Abstract
Globally, textile industries are one of the major sectors releasing dye pollutants. This is the first report on the positive correlation between toxicity and chemical oxygen demand (COD) of textile effluent along with the proposed pathway for enzymatic degradation of acid orange 10 using Geotrichum candidum within a very short stretch of time (18 h). Removal efficiency of this mycoremedial approach after 18 h in terms of chemical oxygen demand, biological oxygen demand, total suspended solids, salinity, color and dye concentration in the treated effluent reached to 98.5%, 56.3%,73.2%, 64%, 89% and 87% respectively. Also there was a decrease in pH of the treated effluent. FTIR analysis of the treated effluent confirmed biodegradation. The LCMS analysis showed the degradation of acid orange 10, which was confirmed by the formation of two biodegradation products, 7-oxo-8-iminonapthalene-1,3-disulfonate and nitrosobenzene, which subsequently undergoes stepwise hydrogenation and dehydration to form aniline via phenyl hydroxyl amine as intermediate. The X-ray diffraction studies showed that heavy metal content in the treated effluent has reduced along with decrease in % crystallinity, indicating biodegradation. The connection between toxicity and COD was also inveterated using Pearson’s correlation coefficient. Further the toxicological studies indicated the toxicity of raw textile effluent and relatively lower toxic nature of metabolites generated after biodegradation by G. candidum.
Highlights
Textile industries are one of the major sectors releasing dye pollutants
It was evident that the raw textile effluent was high in chemical oxygen demand (COD), Biological Oxygen Demand (BOD), Total Suspended Solids (TSS) and salinity[38], which was way much higher than the permitted levels (COD- less than 250 mg L−1, BOD- less than 30 mg L−1, TSS- less than 100 mg L −1 in India)
Studies show that common components of dye effluents such as some acid dyes and ionic dyes could escape into the environment leading to elevating levels of COD, BOD, TSS, salinity and coloration of water b odies[39]
Summary
Textile industries are one of the major sectors releasing dye pollutants This is the first report on the positive correlation between toxicity and chemical oxygen demand (COD) of textile effluent along with the proposed pathway for enzymatic degradation of acid orange 10 using Geotrichum candidum within a very short stretch of time (18 h). In addition to dyes and its auxiliaries over 8000 chemicals are added such as several acids, salts, surfactants, metals, oxidizing and reducing agents[8] These recalcitrants in untreated effluents are both harmful to marine and terrestrial organisms and have prolonged effects on health[9]. Fungal degradation (Mycoremediation) leads to complete discoloration and detoxification, which prevents sludge removal and secondary contamination issues
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