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The microbial communities and primary productivity of cryoconite holes in an Arctic glacier (Svalbard 79°N)

Säwström, Christin LU ; Mumford, P ; Marshall, W ; Hodson, A and Laybourn-Parry, J (2002) In Polar Biology 25(8). p.591-595
Abstract
The microbial communities and photosynthetic capacity of cryoconite holes on the Midre Lovénbreen Glacier at 79°N in Spitzbergen (Svalbard Archipelago) were investigated in July/August 2000 and July 2001. The constituents of the microbial assemblages were more abundant in material on the cryoconite bottoms than in the overlying water. Bacterial concentrations ranged from 1.00 to 4.502104 ml-1 in the water and from 4.67 to 7.072104 ml-1 in the bottom material; virus-like particles (VLP) ranged from 3.97 to 12.702104 ml-1 in the water and from 27.5 to 37.592104 ml-1 on the bottom. VLP: bacteria ratios ranged between 0.24 and 8.11, with highest ratios in the bottom assemblages. Heterotrophic nanoflagellate (HNAN) abundances were significantly... (More)
The microbial communities and photosynthetic capacity of cryoconite holes on the Midre Lovénbreen Glacier at 79°N in Spitzbergen (Svalbard Archipelago) were investigated in July/August 2000 and July 2001. The constituents of the microbial assemblages were more abundant in material on the cryoconite bottoms than in the overlying water. Bacterial concentrations ranged from 1.00 to 4.502104 ml-1 in the water and from 4.67 to 7.072104 ml-1 in the bottom material; virus-like particles (VLP) ranged from 3.97 to 12.702104 ml-1 in the water and from 27.5 to 37.592104 ml-1 on the bottom. VLP: bacteria ratios ranged between 0.24 and 8.11, with highest ratios in the bottom assemblages. Heterotrophic nanoflagellate (HNAN) abundances were significantly lower than those of the autotrophic nanoflagellates (PNAN). Moreover, HNAN biomass was lower than bacterial biomass, indicating that the HNAN were exploiting other energy sources as well as bacteria, for example, VLP and dissolved organic carbon. The bottom material was dominated by cyanobacteria (mostly Phormidium sp.), while both the water and the bottom layer contained a small number of chlorophyte species (Chlorella sp., Cylindromonas sp. and Chlamydomonas nivalis). Ciliates were very sparse, only occurring on the bottom. On occasions, the glacier surface carried meltwater with well-developed biofilms, in which ciliates (Monodinium, Strombidium and Halteria) occurred. All of these species are found in nearby lakes. One to three rotifers were noted in the biofilm samples and in samples from three of the cryoconite holes. The assemblages of the cryoconite holes were comparable to the truncated food webs seen in Antarctic lakes, but were even more simplified and sparse in terms of biomass. Photosynthesis in the meltwater on the glacier surface ranged between 0.60 and 8.33 µg C l-1 h-1. Within the cryoconites, photosynthetic rates were usually highest on the bottom (0.63-156.99 µg C l-1 h-1), while in the overlying water, rates ranged between 0.34 and 10.56 µg C l-1 h-1. Given the density of cryoconite holes (circa 6% of the glacier surface, or 12 holes m-2), there was significant carbon fixation and nutrient cycling occurring on the glacier, associated with cryoconite communities. (Less)
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organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Polar Biology
volume
25
issue
8
pages
591 - 595
publisher
Springer
external identifiers
  • scopus:0036941997
ISSN
1432-2056
DOI
10.1007/s00300-002-0388-5
language
English
LU publication?
yes
additional info
The information about affiliations in this record was updated in December 2015. The record was previously connected to the following departments: Limnology (Closed 2011) (011007000)
id
e0735596-58da-40be-8411-167f5acf0fcf (old id 149919)
date added to LUP
2016-04-01 11:48:07
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2022-02-25 21:35:19
@article{e0735596-58da-40be-8411-167f5acf0fcf,
  abstract     = {{The microbial communities and photosynthetic capacity of cryoconite holes on the Midre Lovénbreen Glacier at 79°N in Spitzbergen (Svalbard Archipelago) were investigated in July/August 2000 and July 2001. The constituents of the microbial assemblages were more abundant in material on the cryoconite bottoms than in the overlying water. Bacterial concentrations ranged from 1.00 to 4.502104 ml-1 in the water and from 4.67 to 7.072104 ml-1 in the bottom material; virus-like particles (VLP) ranged from 3.97 to 12.702104 ml-1 in the water and from 27.5 to 37.592104 ml-1 on the bottom. VLP: bacteria ratios ranged between 0.24 and 8.11, with highest ratios in the bottom assemblages. Heterotrophic nanoflagellate (HNAN) abundances were significantly lower than those of the autotrophic nanoflagellates (PNAN). Moreover, HNAN biomass was lower than bacterial biomass, indicating that the HNAN were exploiting other energy sources as well as bacteria, for example, VLP and dissolved organic carbon. The bottom material was dominated by cyanobacteria (mostly Phormidium sp.), while both the water and the bottom layer contained a small number of chlorophyte species (Chlorella sp., Cylindromonas sp. and Chlamydomonas nivalis). Ciliates were very sparse, only occurring on the bottom. On occasions, the glacier surface carried meltwater with well-developed biofilms, in which ciliates (Monodinium, Strombidium and Halteria) occurred. All of these species are found in nearby lakes. One to three rotifers were noted in the biofilm samples and in samples from three of the cryoconite holes. The assemblages of the cryoconite holes were comparable to the truncated food webs seen in Antarctic lakes, but were even more simplified and sparse in terms of biomass. Photosynthesis in the meltwater on the glacier surface ranged between 0.60 and 8.33 µg C l-1 h-1. Within the cryoconites, photosynthetic rates were usually highest on the bottom (0.63-156.99 µg C l-1 h-1), while in the overlying water, rates ranged between 0.34 and 10.56 µg C l-1 h-1. Given the density of cryoconite holes (circa 6% of the glacier surface, or 12 holes m-2), there was significant carbon fixation and nutrient cycling occurring on the glacier, associated with cryoconite communities.}},
  author       = {{Säwström, Christin and Mumford, P and Marshall, W and Hodson, A and Laybourn-Parry, J}},
  issn         = {{1432-2056}},
  language     = {{eng}},
  number       = {{8}},
  pages        = {{591--595}},
  publisher    = {{Springer}},
  series       = {{Polar Biology}},
  title        = {{The microbial communities and primary productivity of cryoconite holes in an Arctic glacier (Svalbard 79°N)}},
  url          = {{http://dx.doi.org/10.1007/s00300-002-0388-5}},
  doi          = {{10.1007/s00300-002-0388-5}},
  volume       = {{25}},
  year         = {{2002}},
}