Potential Utilization of Bacterial Consortium of Symbionts Marine Sponges in Removing Polyaromatic Hydrocarbons and Heavy Metals, Review

Marzuki, Ismail; Rosmiati, Rosmiati; Mustafa, Akhmad; Sahabuddin, Sahabuddin; Tarunamulia, Tarunamulia; Susianingsih, Endang; Hendrajat, Erfan Andi; Sahrijanna, Andi; Muslimin, Muslimin; Ratnawati, Erna; Kamariah, Kamariah; Nisaa, Khairun; Herlambang, Susila; Gunawan, Sri; Santi, Idum Satia; Isnawan, Bambang Heri; Kaseng, Ernawati Syahruddin; Septiningsih, Early; Asaf, Ruzkiah; Athirah, Admi; Basri, Basri

doi:10.3390/biology12010086

Cited by 5 publications

(3 citation statements)

References 148 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In addition, the growth of bacterial cells continues even after the decomposition of organic pollutants. This indicates that bacterial cells can still carry out cell division and decomposition of hydrocarbon components for use as an energy source [116]. Furthermore, it is well known that microorganisms and plants reduce and/or remove pollutants from a polluted medium.…”

Section: Recent Knowledge On Biological Remediation Of Soil Water And...mentioning

confidence: 99%

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air—A Review

Ugrina,

Jurić

2023

Processes

View full text Add to dashboard Cite

The protection of all environmental compartments (water, soil, air) is of great interest for the normal functioning of life on Earth. The environment is systematically polluted with different concentrations of physical, biological and chemical pollutants. For the purpose of environmental protection, numerous in situ and ex situ biological, chemical and physical remediation techniques have been developed. Most techniques have limitations, such as high cost, processing time or environmental feasibility. In general, biological techniques have proven to be the most environmentally friendly compared to chemical and physical techniques. Furthermore, remediation is an extremely complex procedure due to the complexity of the pollutant composition. Therefore, the implementation of individual physical, biological or chemical remediation techniques is often not sufficient for adequate remediation of the polluted environment. Accordingly, for more economical and efficient environmental remediation, it is recommended to use a combination of techniques that should meet the requirements of efficiency and treatment duration. Ultimately, this review provides a concise overview of the recent application of physical, biological and chemical remediation techniques to all compartments of the polluted environment. A critical review of existing knowledge on environmental remediation through a search of the relevant literature has helped to assess the basic challenges and limitations that arise in the issue of environmental remediation, as well as providing recommendations and guidelines for future research.

show abstract

Section: Recent Knowledge On Biological Remediation Of Soil Water And...mentioning

confidence: 99%

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air—A Review

Ugrina,

Jurić

2023

Processes

View full text Add to dashboard Cite

show abstract

“…In addition, the growth of bacterial cells continues even after the decomposition of organic pollutants. This indicates that bacterial cells can still carry out cell division and decomposition of hydrocarbon components for use as an energy source [31]. Furthermore, it is well known that microorganisms and plants reduce and/or remove pollutants from a polluted medium.…”

Section: Pollutantmentioning

confidence: 99%

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air - A Short Review

Ugrina,

Jurić

2023

Preprint

View full text Add to dashboard Cite

The protection of all environmental compartments (water, soil, air) is of great interest for the normal functioning of life on Earth. Namely, the environment is systematically polluted with different concentrations of physical, biological and chemical pollutants. For the purpose of environmental protection, numerous in situ and ex situ biological, chemical and physical remediation techniques have been developed. Most techniques have limitations such as high costs, processing time and environmental feasibility. In general, biological techniques have proven to be the most environmentally friendly compared to chemical and physical techniques. Furthermore, remediation is an extremely complex procedure due to the complexity of the pollutant composition. Therefore, the implementation of individual physical, biological or chemical remediation techniques is often not sufficient for adequate remediation of the polluted environment. Accordingly, for more economical and efficient environmental remediation, it is recommended to use a combination of techniques that should meet the requirements of efficiency and treatment duration. Ultimately, this short review presents a concise overview of the recent application of physical, biological and chemical remediation techniques to all compartments of the polluted environment (water, air, soil). A critical review of existing knowledge on environmental remediation through a search of relevant literature helped to assess the basic challenges and limitations that arise in the issue of environmental remediation, as well as providing recommendations and guidelines for future research.

show abstract

“…There are various mechanisms for bioremediation: (i) bioadsorption by sponge-associated bacteria, which are capable of chelating heavy metals as copper, zinc, cadmium, and lead (Satyanarayana et al, 2012;Marzuki et al, 2020;Tanvi et al, 2020;Marzuki et al, 2023); (ii) degradation of plastics by bacteria associated with sponges (free living or associated with sponges) through intracellular and extracellular depolymerase enzymes that help to break down the plastic polymer into shorter and water soluble chains, while these chains enter the microbial cell and are metabolized by the intracellular enzymes (Bano et al, 2017;Fallon and Freeman, 2021;Fu et al, 2023;Krikech et al, 2023); and (iii) bioaccumulation and biodegradation by microalgae associated with sponges to remove pesticides through the production of antioxidant enzymes that activate the detoxification protection mechanisms of microalgae (Chu et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Marine sponges as promising candidates for integrated aquaculture combining biomass increase and bioremediation: an updated review

Amato,

Esposito,

Federico

et al. 2024

Front. Mar. Sci.

View full text Add to dashboard Cite

Sponge farming has been experimentally performed for more than 100 years, with early attempts mainly devoted for the supply of bath sponges and for ornamental purposes. During the last decades, sponge farming has been proposed to produce biomass specifically for those species from which many structurally diverse bioactive compounds were isolated, frequently present in a low concentration that limits their commercial production. This point is very important because it offers an environmental-friendly approach for the use of sponges as a source of natural compounds for pharmacological, cosmeceutical, and nutraceutical industries. In addition, sponges can have an ecological role as filter-feeding animals with a great significance in marine benthic communities. Thanks to their aquiferous system, they can filter large amounts of sea water, retaining up to 80% of suspended particles, resulting in a good system to bioremediate the marine environment from different contaminants. Remarkably, few attempts at integrating aquaculture systems were performed by combining the increase in sponge biomass and their use for bioremediation, showing impressive results and opening new possibilities in the aquaculture sector. This review concerns both in situ and lab-based aquaculture methods for the production of sponge biomass and for the sponge-related bioremediation of the marine environment focusing on microorganisms and contaminants (heavy metals, pesticides, microplastics, and others). Moreover, a first overview about integrated aquaculture combining biomass increase and bioremediation, as a challenging perspective for marine biotechnologies, is included.

show abstract

Potential Utilization of Bacterial Consortium of Symbionts Marine Sponges in Removing Polyaromatic Hydrocarbons and Heavy Metals, Review

Cited by 5 publications

References 148 publications

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air—A Review

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air—A Review

Current Trends and Future Perspectives in the Remediation of Polluted Water, Soil and Air - A Short Review

Marine sponges as promising candidates for integrated aquaculture combining biomass increase and bioremediation: an updated review

Contact Info

Product

Resources

About