Heterotrophic bacteria were enumerated in north polar sea ice cores obtained near Point Barrow, Alaska. Highest concentrations of total and viable bacteria were found in the layer containing the sea ice microbial community identified by the maximum chlorophyll a content. Gas vacuolate bacteria were also found in the sea ice, a discovery which is consistent with their recent report from antarctic sea ice microbial communities. The gas vacuolate bacteria comprised 0.2% or less of the viable bacteria isolated from sea ice cores, lower than concentrations reported for most antarctic samples. Most gas vacuolate isolates from the sea ice cores were pigmented pink, orange, or yellow. An ice core from nearby saline Elson Lagoon contained an inverted sea ice microbial community with highest chlorophyll a concentrations and bacterial counts found in the top 0–20 cm of the ice. This surface layer also contained high numbers (up to 186 bacteria/ml) of a nonpigmented, gas vacuolate, elongated rod-shaped bacterium.
[1]
J. T. Staley,et al.
Impact of Mount St. Helens Eruption on Bacteriology of Lakes in the Blast Zone
,
1982,
Applied and environmental microbiology.
[2]
A. Walsby.
Structure and function of gas vacuoles
,
1972,
Bacteriological reviews.
[3]
Timothy R. Parsons,et al.
A manual of chemical and biological methods for seawater analysis
,
1984
.
[4]
Stephen F. Ackley,et al.
The Growth, Structure, and Properties of Sea Ice
,
1982
.
[5]
James T. Staley,et al.
Gas Vacuolate Bacteria from the Sea Ice of Antarctica
,
1989,
Applied and environmental microbiology.
[6]
A. Palmisano,et al.
Sea Ice Microbial Communities: Distribution, Abundance, and Diversity of Ice Bacteria in McMurdo Sound, Antarctica, in 1980
,
1984,
Applied and environmental microbiology.