Enhanced degradation capability of white-rot fungi after short-term pre-exposure to silver ion: Performance and selectively antimicrobial mechanisms

Azo dyes in wastewater have great threats to environment and human health. White-rot fungi (WRF) have broad-spectrum potential for such refractory organics bioremediation; however, their applications are largely restrained by the poor viability owning to microbial invasion under non-sterile conditions. In this study, short-term pre-exposure to silver ion (Ag+) was demonstrated to be a practical, economic, and green method to enhance the perdurability of azo dyes decoloration by WRF Phanerochaete chrysosporium under non-sterile conditions. In control (without Ag+ pre-exposure), decoloration deactivated since cycle 7 (< 10%), whereas in Ag+ pre-exposure groups, the decoloration ratios remained 91.5%-94.7% after 7 cycles. Variations in decoloration-related extracellular lignin enzyme activities were consistent with the decoloration effectiveness. The enhanced decoloration capability in Ag+ pre-exposure groups under non-sterile conditions could be ascribed to the selectively antimicrobial action by Ag+. The released Ag+ from the self-assembled silver nanoparticles (AgNPs) could selectively stimulate the proliferation and viability of P. chrysosporium, and simultaneously inhibit the growths of invasive microorganisms. The pyrosequencing results indicated that genus Sphingomonas (24.1%-31.3%) was the main invasive bacteria in Ag+ pre-exposure groups after long-term operation owing to the AgNPs passivation. As control, the invasive fungi (Asterotremella humicola) and bacteria (Burkholderia spp.) occurred in control after short-term operation, and genus Burkholderia (74.9%) dominated after long-term operation, leading to decoloration deactivation. Overall, these findings offer a new insight into the bio-nano interactions between WRF and invasive microorganisms in response to Ag+ or biogenic AgNPs, and could extend WRF application perspective under non-sterile conditions in future.(C) 2021 Elsevier B.V. All rights reserved.

Automated summary

Short-term pre-exposure to silver ion (Ag+) was shown to enhance the decoloration efficiency of azo dyes by white-rot fungi under non-sterile conditions. This enhancement was attributed to the selective antimicrobial action of Ag+, which stimulated the growth and viability of the fungi while inhibiting the growth of invasive microorganisms. The findings provide new insights into the bio-nano interactions between white-rot fungi and invasive microorganisms in the presence of Ag+ and biogenic silver nanoparticles (AgNPs).