Identification of a novel hydrolase encoded by hy-1 from Bacillus amyloliquefaciens for bioremediation of carbendazim contaminated soil and food

Liu, Ying; Chi, Miaomiao; Ge, Xizhen

doi:10.25165/j.ijabe.20191202.4190

Cited by 5 publications

(2 citation statements)

References 24 publications

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“…Another enzyme that can biodegrade pesticides is hydrolase HY-1 from B. amyloliquefaciens. Studies were performed in food, and it was demonstrated that this enzyme degraded 41.8% of carbendazim from the cucumber surface during a 6-day study (Li et al 2019).…”

Section: Reviewmentioning

confidence: 99%

The effect of natural and biological pesticides on the degradation of synthetic pesticides

Książek-Trela¹,

Szpyrka²

2022

Plant Prot. Sci.

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Chemical plant protection methods have been used for decades. For some time now, society has paid attention to the hazards to human health resulting from the excessive use of chemical protection products. The presence of plant protection agent residues in crops causes changes in the natural environment, including biodiversity loss and the appearance of organisms harmful to plants, resistant to plant protection agents. To protect the health of humans, animals, and the environment, the principles of integrated plant protection have been introduced, giving priority to biological plant protection methods, for example, the use of biological active substances containing microorganisms (bacteria, yeasts, fungi) and natural substances. Microorganisms, as well as other natural substances, can accelerate the degradation of chemical plant protection products present in the environment and agricultural products. This review paper focuses on the effect of natural and biological pesticides on the degradation of synthetic pesticides. The most important and most perspective in integrated pest management (IPM) systems are Bacillus spp. and Trichoderma spp. because their effectiveness in pesticide degradation and the large number of commercial preparations containing these microorganisms available on the market. The application of biological pesticides recommended in IPM systems could significantly improve the quality of the soil, environment, and human health.

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Section: Reviewmentioning

confidence: 99%

The effect of natural and biological pesticides on the degradation of synthetic pesticides

Książek-Trela¹,

Szpyrka²

2022

Plant Prot. Sci.

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“…In contrast, in the reductive mechanism, under aerobic conditions, hydrogen substitutes the halogen using the organohalides as the terminal electron acceptor (Bhandari et al, 2021). Li et al (2019c) unraveled a novel hydrolase enzyme from Bacillus amyloliquefaciens to degrade soil and food polluted by carbendazim. Equally, Ugochukwu et al (2008) carried out a research and reported that Bacterium aliphaticum, Candida tropicalis, Bacillus megaterium, Pseudomonas maltiphilia, Bacillus cereus, Botryodiphodia thiobroma, Edwardsiella tarda, Fusarium vertiaculloide, Cryptococcus neofomas, Aspergillus niger and Fusiarum oxysporum can bioremediate crude oil pollution due to the production of lipase.…”

Section: Enzymes Used In Renamentioning

confidence: 99%

Remediation by enhanced natural attenuation; an environment-friendly remediation approach

Ayilara,

Adeleke,

Adebajo

et al. 2023

Front. Environ. Sci.

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The uncontrolled use of chemicals, urban wastes, nuclear resources, mining, petrochemicals and disposal of sewage sludge only a few anthropogenic activities that have contributed to the rapid industrialization and severe heavy metal contamination of soils and waterways. Both inorganic and organic pollutants, such as heavy metals, pesticides, petroleum hydrocarbons, and polycyclic aromatic hydrocarbons, can impact the composition and functionality of soils. Soils and plants are affected by pollution, thus, pose a dire threat to food security. This directly renders the soil unuseful for agricultural purposes, destroys the beneficial microbes in the soil, reduces the soil organic matter content, causes the imbalance of soil nutrients, affects plant growth and the interaction between the plants and microbes, subsequently affecting the soil and crop productivity. In addition, environmental pollutants affect human health, leading to different illnesses such as headaches, allergies, coughs, depression, chest pain, nausea, diabetes, liver problems, cancers, eye problems, and so on. Remediation (physical, chemical or biological) is therefore necessary to reduce the impacts of these pollutants in the environment. Bioremediations involve using natural products from plants, microbes, and so on, to detoxify the environment and make it useful or productive again. A key type of remediation is the Remediation by Enhanced Natural Attenuation (RENA) which involves the turning of soil to promote microbial proliferation, aeration, nutrient availability, moisture and consequently, the degradation of pollutants. This review discusses the technology of RENA, the associated microbes, the mechanism of its action, challenges associated with its usage and recommendations to advance the use of RENA for a sustainable environment.

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In situ microbial bioremediation of obsolete pesticides at their disposal sites

Doolotkeldieva,

Konurbaeva,

Bobusheva

2024

Bioremediation Journal

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Identification of a novel hydrolase encoded by hy-1 from Bacillus amyloliquefaciens for bioremediation of carbendazim contaminated soil and food

Cited by 5 publications

References 24 publications

The effect of natural and biological pesticides on the degradation of synthetic pesticides

The effect of natural and biological pesticides on the degradation of synthetic pesticides

Remediation by enhanced natural attenuation; an environment-friendly remediation approach

In situ microbial bioremediation of obsolete pesticides at their disposal sites

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