AUTHOR=Gallardo Karem , Candia Jonathan E. , Remonsellez Francisco , Escudero Lorena V. , Demergasso Cecilia S. 

TITLE=The Ecological Coherence of Temperature and Salinity Tolerance Interaction and Pigmentation in a Non-marine Vibrio Isolated from Salar de Atacama

JOURNAL=Frontiers in Microbiology

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2016.01943

DOI=10.3389/fmicb.2016.01943

ISSN=1664-302X

ABSTRACT=<p>The occurrence of microorganisms from the <italic>Vibrio</italic> genus in saline lakes from northern Chile had been evidenced using Numerical Taxonomy decades before and, more recently, by phylogenetic analyses of environmental samples and isolates. Most of the knowledge about this genus came from marine isolates and showed temperature and salinity to be integral agents in shaping the niche of the <italic>Vibrio</italic> populations. The stress tolerance phenotypes of <italic>Vibrio</italic> sp. Teb5a1 isolated from Salar de Atacama was investigated. It was able to grow without NaCl and tolerated up to 100 g/L of the salt. Furthermore, it grew between 17° and 49°C (optimum 30°C) in the absence of NaCl, and the range was expanded into cold temperature (4–49°C) in the presence of the salt. Other additional adaptive strategies were observed in response to the osmotic stress: pigment production, identified as the known antibacterial prodigiosin, swimming and swarming motility and synthesis of a polar flagellum. It is possible to infer that environmental congruence might explain the cellular phenotypes observed in <italic>Vibrio</italic> sp. considering that coupling between temperature and salinity tolerance, the production of antibacterial agents at higher temperatures, flagellation and motility increase the chance of <italic>Vibrio</italic> sp. to survive in salty environments with high daily temperature swings and UV radiation.</p>