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Area, depth and elevation of cryoconite holes in the Arctic do not influence Tardigrada densities

Zawierucha, Krzysztof ; Vonnahme, Tobias R. ; Devetter, Miloslav ; [et al.]

Walter de Gruyter GmbH ; 2016

In: Polish Polar Research Vol. 37, No. 2 ( 2016-06-1), p. 325-334

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In: Polish Polar Research, Walter de Gruyter GmbH, Vol. 37, No. 2 ( 2016-06-1), p. 325-334

Abstract: Water bears (Tardigrada) are known as one of the most extremophile animals in the world. They inhabit environments from the deepest parts of the oceans up to the highest mountains. One of the most extreme and still poorly studied habitats which tardigrades inhabit are cryoconite holes. We analysed the relation between area, depth, elevation and tardigrades densities in cryoconite holes on four glaciers on Spitsbergen. The mean (±SD) of cryoconite area was 1287.21±2400.8 cm 2 , while the depth was on average 10.8±11.2 cm, the elevation 172.6±109.66 m a.s.l., and tardigrade density 24.9±33.0 individuals per gram of wet material (n = 38). The densities of tardigrades on Hans Glacier reached values of up to 168 ind. cm 3 , 104 ind. g −1 wet weight, and 275 ind. g −1 dry weight. The densities of tardigrades of the three glaciers in Billefjorden were up to 82 ind. cm 2 , 326 ind. g −1 wet weight and 624 ind. g −1 dry weight. Surprisingly, although the model included area, depth and elevation as independent variables, it cannot explain Tardigrada density in cryoconite holes. We propose that due to the rapid melting of the glacier surface in the Arctic, the constant flushing of cryoconite sediments, and inter-hole water-sediment mixing, the functioning of these ecosystems is disrupted. We conclude that cryoconite holes are dynamic ecosystems for microinvertebrates in the Arctic.

Type of Medium: Online Resource

ISSN: 2081-8262

URL: Article

DOI: 10.1515/popore-2016-0009

Language: Unknown

Publisher: Walter de Gruyter GmbH

Publication Date: 2016

detail.hit.zdb_id: 2261592-1

SSG: 14

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Diversity and distribution of Tardigrada in Arctic cryoconite holes

Zawierucha, Krzysztof ; Ostrowska, Marta ; Vonnahme, Tobias R. ; [et al.]

PAGEPress Publications ; 2016

In: Journal of Limnology ( 2016-06-07)

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In: Journal of Limnology, PAGEPress Publications, ( 2016-06-07)

Abstract: 〈 p 〉 Despite the fact that glaciers and ice sheets have been monitored for more than a century, knowledge on the glacial biota remains poor. Cryoconite holes are water-filled reservoirs on a glacier’s surface and one of the most extreme ecosystems for micro-invertebrates. Tardigrada, also known as water bears, are a common inhabitant of cryoconite holes. In this paper we present novel data on the morphology, diversity, distribution and role in food web of tardigrades on Arctic glaciers. From 33 sampled cryoconite holes of 6 glaciers on Spitsbergen, in 25 tardigrades were found and identified. Five taxa of Tardigrada (Eutardigrada) were found in the samples, they are: 〈 em 〉 Hypsibius dujardini 〈 /em 〉 , 〈 em 〉 Hypsibius 〈 /em 〉 sp. A, 〈 em 〉 Isohypsibius 〈 /em 〉 sp. A., 〈 em 〉 Pilatobius 〈 /em 〉 〈 em 〉 recamieri 〈 /em 〉 , and one species of Ramazzottiidae. 〈 em 〉 H. dujardini 〈 /em 〉 and 〈 em 〉 P. recamieri 〈 /em 〉 were previously known from tundra in the Svalbard archipelago. Despite the number of studies on Arctic tundra ecosystems, 〈 em 〉 Hypsibius 〈 /em 〉 sp. A, one species of Ramazzottiidae and 〈 em 〉 Isohypsibius 〈 /em 〉 sp. A are known only from cryoconite holes. Tardigrade found in this study do not falsify the hypothesis that glaciers and ice sheets are a viable biome (characteristic for biome organisms assemblages - tardigrades). Diagnosis of 〈 em 〉 Hypsibius 〈 /em 〉 sp. A, 〈 em 〉 Isohypsibius 〈 /em 〉 sp. A, and species of Ramazzottiidae with discussion on the status of taxa, is provided. To check what analytes are associated with the presence of tardigrades in High Arctic glacier chemical analyses were carried out on samples taken from the Buchan Glacier. pH values and the chemical composition of anions and cations from cryoconite hole water from the Buchan Glacier are also presented. The current study on the Spitsbergen glaciers clearly indicates that tardigrade species richness in cryoconite holes is lower than tardigrade species richness in Arctic tundra ecosystems, but consists of unique cryoconite hole species. As cryoconite tardigrades may feed on bacteria as well as algae, they are primary consumers and grazers - secondary consumers of the decomposer food chain in this extreme ecosystem. 〈 /p 〉

Type of Medium: Online Resource

ISSN: 1723-8633 , 1129-5767

URL: Article

DOI: 10.4081/jlimnol.2016.1453

Language: Unknown

Publisher: PAGEPress Publications

Publication Date: 2016

detail.hit.zdb_id: 2034229-9

SSG: 12

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