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Molecular analyses of gut contents: elucidating the feeding of co-occurring salps in the Lazarev Sea from a different perspective (2014)

Metfies, Katja ; Nicolaus, Anja ; Harbou, Lena von ; [et al.]

CAMBRIDGE UNIV PRESS

In: EPIC3Antarctic Science, CAMBRIDGE UNIV PRESS, 26(5), pp. 545-553, ISSN: 0954-1020

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Publication Date: 2019-07-17

Description: The diet of Antarctic salps was elucidated by investigating their gut content using “Automated Ribosomal Intergenic Spacer Analysis” and 454-pyrosequencing. Salp samples were collected during the Lazarev Krill Study in the Western Weddell Sea (summer 2005/06 and 2007/08, fall 2004, and winter 2006). Two salp species, Salpa thompsoni and Ihlea racovitzai, both occur in the Southern Ocean, can overlap geographically and seasonally. Here we provide evidence that despite the non-selective feeding mechanism, the two co-occuring salp species might have different niches within one given habitat. ARISA-patterns of 93 salp gut content samples revealed strong differences between the two salp species, even at the same sampling site. These differences were confirmed by 454-pyrosequencing of the V4-18S rDNA of ten salps. The pyrosequencing data indicate that flagellates, in particular dinophyceae constitute a high proportion of the sequence reads identified in the gut content of both salp species. However, within the dinophyceae differences in the read composition were detected between the two salp species. This supports the findings of a previous study where fatty acid signatures indicate a flagellate based diet of salps, even though microscopic analyses identified diatoms as the dominant component of salp gut contents.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Deep carbon export from a Southern Ocean iron-fertilized diatom bloom. (2012)

Smetacek, Victor ; Klaas, Christine ; Strass, Volker ; [et al.]

Nature

In: EPIC3Nature, Nature, 487(7407), pp. 313-319

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Publication Date: 2019-07-16

Description: Fertilization of the ocean by adding iron compounds has induced diatom-dominated phytoplankton blooms accompanied by considerable carbon dioxide drawdown in the ocean surface layer. However, because the fate of bloom biomass could not be adequately resolved in these experiments, the timescales of carbon sequestration from the atmosphere are uncertain. Here we report the results of a five-week experiment carried out in the closed core of a vertically coherent, mesoscale eddy of the Antarctic Circumpolar Current, during which we tracked sinking particles from the surface to the deep-sea floor. A large diatom bloom peaked in the fourth week after fertilization. This was followed by mass mortality of several diatom species that formed rapidly sinking, mucilaginous aggregates of entangled cells and chains. Taken together, multiple lines of evidence—although each with important uncertainties—lead us to conclude that at least half the bloom biomass sank far below a depth of 1,000 metres and that a substantial portion is likely to have reached the sea floor. Thus, iron-fertilized diatom blooms may sequester carbon for timescales of centuries in ocean bottom water and for longer in the sediments.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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