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Mycorrhizosphere bacteria inhibit greenhouse gas emissions from microplastics contaminated soil by regulating soil enzyme activities and microbial community structure.
Khan, Zeeshan; Shah, Tariq; Haider, Ghulam; Adnan, Fazal; Sheikh, Zeshan; El-Sheikh, Mohamed A; Bhatti, Muhammad Faraz; Ahmad, Parvaiz.
Afiliación
  • Khan Z; Atta-ur-Rahman School of Applied Biosciences, National University of Sciences and Technology, Islamabad, 44000, Pakistan.
  • Shah T; Plant Science Research Unit United States Department for Agriculture -Agricultural Research Service, Raleigh, NC, USA.
  • Haider G; Atta-ur-Rahman School of Applied Biosciences, National University of Sciences and Technology, Islamabad, 44000, Pakistan.
  • Adnan F; Atta-ur-Rahman School of Applied Biosciences, National University of Sciences and Technology, Islamabad, 44000, Pakistan.
  • Sheikh Z; Institute of Environmental Sciences and Engineering (IESE), School of Civil and Environmental Engineering (SCEE), National University of Science and Technology (NUST), Islamabad 44000, Pakistan.
  • El-Sheikh MA; Botany and Microbiology Department, College of Science, King Saud University, Riyadh, Saudi Arabia.
  • Bhatti MF; Atta-ur-Rahman School of Applied Biosciences, National University of Sciences and Technology, Islamabad, 44000, Pakistan. Electronic address: mfbhatti@asab.nust.edu.pk.
  • Ahmad P; Department of Botany, GDC Pulwama-192301, Jammu and Kashmir, India.
J Environ Manage ; 356: 120673, 2024 Apr.
Article en En | MEDLINE | ID: mdl-38508003
ABSTRACT
Microplastics (MPs) accumulation in terrestrial ecosystems can affect greenhouse gases (GHGs) production by altering microbial and soil structure. Presently, research on the MPs effect on plants is not consistent, and underlying molecular mechanisms associated with GHGs are yet unknown. For the first time, we conducted a microcosm study to explore the impact of MPs addition (Raw vs. aged) and Trichoderma longibrachiatum and Bacillus subtilis inoculation (Sole vs. combination) on GHGs emission, soil community structure, physiochemical properties, and enzyme activities. Our results indicated that the addition of aged MPs considerably enhanced the GHGs emissions (N2O (+16%) and CO2 (+21%), respectively), C and N cycling gene expression, microbial biomass carbon, and soil physiochemical properties than raw MPs. However, the soil microbial community structure and enzyme activities were enhanced in raw MPs added treatments, irrespective of the MPs type added to soil. However, microbial inoculation significantly reduced GHGs emission by altering the expression of C and N cycling genes in both types of MPs added treatments. The soil microbial community structure, enzymes activities, physiochemical properties and microbial biomass carbon were enhanced in the presence of microbial inoculation in both type of MPs. Among sole and combined inoculation of Trichoderma and Bacillus subtilis, the co-applied Trichoderma and Bacillus subtilis considerably reduced the GHGs emission (N2O (-64%) and CO2 (-61%), respectively) by altering the expression of C and N cycling genes regardless of MPs type used. The combined inoculation also enhanced soil enzyme activities, microbial community structure, physiochemical properties and microbial biomass carbon in both types of MPs treatment. Our findings provide evidence that polyethylene MPs likely pose a high risk of GHGs emission while combined application of Trichoderma and Bacillus subtilis significantly reduced GHGs emission by altering C and N cycling gene expression, soil microbial community structure, and enzyme activities under MPs pollution in a terrestrial ecosystem.
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Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Gases de Efecto Invernadero / Microbiota Idioma: En Revista: J Environ Manage Año: 2024 Tipo del documento: Article País de afiliación: Pakistán

Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Gases de Efecto Invernadero / Microbiota Idioma: En Revista: J Environ Manage Año: 2024 Tipo del documento: Article País de afiliación: Pakistán