Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard
Glaciers are known to harbor surprisingly complex ecosystems. On their surface, distinct cylindrical holes filled with meltwater and sediments are considered hot spots for microbial life. The present paper addresses possible biological interactions within the community of prokaryotic cyanobacteria a...
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Copernicus Publications
2016-02-01
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| Series: | Biogeosciences |
| Online Access: | http://www.biogeosciences.net/13/659/2016/bg-13-659-2016.pdf |
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doaj-ef9b47a221fb41b8936011b37b7ec6dd2020-11-24T23:04:27ZengCopernicus PublicationsBiogeosciences1726-41701726-41892016-02-0113365967410.5194/bg-13-659-2016Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, SvalbardT. R. Vonnahme0M. Devetter1J. D. Žárský2M. Šabacká3J. Elster4Centre for Polar Ecology, Faculty of Science, University of South Bohemia, České Budějovice, Czech RepublicCentre for Polar Ecology, Faculty of Science, University of South Bohemia, České Budějovice, Czech RepublicCentre for Polar Ecology, Faculty of Science, University of South Bohemia, České Budějovice, Czech RepublicCentre for Polar Ecology, Faculty of Science, University of South Bohemia, České Budějovice, Czech RepublicCentre for Polar Ecology, Faculty of Science, University of South Bohemia, České Budějovice, Czech RepublicGlaciers are known to harbor surprisingly complex ecosystems. On their surface, distinct cylindrical holes filled with meltwater and sediments are considered hot spots for microbial life. The present paper addresses possible biological interactions within the community of prokaryotic cyanobacteria and eukaryotic microalgae (microalgae) and relations to their potential grazers, such as tardigrades and rotifers, additional to their environmental controls. Svalbard glaciers with substantial allochthonous input of material from local sources reveal high microalgal densities. Small valley glaciers with high sediment coverages and high impact of birds show high biomasses and support a high biological diversity. Invertebrate grazer densities do not show any significant negative correlation with microalgal abundances but rather a positive correlation with eukaryotic microalgae. Shared environmental preferences and a positive effect of grazing are the proposed mechanisms to explain these correlations. Most microalgae found in this study form colonies (< 10 cells, or > 25 µm), which may protect them against invertebrate grazing. This finding rather indicates grazing as a positive control on eukaryotic microalgae by nutrient recycling. Density differences between the eukaryotic microalgae and prokaryotic cyanobacteria and their high distinction in redundancy (RDA) and principal component (PCA) analyses indicate that these two groups are in strong contrast. Eukaryotic microalgae occurred mainly in unstable cryoconite holes with high sediment loads, high N : P ratios, and a high impact of nutrient input by bird guano, as a proxy for nutrients. In these environments autochthonous nitrogen fixation appears to be negligible. Selective wind transport of Oscillatoriales via soil and dust particles is proposed to explain their dominance in cryoconites further away from the glacier margins. We propose that, for the studied glaciers, nutrient levels related to recycling of limiting nutrients are the main factor driving variation in the community structure of microalgae and grazers.http://www.biogeosciences.net/13/659/2016/bg-13-659-2016.pdf |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
T. R. Vonnahme M. Devetter J. D. Žárský M. Šabacká J. Elster |
| spellingShingle |
T. R. Vonnahme M. Devetter J. D. Žárský M. Šabacká J. Elster Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard Biogeosciences |
| author_facet |
T. R. Vonnahme M. Devetter J. D. Žárský M. Šabacká J. Elster |
| author_sort |
T. R. Vonnahme |
| title |
Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard |
| title_short |
Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard |
| title_full |
Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard |
| title_fullStr |
Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard |
| title_full_unstemmed |
Controls on microalgal community structures in cryoconite holes upon high-Arctic glaciers, Svalbard |
| title_sort |
controls on microalgal community structures in cryoconite holes upon high-arctic glaciers, svalbard |
| publisher |
Copernicus Publications |
| series |
Biogeosciences |
| issn |
1726-4170 1726-4189 |
| publishDate |
2016-02-01 |
| description |
Glaciers are known to harbor surprisingly complex ecosystems. On their
surface, distinct cylindrical holes filled with meltwater and sediments are
considered hot spots for microbial life. The present paper addresses
possible biological interactions within the community of prokaryotic
cyanobacteria and eukaryotic microalgae (microalgae) and relations to their
potential grazers, such as tardigrades and rotifers, additional to their
environmental controls. Svalbard glaciers with substantial allochthonous
input of material from local sources reveal high microalgal densities. Small
valley glaciers with high sediment coverages and high impact of birds show
high biomasses and support a high biological diversity. Invertebrate grazer
densities do not show any significant negative correlation with microalgal
abundances but rather a positive correlation with eukaryotic microalgae. Shared
environmental preferences and a positive effect of grazing are the proposed
mechanisms to explain these correlations. Most microalgae found in this study
form colonies (< 10 cells, or > 25 µm), which
may protect them against invertebrate grazing. This finding rather indicates
grazing as a positive control on eukaryotic microalgae by nutrient recycling.
Density differences between the eukaryotic microalgae and prokaryotic
cyanobacteria and their high distinction in redundancy (RDA) and principal component (PCA) analyses indicate
that these two groups are in strong contrast. Eukaryotic microalgae occurred
mainly in unstable cryoconite holes with high sediment loads, high N : P
ratios, and a high impact of nutrient input by bird guano, as a proxy for
nutrients. In these environments autochthonous nitrogen fixation appears to
be negligible. Selective wind transport of Oscillatoriales via soil and dust
particles is proposed to explain their dominance in cryoconites further away
from the glacier margins. We propose that, for the studied glaciers, nutrient
levels related to recycling of limiting nutrients are the main factor driving
variation in the community structure of microalgae and grazers. |
| url |
http://www.biogeosciences.net/13/659/2016/bg-13-659-2016.pdf |
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