GLORIA — GEOMAR Library Ocean Research Information Access

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Book

Kleinskalige Heterogenität in der arktischen Tiefsee : Einfluss kleiner Kaltwasser-Schwämme auf die Diversität benthischer Nematoden-Gemeinschaften = Small scale heterogeneity in the Arctic deep sea (2006)

Hasemann, Christiane

Bremerhaven : Alfred-Wegener-Inst. für Polar- und Meeresforschung

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Keywords: Benthos ; Biodiversity ; Sponges ; Hochschulschrift ; Nordpolarmeer ; Schwämme ; Fadenwürmer ; Benthos ; Biodiversität ; Nordpolarmeer ; Tiefsee ; Meeresschwämme ; Kleinstplankton ; Benthos ; Fadenwürmer ; Biozönose

Type of Medium: Book

Pages: V, 294, XXI S. , Ill., graph. Darst., Kt.

Series Statement: Berichte zur Polar- und Meeresforschung 527

URL: http://www.gbv.de/dms/bs/toc/513119086.pdf

DDC: 577.7324

RVK:

RY 20075

Language: German

Note: Zsfassung in engl. Sprache , Zugl.: Bremen, Univ., Diss., 2005

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Natural variability or anthropogenically-induced variation? Insights from 15 years of multidisciplinary observations at the arctic marine LTER site HAUSGARTEN (2016)

Soltwedel, Thomas ; Bauerfeind, Eduard ; Bergmann, Melanie ; [et al.]

Elsevier

In: Ecological Indicators, 65 . pp. 89-102.

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Publication Date: 2019-02-01

Description: Time-series studies of arctic marine ecosystems are rare. This is not surprising since polar regions are largely only accessible by means of expensive modern infrastructure and instrumentation. In 1999, the Alfred Wegener Institute, Helmholtz-Centre for Polar and Marine Research (AWI) established the LTER (Long-Term Ecological Research) observatory HAUSGARTEN crossing the Fram Strait at about 79° N. Multidisciplinary investigations covering all parts of the open-ocean ecosystem are carried out at a total of 21 permanent sampling sites in water depths ranging between 250 and 5500 m. From the outset, repeated sampling in the water column and at the deep seafloor during regular expeditions in summer months was complemented by continuous year-round sampling and sensing using autonomous instruments in anchored devices (i.e., moorings and free-falling systems). The central HAUSGARTEN station at 2500 m water depth in the eastern Fram Strait serves as an experimental area for unique biological in situ experiments at the seafloor, simulating various scenarios in changing environmental settings. Long-term ecological research at the HAUSGARTEN observatory revealed a number of interesting temporal trends in numerous biological variables from the pelagic system to the deep seafloor. Contrary to common intuition, the entire ecosystem responded exceptionally fast to environmental changes in the upper water column. Major variations were associated with a Warm-Water-Anomaly evident in surface waters in eastern parts of the Fram Strait between 2005 and 2008. However, even after 15 years of intense time-series work at HAUSGARTEN, we cannot yet predict with complete certainty whether these trends indicate lasting alterations due to anthropologically-induced global environmental changes of the system, or whether they reflect natural variability on multiyear time-scales, for example, in relation to decadal oscillatory atmospheric processes.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.ecolind.2015.10.001

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Shaken and stirred : getting a taste of mining impacts on deep sea sediments (2014)

Janssen, Felix ; Soltwedel, Thomas ; Schewe, Ingo ; [et al.]

Seascape Consultants

In: MIDAS Newsletter (1). pp. 10-11.

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Publication Date: 2015-03-13

Type: Article , NonPeerReviewed

Format: text

DOI: 10.1175/JPO-D-12-0240.1

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OceanRep: Article in a Scientific Journal - without review

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Bathymetric variations in vertical distribution patterns of meiofauna in the surface sediments of the deep Arctic ocean (HAUSGARTEN, Fram strait) (2014)

Górska, Barbara ; Grzelak, Katarzyna ; Kotwicki, Lech ; [et al.]

