Litcius/Paper detail

Plastic Biofilms as Hotspots of Nitrogen Cycling in Estuarine Ecosystems: Comparative Ecological, Genomic, and Transcriptomic Analysis Across Substrates

Xinrong Huang, Leyang Yang, Shu‐Yi‐Dan Zhou, Lei Zhong, Guanghui Xu, Mohan Bi, Xiao‐Ru Yang, Xiaoxuan Su, Matthias C. Rillig

2025Global Change Biology12 citationsDOI

Abstract

ABSTRACT Biofilms represent a ubiquitous microbial lifestyle that facilitates colonization, symbiosis, and nutrient cycling, shaping environmental chemical transformations. In the Anthropocene, the proliferation of artificial surfaces, particularly plastics, has introduced novel and artificial ecological niches for microbial colonization. However, the biogeochemical potential of biofilms on these emerging artificial substrates remains largely unknown. Here, using 15 N tracing, amplicon, metagenome, and metatranscriptomic sequencing, we explore nitrogen (N) potential biogeochemistry across artificial and natural biofilms as well as the bulk seawater. Our results reveal that plastic biofilms exhibit enhanced N transformation potential, including elevated nitrification (2~45‐fold), denitrification (5~44‐fold), and N 2 O production (3~13‐fold) rates, compared to natural biofilms and ambient seawater. This functional shift corresponds to distinct microbial community structures, driven by active N‐cycling taxa and metabolic pathway reconfigurations on plastic surfaces. We also observe that carbohydrate metabolism pathways, such as glycolysis and the pentose phosphate pathway, were highly expressed in plastic biofilms, with transcriptional levels of glk (encoding glucokinase) and PGK (encoding phosphoglycerate kinase) increased by 6‐ and 2‐fold, respectively. Our findings depict the role of plastic biofilms as active participants in estuarine N cycling and underscore the broader implications of plastic pollution on ecosystem biogeochemistry.

Topics & Concepts

BiofilmBiogeochemistryMetagenomicsBiogeochemical cycleNitrogen cycleNutrient cycleBiologyEcologyMicrobial population biologyMicrobial ecologyEcosystemPentose phosphate pathwayMicrobial matEnvironmental chemistryChemistryBacteriaNitrogenBiochemistryGlycolysisMetabolismOrganic chemistryGeneticsCyanobacteriaGeneMicroplastics and Plastic PollutionMicrobial Community Ecology and PhysiologyWastewater Treatment and Nitrogen Removal