GLORIA — GEOMAR Library Ocean Research Information Access

1

Online Resource

Zur Biologie von Ensis directus und Spisula soldia (Mollusca: Bivalvia) in den Küstengewässern der östlichen Nordsee (2002)

Dannheim, Jennifer [VerfasserIn]

Kiel

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Keywords: Hochschulschrift ; Nordsee Ost ; Meeresmuscheln

Type of Medium: Online Resource

Pages: 1 Online-Ressource (130 Seiten = 8 MB) , Illustrationen, Graphen, Karten

Edition: 2021

URL: https://oceanrep.geomar.de/5324/

Language: German

Note: Zusammenfassung in deutscher und englischer Sprache

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GEOMAR CATALOGUE

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2

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Gemeinsame Auswertung von Daten zu Benthos und Fischen für das ökologische Effektmonitoring am Offshore-Testfeld alpha ventus : Schlussbericht zum Projekt: Ökologische Begleitforschung am Offshore-Testfeldvorhaben alpha ventus zur Evaluierung des Standarduntersuchungskonzeptes des BSH (StUKplus) : Laufzeit des Projektes: 01.05.2008 - 30.04.2012 (2013)

Dannheim, Jennifer ; Alfred-Wegener-Institut

Bremerhaven

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Keywords: Forschungsbericht ; Fische ; Benthos

Type of Medium: Online Resource

Pages: Online-Ressource (71 S., 3,78 MB) , Illustrationen, graphische Darstellungen, Karten

URL: https://edocs.tib.eu/files/e01fb16/845588729.pdf

URL: https://doi.org/10.2314/GBV:845588729

DOI: 10.2314/GBV:845588729

Language: German

Note: Förderkennzeichen BMU 0327689A , Unterschiede zwischen dem gedruckten Dokument und der elektronischen Ressource können nicht ausgeschlossen werden , Systemvoraussetzungen: Acrobat reader. , Mit deutscher Zusammenfassung

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GEOMAR CATALOGUE

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3

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The fate of an immigrant: Ensis directus in the eastern German Bight (2012)

Dannheim, Jennifer ; Rumohr, Heye

Springer

In: Helgoland Marine Research, 66 (3). pp. 307-317.

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Publication Date: 2019-09-23

Description: We studied Ensis directus in the subtidal (7–16 m depth) of the eastern German Bight. The jack-knife clam that invaded in the German Bight in 1978 has all characteristics of a successful immigrant: Ensis directus has a high reproductive capacity (juveniles, July 2001: Amrumbank 1,914 m−2, Eiderstedt/Vogelsand: 11,638 m−2), short generation times and growths rapidly: maximum growth rates were higher than in former studies (mean: 3 mm month−1, 2nd year: up to 14 mm month−1). Ensis directus uses natural mechanisms for rapid dispersal, occurs gregariously and exhibits a wide environmental tolerance. However, optimal growth and population-structure annual gaps might be influenced by reduced salinity: at Vogelsand (transition area of Elbe river), maximum growth was lower (164 mm) than at the Eiderstedt site (outer range of Elbe river, L ∞ = 174 mm). Mass mortalities of the clams are probably caused by washout (video inspections), low winter temperature and strong storms. Ensis directus immigrated into the community finding its own habitat on mobile sands with strong tidal currents. Recent studies on E. directus found that the species neither suppresses native species nor takes over the position of an established one which backs up our study findings over rather short time scales. On the contrary, E. directus seems to favour the settlement of some deposit feeders. Dense clam mats might stabilise the sediment and function as a sediment-trap for organic matter. Ensis directus has neither become a nuisance to other species nor developed according to the ‘boom-and-bust’ theory. The fate of the immigrant E. directus rather is a story of a successful trans-ocean invasion which still holds on 23 years after the first findings in the outer elbe estuary off Vogelsand.

Type: Article , PeerReviewed

Format: text

DOI: 10.1007/s10152-011-0271-2

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OceanRep: Article in a Scientific Journal - peer-reviewed

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4

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Semi-Automated Image Analysis for the Assessment of Megafaunal Densities at the Arctic Deep-Sea Observatory HAUSGARTEN (2012)

Slomp, Caroline P. ; Schoening, Timm ; Bergmann, Melanie ; [et al.]

Public Library of Science

In: PLoS ONE, 7 (6). e38179.