Elsevier

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Publication Date: 2024-01-01

Description: Deep-sea benthic communities and their structural and functional characteristics are regulated by surface water processes. Our study focused on the impact of changes in water depth and food supplies on small-sized metazoan bottom-fauna (meiobenthos) along a bathymetric transect (1200–5500 m) in the western Fram Strait. The samples were collected every summer season from 2005 to 2009 within the scope of the HAUSGARTEN monitoring program. In comparison to other polar regions, the large inflow of organic matter to the sea floor translates into relatively high meiofaunal densities in this region. Densities along the bathymetric gradient range from approximately 2400 ind. 10 cm-2 at 1200 m to approximately 300 ind. 10 cm-2 at 4000 m. Differences in meiofaunal distribution among sediment layers (i.e., vertical profile) were stronger than among stations (i.e., bathymetric gradient). At all the stations meiofaunal densities and number of taxa were the highest in the surface sediment layer (0–1 cm), and these decreased with increasing sediment depth (down to 4–5 cm). However, the shape of the decreasing pattern differed significantly among stations. Meiofaunal densities and taxonomic richness decreased gradually with increasing sediment depth at the shallower stations with higher food availability. At deeper stations, where the availability of organic matter is generally lower, meiofaunal densities decreased sharply to minor proportions at sediment depths already at 2–3 cm. Nematodes were the most abundant organisms (60–98%) in all the sediment layers. The environmental factors best correlated to the vertical patterns of the meiofaunal community were sediment-bound chloroplastic pigments that indicate phytodetrital matter. Highlights • Small-scale heterogeneity is the main source of variation in meiofauna community. • Trophic conditions influence vertical patterns of meiofauna distribution. • Meiofauna abundance and biomass decrease with increasing water depth.

Type: Article , PeerReviewed

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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(Fig. 6a) Oxygen profiles from in situ measurements below the carcasses and in control sediments at station ATL05/06-2 at 2500 m water depth (2017)

Soltwedel, Thomas ; Guilini, Katja ; Sauter, Eberhard-Jürgen ; [et al.]

PANGAEA

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Publication Date: 2023-03-16

Keywords: ATL05; ATL05/06-2; DEPTH, sediment/rock; FRAM; FRontiers in Arctic marine Monitoring; Hausgarten; L Atalante; Long-term Investigation at AWI-Hausgarten off Svalbard; Oxygen; VICTOR; Victor/D3; Victor6000 ROV

Type: Dataset

Format: text/tab-separated-values, 965 data points

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(Fig. 6b) Oxygen profiles from in situ measurements below the carcasses and in control sediments at station ATL05/03-2 at 5000 m water depth (2017)

Soltwedel, Thomas ; Guilini, Katja ; Sauter, Eberhard-Jürgen ; [et al.]

PANGAEA

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Publication Date: 2023-03-16

Keywords: ATL05; ATL05/03-2; DEPTH, sediment/rock; FRAM; FRontiers in Arctic marine Monitoring; Hausgarten; L Atalante; Long-term Investigation at AWI-Hausgarten off Svalbard; Molloy Deep; Oxygen; VICTOR; Victor/D2; Victor6000 ROV

Type: Dataset

Format: text/tab-separated-values, 1399 data points

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DATA PANGAEA

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(Table 1) Environmental, bacterial, and meiofaunal data in surface sediments at various positions around the carcasses and adjacent control sediments (2017)

Soltwedel, Thomas ; Guilini, Katja ; Sauter, Eberhard-Jürgen ; [et al.]

