Isolation and characterization of two malathion-degrading Pseudomonas sp. in Egypt

Saafan, Amal E.; Azmy, Ahmed F.; Amin, Magdy A.; Ahmed, Shabaan H.; Essam, Tamer

doi:10.5897/ajb2016.15273

Cited by 4 publications

(1 citation statement)

References 36 publications

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“…High degradation potential has also been observed in the case of Pseudomonas genus bacteria, due to their rapid adaptation in a pesticidecontaminated environment. In addition, these bacteria secrete enzymes involved in the conversion of these chemical compounds, i.e., oxidoreductases, dioxins, cytochrome P450, carboxylases, and phosphotriesterases [26]. Mollea et al [27] have claimed that fungi function better in a polluted environment than bacteria.…”

Section: Introductionmentioning

confidence: 99%

Bacteria, Fungi, and Enzymes in Soil Treated with Sulcotrione and Terbuthylazine

Baćmaga,

Wyszkowska,

Borowik

et al. 2023

IJMS

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Soil’s biological equilibrium, disturbed by the uncontrolled penetration of pesticides, can be restored by the activity of native microorganisms, which show abilities in neutralizing these xenobiotics. Therefore, this research is necessary in the search for new microorganisms used in the process of the bioremediation of contaminated soils. The aim of this study was to evaluate the effects of the herbicides, Sulcogan 300 SC, Tezosar 500 SC, and Sulcotrek 500 SC, applied to soil at the manufacturers’ recommended dosage as well as 10-fold higher, on the abundance of microorganisms, the diversity and structure of bacterial and fungal communities, the activity of soil enzymes, and the growth and development of Zea mays L. It was found that herbicides in contaminating amounts stimulated the proliferation of organotrophic bacteria and inhibited the growth of fungi. Organotrophic bacteria and actinobacteria were represented by K-strategies and fungi by r-strategies. Bacteria belonging to the phylum, Actinobacteriota, represented by the genus, Cellulosimicrobium, were most abundant in the soil, while among the fungi, it was the phylum, Ascomycota, represented by the genus, Humicola and Chaetomium. The herbicides decreased urease activity while increasing arylsulfatase and acid phosphatase activity. They had a positive effect on the growth and development of Zea mays L., as evidenced by an increase in the values of the plant tolerance index (TI) and the maize leaf greenness index (SPAD). The results indicate that soil microorganisms and enzymes are suitable indicators reflecting the quality of herbicide-treated soil.

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Section: Introductionmentioning

confidence: 99%

Bacteria, Fungi, and Enzymes in Soil Treated with Sulcotrione and Terbuthylazine

Baćmaga,

Wyszkowska,

Borowik

et al. 2023

IJMS

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A comprehensive review on enzymatic degradation of the organophosphate pesticide malathion in the environment

Kumar

Ghosh

Malyan

et al. 2019

Journal of Environmental Science and Health, Part C

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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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Isolation and characterization of two malathion-degrading Pseudomonas sp. in Egypt

Cited by 4 publications

References 36 publications

Bacteria, Fungi, and Enzymes in Soil Treated with Sulcotrione and Terbuthylazine

Bacteria, Fungi, and Enzymes in Soil Treated with Sulcotrione and Terbuthylazine

A comprehensive review on enzymatic degradation of the organophosphate pesticide malathion in the environment

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

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