Elevated bacterial abundance and exopolymers in saline frost flowers and implications for atmospheric chemistry and microbial dispersal

Frost flowers (FF) have been studied for their potential influence on ice-surface reflectivity and roles in atmospheric chemistry, but not as microbial habitats. We examined FF grown in a freezer laboratory from a bacteria-containing saline solution and FF formed naturally in the coastal (April) and...

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Bibliographic Details
Main Authors: J.S. Bowman, J.W. Deming
Format: Dataset
Language:unknown
Published: Arctic Data Center 2014
Subjects:
EARTH SCIENCE > BIOSPHERE > AQUATIC ECOSYSTEMS > MARINE HABITAT
EARTH SCIENCE > OCEANS > OCEAN CHEMISTRY > ORGANIC MATTER
EARTH SCIENCE > OCEANS > SEA ICE > ICE TYPES
EARTH REMOTE SENSING INSTRUMENTS > PASSIVE REMOTE SENSING > PHOTON/OPTICAL DETECTORS > CAMERAS > CAMERAS
IN SITU/LABORATORY INSTRUMENTS > PHOTON/OPTICAL DETECTORS > MICROSCOPES
FIELD SURVEY
SHIP
STATION
30 METERS TO 100 METERS
DAILY TO WEEKLY
biota
oceans
Arctic
Arctic Ocean
Sea ice
Alaska
Online Access:https://doi.org/10.18739/A2RS66
Description
Summary:Frost flowers (FF) have been studied for their potential influence on ice-surface reflectivity and roles in atmospheric chemistry, but not as microbial habitats. We examined FF grown in a freezer laboratory from a bacteria-containing saline solution and FF formed naturally in the coastal (April) and central Arctic Ocean (September). All FF contained bacteria (up to 3.46 × 10^6 per ml in natural FF) with densities 3– 6-fold higher than in underlying ice. Bacterial abundance correlated strongly with salinity in FF (p values less than or equal to 0.001), a correlation that held for all components of the surface-ice environment (p < 0.0001, coastal samples). Concentrations of extracellular polysaccharides were also elevated in FF and brine skim relative to underlying ice (up to 74-fold higher). Here we consider implications of finding microbes and exopolymers within the chemically reactive surface-ice environment to the photolytic production of oxidants and long-range transport of potential ice-nucleating particles in the atmosphere. Citation: Bowman, J. S., and J. W. Deming (2010), Elevated bacterial abundance and exopolymers in saline frost flowers and implications for atmospheric chemistry and microbial dispersal, Geophys. Res. Lett., 37, L13501, doi:10.1029/ 2010GL043020.

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