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Cultivable bacteria in the supraglacial lake formed after a glacial lake outburst flood in northern Pakistan.

Nikhat IlahiA Allan DegenAli BahadurAbdul HaqWenyin WangShichang KangWasim SajjadZhanhuan Shang
Published in: International microbiology : the official journal of the Spanish Society for Microbiology (2022)
Recently, a supraglacial lake formed as a result of a glacial lake outburst flood (GLOF) in the Dook Pal Glacier. Lake debris and meltwater samples were collected from the supraglacial lake to determine bacterial diversity. Geochemical analyses of samples showed free amino acids (FAAs), anions, cations, and heavy metals. Comparable viable bacterial counts were observed in meltwater and debris samples. Using R 2 A media, a total of 52 bacterial isolates were identified: 40 from debris and 12 from meltwater. The relative abundance of Gram-positive (80.8%) bacteria was greater than Gram-negative (19.2%). Molecular identification of these isolates revealed that meltwater was dominated by Firmicutes (41.6%) and Proteobacteria (41.6%), while lake debris was dominated by Firmicutes (65.0%). The isolates belonged to 14 genera with the greatest relative abundance in Bacillus. Tolerance level of isolates to salts was high. Most of the Gram-positive bacteria were eurypsychrophiles, while most of the Gram-negative bacteria were stenopsychrophiles. Gram-negative bacteria displayed a higher minimum inhibitory concentration of selected heavy metals and antibiotics than Gram-positive. This first-ever study of culturable bacteria from a freshly formed supraglacial lake improves our understanding of the bacterial diversity and antibiotic resistance released from the glaciers as a result of GLOF.
Keyphrases
  • gram negative
  • heavy metals
  • water quality
  • multidrug resistant
  • risk assessment
  • genetic diversity
  • ionic liquid
  • health risk
  • amino acid
  • microbial community
  • peripheral blood
  • sewage sludge
  • single molecule