remediation Contaminated By Petroleum

Purnomo, Adi Setyo; Rizqi, Hamdan Dwi; Harmelia, Lia

doi:10.34311/jics.2020.03.1.53

Cited by 10 publications

(9 citation statements)

References 27 publications

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“…The difference in compounds degraded by bacteria was influenced by the enzymes produced by each bacterium. 15 …”

Section: Resultsmentioning

confidence: 99%

The application of biosurfactant-producing bacteria immobilized in PVA/SA/bentonite bio-composite for hydrocarbon-contaminated soil bioremediation

Purnomo,

Putra,

Putro

et al. 2023

RSC Adv.

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“…The difference in compounds degraded by bacteria was influenced by the enzymes produced by each bacterium. 15 …”

Section: Resultsmentioning

confidence: 99%

The application of biosurfactant-producing bacteria immobilized in PVA/SA/bentonite bio-composite for hydrocarbon-contaminated soil bioremediation

Purnomo,

Putra,

Putro

et al. 2023

RSC Adv.

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“…The supernatant was decanted. Then filtrate or bacteria was washed using 5 mL sterile water and mixed by vortex until homogenous [24]. On the other hand, the matrix preparation was handled by dissolved 1 % (w/v) SA into 45 mL water at 100 °C and stirred for 30 mins.…”

Section: Immobilization Of B Subtilismentioning

confidence: 99%

The Addition of Different Adsorbents In SA-PVA Matrix For Bacillus Subtilis Immobilization on Methylene Blue Decolorization

Rohmah

Purnomo

Asranudin

2022

IOP Conf. Ser.: Earth Environ. Sci.

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Wastewater which is not handled by a proper treatment before released in the water body, can cause damage for aquatic biota and its environment. MB is a synthetic textile dye which is toxic and difficult to degrade. Bioremediation by decolorization using microbes such as bacteria is one of the best methods for dye removal. By immobilizing Bacillus subtilis bacterium in an appropriate matrix, it could have more advantage on dye decolorization than by free cell only. The sodium alginate (SA) and polyvinyl alcohol (PVA) are well known as good matrix for decolorization. Besides the addition of B. subtilis in the SA-PVA matrix, the addition of adsorbents could enhance the decolorization. In this study, different adsorbents: bentonite, activated charcoal, kaolin, and corncob powder were investigated for influencing MB decolorization by immobilized B. subtilis in SA-PVA matrix. The result showed that the highest MB decolorization was reached by SA-PVA-B. subtilis with the presence of activated charcoal by approximately 88% of 100 mg/L, followed by the addition of bentonite (82%), kaolin (80%), and corncob powder (79%). The MB decolorization by SA-PVA-Activated charcoal-B. subtilis reached optimum condition at temperature 35 °C, 24 h incubation time in static condition.

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“…The biological method uses the role of microbes (bacteria, fungi and microalgae), and it is environmentally friendly [7]. Bacillus subtilis is a species known to degrade synthetic dye wastewater and adsorb synthetic dyes [8][9][10]. B. subtilis can produce lignin peroxidase (LiP), NADH DCIP reductase and laccase enzymes that can degrade complex aromatic compounds into simpler compounds [11][12].…”

Section: ■ Introductionmentioning

confidence: 99%

Biodecolorization of Methylene Blue by Using <i>Bacillus subtilis</i> Immobilized into SA-PVA-Bentonite Matrix in Mineral Salt Medium and Non-nutritious Medium

Rohmah

Purnomo²,

Safitri³

2022

Indones. J. Chem.

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Industrial dye wastewater can potentially cause significant harm to organisms and the environment across the world. Methylene blue (MB) is a synthetic dye that can be found in wastewater. Immobilizing clay material and degradative bacteria into a carrier is the best way to remove MB. Therefore, this study aimed to immobilize Bacillus subtilis in sodium alginate (SA)-polyvinyl alcohol (PVA)-Bentonite for adsorption and degrading MB in nutritious mineral salt medium (MSM) and non-nutritious media. The result showed that SA-PVA-Bentonite-non-living B. subtilis beads (SPB-nBS) had the highest result in non-nutritious medium, approximately 88.89%. While in nutritious MSM, living B. subtilis addition into beads (SPB-BS) reached the highest MB removal, which was 94.31%. Nutritious MSM had a role as the sole carbon and energy for living B. subtilis. So, it could adsorb and degrade MB by its enzymatic system. The degradation products were predicted as C7H10N2O4S, C8H10N2O2 and C6H8N2O3S. Hence, this study indicated that a nutritious medium was the suitable medium for MB degradation. According to the SEM result, the bacteria spread and covered the beads. Furthermore, the adsorption kinetics and isotherms were also analyzed; SPB beads followed the pseudo-second order kinetic model and Langmuir isotherm.

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Culture of Bacterium Bacillus subtilis as Degradation Agent in Attempt of Sea Water Remediation Contaminated By Petroleum

Cited by 10 publications

References 27 publications

The application of biosurfactant-producing bacteria immobilized in PVA/SA/bentonite bio-composite for hydrocarbon-contaminated soil bioremediation

The application of biosurfactant-producing bacteria immobilized in PVA/SA/bentonite bio-composite for hydrocarbon-contaminated soil bioremediation

The Addition of Different Adsorbents In SA-PVA Matrix For Bacillus Subtilis Immobilization on Methylene Blue Decolorization

Biodecolorization of Methylene Blue by Using <i>Bacillus subtilis</i> Immobilized into SA-PVA-Bentonite Matrix in Mineral Salt Medium and Non-nutritious Medium

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