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Publication Date: 2017-07-18

Description: Megafauna play an important role in benthic ecosystem function and are sensitive indicators of environmental change. Non-invasive monitoring of benthic communities can be accomplished by seafloor imaging. However, manual quantification of megafauna in images is labor-intensive and therefore, this organism size class is often neglected in ecosystem studies. Automated image analysis has been proposed as a possible approach to such analysis, but the heterogeneity of megafaunal communities poses a non-trivial challenge for such automated techniques. Here, the potential of a generalized object detection architecture, referred to as iSIS (intelligent Screening of underwater Image Sequences), for the quantification of a heterogenous group of megafauna taxa is investigated. The iSIS system is tuned for a particular image sequence (i.e. a transect) using a small subset of the images, in which megafauna taxa positions were previously marked by an expert. To investigate the potential of iSIS and compare its results with those obtained from human experts, a group of eight different taxa from one camera transect of seafloor images taken at the Arctic deep-sea observatory HAUSGARTEN is used. The results show that inter-and intra-observer agreements of human experts exhibit considerable variation between the species, with a similar degree of variation apparent in the automatically derived results obtained by iSIS. Whilst some taxa (e. g. Bathycrinus stalks, Kolga hyalina, small white sea anemone) were well detected by iSIS (i.e. overall Sensitivity: 87%, overall Positive Predictive Value: 67%), some taxa such as the small sea cucumber Elpidia heckeri remain challenging, for both human observers and iSIS.

Type: Article , PeerReviewed

Format: text

DOI: 10.1371/journal.pone.0038179

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5

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Zur Biologie von Ensis directus und Spisula solida (Mollusca:Bivalvia) in den Küstengewässern der östlichen Nordsee (2002)

Dannheim, Jennifer

In: (Diploma thesis), Christian-Albrechts-Universität zu Kiel, Kiel, Germany, 82 pp

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Publication Date: 2021-11-02

Type: Thesis , NonPeerReviewed

Format: text

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OceanRep: Thesis - not published by a publisher

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6

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Structure and distribution of a threatened muddy biotope in the south-eastern North Sea (2020)

Gutow, Lars ; Günther, Carmen-Pia ; Ebbe, Brigitte ; [et al.]

Elsevier

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Publication Date: 2023-02-08

Description: Understanding the distribution and structure of biotopes is essential for marine conservation according to international legislation, such as the European Marine Strategy Framework Directive (MSFD). The biotope 'Sea Pen and Burrowing Megafuna Communities' is included in the OSPAR list of threatened and/or declining habitats. Accordingly, the MSFD prescribes a monitoring of this biotope by the member states of the EU. In the German North Sea, however, the distribution and spatial extent of this biotope as well as the structuring of its benthic species inventory is unknown. We used an extensive geo-referenced dataset on occurrence, abundance and biomass of the benthic infauna of the south-eastern North Sea to estimate the distribution of the biotope and to characterize the associated infauna assemblages. Sediment preferences of the burrowing megafauna, comprising decapod crustaceans and echiurids, were identified and the core distribution areas of the burrowing megafauna were modelled using Random Forests. Clusters of benthic infauna inside the core distribution areas were identified by fuzzy clustering. The burrowing megafauna occurred on a wide range of sediments with varying mud contents. The core distribution area of the burrowing megafauna was characterized by elevated mud content and a water depth of 25-55 m. The analysis of the benthic communities and their relation to sedimentological conditions identified four infauna clusters of slightly varying species composition. The biotope type 'Sea Pen and Burrowing Megafuna Communities' is primarily located inside the paleo valley of the river Elbe and covers an area of 4980 km2. Dedicated monitoring will have to take into account the spatial extent and the structural variability of the biotope. Our results can provide a baseline for the evaluation of the future development of the environmental status of the biotope. The maps generated herein will facilitate the communication of information relevant for environmental management to authorities and policy makers.

Type: Article , PeerReviewed

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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7

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Station list and links to master tracks in different resolutions of HEINCKE cruise HE352/1, Bremerhaven - Bremerhaven, 2011-03-22 - 2011-03-27 (2016)

Dannheim, Jennifer

PANGAEA

In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2023-03-16

Keywords: Calculated; Course; CT; DATE/TIME; HE352/1; HE352/1-track; Heincke; LATITUDE; LONGITUDE; Speed; Underway cruise track measurements

Type: Dataset

Format: text/tab-separated-values, 1656 data points

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DATA PANGAEA

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8

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Monitoring data (hard substrate, soft bottom) of the offshore wind farm alpha ventus (German Bight, North Sea) (2022)

Preuß, Stephanie ; Kazmierczak, Franziska ; Bönsch, Regine ; [et al.]

