Fungal biomass potential: production and bioremediation mechanisms of heavy metals from municipal organic solid waste compost

Nuñez-Rojas, Wilfredo; Sotomayor, Diego A.; Ballardo, Cindy; Herrera, E.

doi:10.17268/sci.agropecu.2023.008

Cited by 4 publications

(2 citation statements)

References 63 publications

(71 reference statements)

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“…Concerning metals that have contaminated soils due to war-like activities, the primary problems are the contents of lead, nickel, copper, and zinc. Due to the many publications on the mycoremediation of toxic metals and metalloids, some excellent reviews [132,135,[172][173][174] are cited.…”

Section: Fungal Biodegradation and Biotransformationmentioning

confidence: 99%

“…Due to all these difficulties, as far as it is known, no publication has been related to the mycoremediation of several thousands of tons of soil containing toxic metals, toxic metalloids, radionuclides, explosives, and herbicides from war zones, military training areas, and shooting ranges. This significant gap occurs even considering the wide application of fungi to degrade or immobilize all cited pollutants in several other environmental contexts [132,135,[172][173][174][224][225][226][227][228][229]. In this sense, Syngh et al [206] developed a work in which seven strains of fungi remediated agricultural soils contaminated with arsenic, and the results were promising.…”

Section: The Mycoremediation Of Soils Impacted By War-like Activitiesmentioning

confidence: 99%

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A Review about the Mycoremediation of Soil Impacted by War-like Activities: Challenges and Gaps

Geris,

Malta,

Soares

et al. 2024

JoF

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(1) Background: The frequency and intensity of war-like activities (war, military training, and shooting ranges) worldwide cause soil pollution by metals, metalloids, explosives, radionuclides, and herbicides. Despite this environmentally worrying scenario, soil decontamination in former war zones almost always involves incineration. Nevertheless, this practice is expensive, and its efficiency is suitable only for organic pollutants. Therefore, treating soils polluted by wars requires efficient and economically viable alternatives. In this sense, this manuscript reviews the status and knowledge gaps of mycoremediation. (2) Methods: The literature review consisted of searches on ScienceDirect and Web of Science for articles (1980 to 2023) on the mycoremediation of soils containing pollutants derived from war-like activities. (3) Results: This review highlighted that mycoremediation has many successful applications for removing all pollutants of war-like activities. However, the mycoremediation of soils in former war zones and those impacted by military training and shooting ranges is still very incipient, with most applications emphasizing explosives. (4) Conclusion: The mycoremediation of soils from conflict zones is an entirely open field of research, and the main challenge is to optimize experimental conditions on a field scale.

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Section: Fungal Biodegradation and Biotransformationmentioning

confidence: 99%

Section: The Mycoremediation Of Soils Impacted By War-like Activitiesmentioning

confidence: 99%

A Review about the Mycoremediation of Soil Impacted by War-like Activities: Challenges and Gaps

Geris,

Malta,

Soares

et al. 2024

JoF

View full text Add to dashboard Cite

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Biological Indicators of Resilience in Mixed and Monoculture Musaceae Production Systems

Reina,

Avila,

Aviles

et al. 2024

RGSA

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Objective: To examine the impact of intraspecific diversity on the biological resilience and biodiversity of Musaceae production systems against pests and diseases in the Ecuadorian tropics, thereby improving the environmental sustainability of these agricultural systems. Theoretical Framework: Key concepts such as biological resilience, intraspecific diversity of Musaceae, and their relationship with soil health and pest and disease control were explored. The importance of mixed production systems versus monocultures in Musaceae agriculture was discussed. Method: An experimental design with completely randomized blocks was adopted in two locations (El Carmen and La Maná), comparing mixed and monoculture production systems. Three repetitions were used to collect data on the presence of arthropods, earthworms, and soil microorganisms, evaluating their diversity and quantity as indicators of biological resilience and environmental quality. Results and Conclusions: Mixed systems demonstrated greater biodiversity, particularly in the presence of Collembola, earthworms, and various beneficial microorganisms, indicating higher resilience and soil health compared to monocultures. Intraspecific diversity in mixed systems significantly contributes to the sustainability and resilience of Musaceae agroecosystems, suggesting a more resilient and ecologically sustainable production model for tropical agriculture. Originality/Value: This study provides empirical evidence on how intraspecific diversity and mixed production systems can enhance resilience and biodiversity in Musaceae crops, offering sustainable alternatives to face contemporary agricultural challenges in the Ecuadorian tropics.

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Indicadores biológicos de resiliencia en sistemas de producción mixtos y monocultivos de Musáceas

Reina,

Avila,

Aviles

et al. 2024

RGSA

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Objetivo: Examinar el impacto de la diversidad intraespecífica en la resiliencia biológica y la biodiversidad de sistemas de producción de Musáceas frente a plagas y enfermedades en el trópico ecuatoriano, mejorando así la sostenibilidad ambiental de estos sistemas agrícolas Referencial teórico: Se exploraron conceptos clave como la resiliencia biológica, la diversidad intraespecífica de las Musáceas, y su relación con la salud del suelo y el control de plagas y enfermedades. Se discutió la importancia de los sistemas de producción mixtos frente a los monocultivos en la agricultura de Musáceas. Metódo: Se adoptó un diseño experimental de bloques completamente al azar en dos localidades (El Carmen y La Maná), comparando sistemas de producción mixtos y de monocultivo. Se utilizaron tres repeticiones para recopilar datos sobre la presencia de artrópodos, lombrices, y microorganismos del suelo, evaluando su diversidad y cantidad como indicadores de resiliencia biológica y calidad Ambiental. Resultados y Discusión: Los sistemas mixtos demostraron una mayor biodiversidad, particularmente en la presencia de Collembola, lombrices y diversos microorganismos beneficiosos, indicando una mayor resiliencia y salud del suelo en comparación con los monocultivos. La diversidad intraespecífica en sistemas mixtos contribuye significativamente a la sostenibilidad y resiliencia de los agroecosistemas de Musáceas, sugiriendo un modelo de producción más resiliente y ecológicamente sostenible para la agricultura tropical. Originalidad/Valor: Este estudio aporta evidencia empírica sobre cómo la diversidad intraespecífica y los sistemas de producción mixtos pueden mejorar la resiliencia y la biodiversidad en cultivos de Musáceas, ofreciendo alternativas sostenibles para enfrentar desafíos agrícolas contemporáneos en el trópico ecuatoriano.

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Fungal biomass potential: production and bioremediation mechanisms of heavy metals from municipal organic solid waste compost

Cited by 4 publications

References 63 publications

A Review about the Mycoremediation of Soil Impacted by War-like Activities: Challenges and Gaps

A Review about the Mycoremediation of Soil Impacted by War-like Activities: Challenges and Gaps

Biological Indicators of Resilience in Mixed and Monoculture Musaceae Production Systems

Indicadores biológicos de resiliencia en sistemas de producción mixtos y monocultivos de Musáceas

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