Microbes accumulate heavy metals after adsorption or absorption. This study exhibited that Trametes versicolor can tolerate up to 5 mg/g concentration of cadmium. Change in fungus morphology due to cadmium along with its absorption were analyzed using SEM, XRD, and EDAX. Cadmium absorption usually increased with time, and it was determined quantitatively by a fluorimetry technique using a synthesized imine fluorophore as a specific probe and compared with results obtained from atomic absorption spectroscopy (AAS). The intensity of the cadmium-specific XRD peak gradually increased up to the seventh day, and the absorption by the organisms reduced the concentration of cadmium even from the effluent of the plating industry. After the seventh day, Trametes versicolor absorbed almost 0.300 mg/g concentration of cadmium as visualized under high content screening from the fluorescence appearance of hyphae. Hence it can be concluded that Trametes versicolor may play a key role in reducing cadmium from a contaminated environment.

中文翻译：

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使用食用真菌有效去除镉及其使用（Z）-2-（4 H -1,2,4-三唑-4-基）亚氨基甲基苯酚的荧光定量估算

微生物在吸附或吸收后会积累重金属。这项研究表明云芝Trametes可以耐受高达5 mg / g的镉浓度。使用SEM，XRD和EDAX分析了由于镉引起的真菌形态变化及其吸收。镉吸收通常随时间增加，并且通过荧光法使用合成的亚胺荧光团作为特异性探针进行定量测定，并将其与原子吸收光谱法（AAS）获得的结果进行比较。直到第七天，特定于镉的XRD峰的强度逐渐增加，即使被电镀行业的废水吸收，生物体的吸收也会降低镉的浓度。第七天后，Trametes versicolor在从菌丝的荧光外观进行高含量筛选时可以看到，吸收的镉几乎吸收了0.300 mg / g的浓度。因此，可以得出结论，云芝Trametes可能在减少污染环境中的镉中起关键作用。