PANGAEA

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Publication Date: 2023-01-30

Description: Alpha ventus was the first German offshore wind farm build in the German exclusive economic zone in 2008/2009. The data are part of the mandatory monitoring programme of the German Standard Investigation of the Impacts of Offshore Wind Turbines on the Marine Environment (latest version: StUK 4, published by BSH 2014). Makrozoobenthos was collected in the offshore wind farm alpha ventus at four wind turbines at different depth (epifouling communities), distance-dependent to the turbines in the soft bottom, as well as randomly within the soft bottom of the offshore wind farm area and in a comparable reference area nearby. Samples were taken by scrape samples with scuba divers to analyse the epifaunal communities and with van-Veen grabs to analyse the infauna. Soft-bottom samples in the wind farm and reference area were collected in spring and autumn from 2008-2012 before, during and after construction (until three years) of the wind farm. After construction of the turbines, epifaunal community was evaluated for recording successional stages of growth on the wind turbines in different depth to cover the vertical zonation along the turbines (at 1, 5 and 10 m depth). Further, soft-bottom samples were collected distance dependent to the turbines 100, 200 and 400 m apart from the turbines. Biodiversity data of species include abundance (count data) and biomass (wet mass, g) per sample. Data were sampled on behalf of the DOTI GmbH & Co. KG in the framework of the mandatory monitoring and collected and quality controlled by the Federal Martime and Hydrographic Agency (BSH) in cooperation with AWI. Thus, we would like to thank the DOTI GmbH, particularly Magdalena Buchholz on behalf of the DOTI GmbH, as well as the BSH, in particular Dr. Maria Boethling, who kindly provided the data for scientific independent research analysis and publication.