PANGAEA

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Publication Date: 2023-03-16

Keywords: ATL05; ATL05/03-2_PUC-1; ATL05/03-2_PUC-11; ATL05/03-2_PUC-19-1; ATL05/03-2_PUC-24; ATL05/03-2_PUC-3; ATL05/03-2_PUC-6; ATL05/03-2_PUC-7; ATL05/03-2_PUC-8; ATL05/03-2_PUC-9; ATL05/03-2_PUC-9-1; ATL05/06-2_PUC-1; ATL05/06-2_PUC-10; ATL05/06-2_PUC-11; ATL05/06-2_PUC-2; ATL05/06-2_PUC-3; ATL05/06-2_PUC-4; ATL05/06-2_PUC-6; ATL05/06-2_PUC-7; ATL05/06-2_PUC-8; ATL05/06-2_PUC-9; ATL05/D2/1; ATL05/D3/1; Bacteria, abundance; Bacteria, biomass as carbon; Biomass per bacterial cell; Chlorophyll a; Chloroplastic pigment equivalents per volume; Date/Time of event; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Elevation of event; Esterase activity per sediment volume; Event label; FRAM; FRontiers in Arctic marine Monitoring; Hausgarten; L Atalante; Latitude of event; Longitude of event; Long-term Investigation at AWI-Hausgarten off Svalbard; Meiofauna, other; Metazoa; Molloy Deep; Nematoda; Phaeopigments; Phospholipids; PUC; Push corer; Sample position

Type: Dataset

Format: text/tab-separated-values, 280 data points

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Meiofauna communities from iron-enriched sediments at LTER HAUSGARTEN, with special foucs on nematodes (2023)

Hasemann, Christiane ; Soltwedel, Thomas

PANGAEA

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Publication Date: 2023-03-25

Description: Impact of Local Iron Enrichment on the Small Benthic Biota in the deep Arctic Ocean The study assesses the impact of local iron enrichment on the small benthic biota (bacteria, meiofauna) together with environmental parameters indicating the input of food at the deep seafloor. To evaluate the hypothesis that abundance, distribution, and diversity of the small benthic biota varies in relation to a local input of structural steel at the seabed, we analyzed sediment samples and the associated infauna along a short transect with increasing distance to an iron source, i.e., corroding steel weights of a free-falling observational platform (bottom-lander), lying on the seafloor for approximately seven years. Iron-enriched surface sediments in the vicinity of the bottom-weight left in summer 2008 after a short-term deployment of a bottom-lander in 2433 m water depth at the LTER (Long-Term Ecological Research) observation HAUSGARTEN in eastern parts of the Fram Strait were sampled on 28th July 2015 using push-corer (PC) handled by the Remotely Operated Vehicle (ROV) QUEST 4000 (MARUM Center for Marine Environmental Sciences, Germany) during Dive 369 from board RV Polarstern. The block-shaped steel bottom-weights (30 x 30 x 6 cm) were sitting about half of the height sunken into the seafloor and thus, almost not affecting near-bottom currents. During sampling in 2015, the plates were largely corroded. Surface sediments around the plates had an orange-red color with a gradient of decreasing color intensity with increasing distance from the source, i.e., the bottom weight. A total of eight push-corer samples (PC1-8) were taken at approx. regular distances (on average every 18 cm) along a short transect (about 1.5 m) crossing the iron gradient. Push-corers PC1-4 retrieved sediment from heavily impacted sediments, while samples taken from push-corers PC5-8 were visually indistinguishable from background sediments in the wider area. After recovery of the ROV, sediment cores (8 cm in diameter, and 20-25 cm in height) were sub-sampled using plastic syringes with cut-off anterior ends for meiofauna and nematode communities as well as for environmental parameters. The position specified in the data sets (longitude / latitude) refers to the position of the ROV.

Keywords: Deep sea; Hausgarten; iron; Long-term Investigation at AWI-Hausgarten off Svalbard; meiofauna; Nematoda; sediments

Type: Dataset

Format: application/zip, 3 datasets

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Results from an in situ experiment at the deep-sea observatory HAUSGARTEN (2017)

Soltwedel, Thomas ; Guilini, Katja ; Sauter, Eberhard-Jürgen ; [et al.]

