Frontiers in Microbiology (Oct 2023)

Dechlorination of wastewater from shell-based glucosamine processing by mangrove wetland-derived fungi

  • Zhiping Han,
  • Edward S. X. Moh,
  • André L. S. Santos,
  • Iuri C. Barcellos,
  • Yuanhuai Peng,
  • Weicong Huang,
  • Jianzhi Ye

DOI
https://doi.org/10.3389/fmicb.2023.1271286
Journal volume & issue
Vol. 14

Abstract

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Wastewater from processing crustacean shell features ultrahigh chloride content. Bioremediation of the wastewater is challenging due to the high chloride ion content, making it inhospitable for most microorganisms to survive and growth. In this study, mangrove wetland-derived fungi were first tested for their salt tolerance, and the highly tolerant isolates were cultured in shrimp processing wastewater and the chloride concentration was monitored. Notably, the filamentous fungal species Aspergillus piperis could remove over 70% of the chloride in the wastewater within 3 days, with the fastest biomass increase (2.01 times heavier) and chloride removal occurring between day one and two. The chloride ions were sequestered into the fungal cells. The genome of this fungal species contained Cl− conversion enzymes, which may have contributed to the ion removal. The fungal strain was found to be of low virulence in larval models and could serve as a starting point for further considerations in bioremediation of shell processing wastewater, promoting the development of green technology in the shell processing industry.

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