Stable isotopic composition of top consumers in Arctic cryoconite holes: revealing divergent roles in a supraglacial trophic network

<p>Arctic cryoconite holes represent highly biologically active aquatic habitats on the glacier surface characterized by the dynamic nature of their formation and functioning. The most common cryoconite apex consumers are the cosmopolitan invertebrates – tardigrades and rotifers. Several studi...

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Bibliographic Details
Main Authors: T. Novotná Jaroměřská, J. Trubač, K. Zawierucha, L. Vondrovicová, M. Devetter, J. D. Žárský
Format: Article
Language:English
Published: Copernicus Publications 2021-03-01
Series:Biogeosciences
Online Access:https://bg.copernicus.org/articles/18/1543/2021/bg-18-1543-2021.pdf
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Summary:<p>Arctic cryoconite holes represent highly biologically active aquatic habitats on the glacier surface characterized by the dynamic nature of their formation and functioning. The most common cryoconite apex consumers are the cosmopolitan invertebrates – tardigrades and rotifers. Several studies have highlighted the potential relevance of tardigrades and rotifers to cryoconite holes' ecosystem functioning. However, due to the dominant occurrence of prokaryotes, these consumers are usually out of the major scope of most studies aimed at understanding biological processes on glaciers. The aim of this descriptive study is to present pioneering data on isotopic composition of tardigrades, rotifers and cryoconite from three High Arctic glaciers in Svalbard and discuss their role in a cryoconite hole trophic network. We found that tardigrades have lower <span class="inline-formula"><i>δ</i><sup>15</sup></span>N values than rotifers, which indicates different food requirements or different isotopic fractionation of both consumers. The <span class="inline-formula"><i>δ</i><sup>13</sup></span>C values revealed differences between consumers and organic matter in cryoconite among glaciers. However, the mechanistic explanation of these variations requires further investigation focused on the particular diet of cryoconite consumers and their isotopic ratio. Our study introduces the first observation of carbon and nitrogen stable isotopic composition of top consumers in cryoconite holes analysed by an improved method for cryoconite sample processing, paving the way for further studies of the supraglacial trophic network.</p>
ISSN:1726-4170
1726-4189