Fungal biomineralization of toxic metals accelerates organic pollutant removal

生物矿化 生物 污染物 环境化学 重金属 化学 生态学 天体生物学
作者
Qianwei Li,Miao Zhang,Biao Wei,Wei Lan,Qinghong Wang,Chunmao Chen,Huazhang Zhao,Daoqing Liu,Geoffrey Michael Gadd
出处
期刊:Current Biology [Elsevier BV]
卷期号:34 (10): 2077-2084.e3 被引量:12
标识
DOI:10.1016/j.cub.2024.04.005
摘要

Fungal biomineralization plays an important role in the biogeochemical cycling of metals in the environment and has been extensively explored for bioremediation and element biorecovery. However, the cellular and metabolic responses of fungi in the presence of toxic metals during biomineralization and their impact on organic matter transformations are unclear. This is an important question because co-contamination by toxic metals and organic pollutants is a common phenomenon in the natural environment. In this research, the biomineralization process and oxidative stress response of the geoactive soil fungus Aspergillus niger were investigated in the presence of toxic metals (Co, Cu, Mn, and Fe) and the azo dye orange II (AO II). We have found that the co-existence of toxic metals and AO II not only enhanced the fungal biomineralization of toxic metals but also accelerated the removal of AO II. We hypothesize that the fungus and in situ mycogenic biominerals (toxic metal oxalates) constituted a quasi-bioreactor, where the biominerals removed organic pollutants by catalyzing reactive oxygen species (ROS) generation resulting from oxidative stress. We have therefore demonstrated that a fungal/biomineral system can successfully achieve the goal of toxic metal immobilization and organic pollutant decomposition. Such findings inform the potential development of fungal-biomineral hybrid systems for mixed pollutant bioremediation as well as provide further understanding of fungal organic-inorganic pollutant transformations in the environment and their importance in biogeochemical cycles.
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