Litcius/Paper detail

Divergent responses in microbial metabolic limitations and carbon use efficiency to variably sized polystyrene microplastics in soil

Guanlin Li, Yi Tang, Yowhan Son, Xiaoxun Zhao, Xiaoxun Zhao, Babar Iqbal, Kiran Yasmin Khan, Ruoyu Guo, Weiqing Yin, Xin Zhao, Xin Zhao, Daolin Du

2024Land Degradation and Development25 citationsDOIOpen Access PDF

Abstract

Abstract Microplastics, considered emerging contaminants, have been accumulating excessively within soil ecosystems, conferring potentially detrimental effects with respect to soil carbon turnover and pools. As a major participant in soil carbon processes, microplastics affecting microorganisms may be one of the main agents affecting soil carbon dynamics. However, the microbial metabolism processes through which microplastics affect soil carbon dynamics remain unclear. Therefore, this study aimed to assess the impact of variously sized (1300, 800, 100, and 0.1 μm) polystyrene microplastics on soil microbial metabolism. Soil microplastics of all sizes invariably and consistently affected microbial metabolism, though nanomicroplastics (0.1 μm) stressed soil microorganisms more than micron‐microplastics. Furthermore, microplastics inhibited both microbial carbon use efficiency (CUE) and respiration, the exception being the CUE in the 1300 μm microplastics treatment. As microplastic particle size decreased, the suppressive influence of microplastics on microbial respiration was gradually lost, the inhibitory effect on microbial CUE increased steadily, and the impact on microorganisms shifted from extracellular to intracellular, with intracellular microplastics exhibiting higher toxicity than extracellular microplastics. We used stoichiometric models to provide precise projections of microbial metabolism features associated with microplastic contamination, thereby enhancing the understanding of the effects of microplastic contamination on the carbon cycle and soil ecosystem.

Topics & Concepts

MicroplasticsMicroorganismMicrobial population biologyEnvironmental chemistryEcosystemCarbon cycleSoil carbonEnvironmental scienceSoil biologySoil waterEcologyChemistryBiologyBacteriaGeneticsMicroplastics and Plastic Pollutionbiodegradable polymer synthesis and propertiesGraphene and Nanomaterials Applications