PANGAEA

In: Supplement to: Soltwedel, Thomas; Guilini, Katja; Sauter, Eberhard-Jürgen; Schewe, Ingo; Hasemann, Christiane (2017): Local effects of large food-falls on nematode diversity at an arctic deep-sea site:Results from an in situ experiment at the deep-sea observatory HAUSGARTEN. Journal of Experimental Marine Biology and Ecology, https://doi.org/10.1016/j.jembe.2017.03.002

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Publication Date: 2023-05-12

Description: To study the response of the smaller benthic biota to larger food-falls and their possible effects on the biodiversity at the deep seafloor, we deployed the halves of a sagittally bisected porpoise (1.3 m in length; each half approximately 18 kg) at 2500 m and 5400 m water depth at the LTER (Long-Term Ecological Research) observatory HAUSGARTEN in the eastern Fram Strait. The sampling of sediments beneath the carcass halves and at different distances (0, 20, 40 cm) from these artificial food-falls was carried out by means of push-corers handled by a Remotely Operated Vehicle five weeks after the food deployment. The samples provided empirical evidence for a quick response by sediment-inhabiting bacteria and metazoan meiofauna to the carcasses at both water depths. Compared to control sediments, the substantial pulse of organic matter also led to generally increased meiofauna/nematode densities around the artificial food-falls. The comparison of nematode communities in sediments affected by the carcasses with those in background control sediments exhibited shifts in the structural composition and the associated trophic and functional diversity of the nematode fauna. Our results confirmed that the impact of large food-falls on the deep benthic community largely depends on environmental factors (water depth, alternative food sources) as well as the background species composition, i.e., the structure of the prevailing meiofauna/nematode assemblages and the composition of the necrophagous community present in the wider area.

Keywords: FRAM; FRontiers in Arctic marine Monitoring; Hausgarten; Long-term Investigation at AWI-Hausgarten off Svalbard

Type: Dataset

Format: application/zip, 7 datasets

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Macrofauna abundance and biomass at the LTER observatory HAUSGARTEN in 2016 (2019)

Käß, Melissa ; Vedenin, Andrey ; Hasemann, Christiane ; [et al.]

PANGAEA

In: Supplement to: Käß, Melissa; Vedenin, Andrey; Hasemann, Christiane; Brandt, Angelika; Soltwedel, Thomas (2019): Community structure of macrofauna in the deep Fram Strait: A comparison between two bathymetric gradients in ice-covered and ice-free areas. Deep Sea Research Part I: Oceanographic Research Papers, 103102, https://doi.org/10.1016/j.dsr.2019.103102

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Publication Date: 2023-02-23

Description: Macrofauna data was collected using a box corer (0.25m² sampling area). The sampled sediment from each box corer was divided into eight subsamples (pseudoreplicates). The uppermost 12 cm of these subsamples were analyzed. Each subsample was processed through a 500-µm mesh size sieve. After sieving, residuals were fixed with 100% ethanol and stored at room temperature. Macrofaunal organisms were identified to the lowest possible taxonomical level. Whenever identification to species level was not possible, the sample was identified to the next identifiable taxonomical category and assigned a putative species name (e.g., 'Hesionidae genus sp. 1', 'Hesionidae genus sp. 2'). Posterior fragments, exuviae, xenobionts, meiofauna taxa (Nematoda, Ostracoda, Harpacticoida) and empty tubes were excluded from the analysis. Biomass (blotted wet weight, ww) was determined by weighing each specimen. Shelled organisms, such as mollusks, were weight in their shells.

Keywords: ARK-XXX/1.2; Biomass, wet mass; Character; EG_IV; ELEVATION; Event label; Family; Genus; Giant box corer; GKG; HG_IV; LATITUDE; LONGITUDE; North Greenland Sea; Phylum; Polarstern; PS99/042-14; PS99/048-13; PS99/049-3; PS99/050-3; PS99/051-8; PS99/062-2; PS99/066-4; PS99/069-6; PS99.2; Replicate; Species; Station label

Type: Dataset

Format: text/tab-separated-values, 14989 data points

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