Keywords: 1-B1; 1-B1/AV_M12_N100-1; 1-B1/AV_M12_N100-1_1_1; 1-B1/AV_M12_N100-2; 1-B1/AV_M12_N100-2_1_1; 1-B1/AV_M12_N100-3; 1-B1/AV_M12_N100-3_1_1; 1-B1/AV_M12_N200-1; 1-B1/AV_M12_N200-1_1_1; 1-B1/AV_M12_N200-2; 1-B1/AV_M12_N200-2_1_1; 1-B1/AV_M12_N200-3; 1-B1/AV_M12_N200-3_1_1; 1-B1/AV_M12_N400-1; 1-B1/AV_M12_N400-1_1_1; 1-B1/AV_M12_N400-2; 1-B1/AV_M12_N400-2_1_1; 1-B1/AV_M12_N400-3; 1-B1/AV_M12_N400-3_1_1; 1-B1/AV_M12_W100-1; 1-B1/AV_M12_W100-1_1_1; 1-B1/AV_M12_W100-2; 1-B1/AV_M12_W100-2_1_1; 1-B1/AV_M12_W100-3; 1-B1/AV_M12_W100-3_1_1; 1-B1/AV_M12_W200-1; 1-B1/AV_M12_W200-1_1_1; 1-B1/AV_M12_W200-2; 1-B1/AV_M12_W200-2_1_1; 1-B1/AV_M12_W200-3; 1-B1/AV_M12_W200-3_1_1; 1-B1/AV_M12_W400-1; 1-B1/AV_M12_W400-1_1_1; 1-B1/AV_M12_W400-2; 1-B1/AV_M12_W400-2_1_1; 1-B1/AV_M12_W400-3; 1-B1/AV_M12_W400-3_1_1; 1-B1/AV_M7_E100-1; 1-B1/AV_M7_E100-1_1_1; 1-B1/AV_M7_E100-2; 1-B1/AV_M7_E100-2_1_1; 1-B1/AV_M7_E100-3; 1-B1/AV_M7_E100-3_1_1; 1-B1/AV_M7_E200-1; 1-B1/AV_M7_E200-1_1_1; 1-B1/AV_M7_E200-2; 1-B1/AV_M7_E200-2_1_1; 1-B1/AV_M7_E200-3; 1-B1/AV_M7_E200-3_1_1; 1-B1/AV_M7_E400-1; 1-B1/AV_M7_E400-1_1_1; 1-B1/AV_M7_E400-2; 1-B1/AV_M7_E400-2_1_1; 1-B1/AV_M7_E400-3; 1-B1/AV_M7_E400-3_1_1; 1-B1/AV_M7_S100-1; 1-B1/AV_M7_S100-1_1_1; 1-B1/AV_M7_S100-2; 1-B1/AV_M7_S100-2_1_1; 1-B1/AV_M7_S100-3; 1-B1/AV_M7_S100-3_1_1; 1-B1/AV_M7_S200-1; 1-B1/AV_M7_S200-1_1_1; 1-B1/AV_M7_S200-2; 1-B1/AV_M7_S200-2_1_1; 1-B1/AV_M7_S200-3; 1-B1/AV_M7_S200-3_1_1; 1-B1/AV_M7_S400-1; 1-B1/AV_M7_S400-1_1_1; 1-B1/AV_M7_S400-2; 1-B1/AV_M7_S400-2_1_1; 1-B1/AV_M7_S400-3; 1-B1/AV_M7_S400-3_1_1; 1-B1/AV_P01-1; 1-B1/AV_P01-1_1_1; 1-B1/AV_P01-2; 1-B1/AV_P01-2_1_1; 1-B1/AV_P02-1; 1-B1/AV_P02-1_1_1; 1-B1/AV_P02-2; 1-B1/AV_P02-2_1_1; 1-B1/AV_P03-1; 1-B1/AV_P03-1_1_1; 1-B1/AV_P03-2; 1-B1/AV_P03-2_1_1; 1-B1/AV_P04-1; 1-B1/AV_P04-1_1_1; 1-B1/AV_P04-2; 1-B1/AV_P04-2_1_1; 1-B1/AV_P07-1; 1-B1/AV_P07-1_1_1; 1-B1/AV_P07-2; 1-B1/AV_P07-2_1_1; 1-B1/AV_P08-1; 1-B1/AV_P08-1_1_1; 1-B1/AV_P08-2; 1-B1/AV_P08-2_1_1; 1-B1/AV_P09-1; 1-B1/AV_P09-1_1_1; 1-B1/AV_P09-2; 1-B1/AV_P09-2_1_1; 1-B1/AV_P10-1; 1-B1/AV_P10-1_1_1; 1-B1/AV_P10-2; 1-B1/AV_P10-2_1_1; 1-B1/AV_P11-1; 1-B1/AV_P11-1_1_1; 1-B1/AV_P11-2; 1-B1/AV_P11-2_1_1; 1-B1/AV_P12-1; 1-B1/AV_P12-1_1_1; 1-B1/AV_P12-2; 1-B1/AV_P12-2_1_1; 1-B1/AV_P13-1; 1-B1/AV_P13-1_1_1; 1-B1/AV_P13-2; 1-B1/AV_P13-2_1_1; 1-B1/AV_P16-1; 1-B1/AV_P16-1_1_1; 1-B1/AV_P16-2; 1-B1/AV_P16-2_1_1; 1-B1/AV_P17-1; 1-B1/AV_P17-1_1_1; 1-B1/AV_P17-2; 1-B1/AV_P17-2_1_1; 1-B1/AV_P18-1; 1-B1/AV_P18-1_1_1; 1-B1/AV_P18-2; 1-B1/AV_P18-2_1_1; 1-B1/AV_P19-1; 1-B1/AV_P19-1_1_1; 1-B1/AV_P19-2; 1-B1/AV_P19-2_1_1; 1-B1/AV_P20-1; 1-B1/AV_P20-1_1_1; 1-B1/AV_P20-2; 1-B1/AV_P20-2_1_1; 1-B1/AV_R6_N100-1; 1-B1/AV_R6_N100-1_1_1; 1-B1/AV_R6_N100-2; 1-B1/AV_R6_N100-2_1_1; 1-B1/AV_R6_N100-3; 1-B1/AV_R6_N100-3_1_1; 1-B1/AV_R6_N200-1; 1-B1/AV_R6_N200-1_1_1; 1-B1/AV_R6_N200-2; 1-B1/AV_R6_N200-2_1_1; 1-B1/AV_R6_N200-3; 1-B1/AV_R6_N200-3_1_1; 1-B1/AV_R6_N400-1; 1-B1/AV_R6_N400-1_1_1; 1-B1/AV_R6_N400-2; 1-B1/AV_R6_N400-2_1_1; 1-B1/AV_R6_N400-3; 1-B1/AV_R6_N400-3_1_1; 1-B1/AV_R6_W100-1; 1-B1/AV_R6_W100-1_1_1; 1-B1/AV_R6_W100-2; 1-B1/AV_R6_W100-2_1_1; 1-B1/AV_R6_W100-3; 1-B1/AV_R6_W100-3_1_1; 1-B1/AV_R6_W200-1; 1-B1/AV_R6_W200-1_1_1; 1-B1/AV_R6_W200-2; 1-B1/AV_R6_W200-2_1_1; 1-B1/AV_R6_W200-3; 1-B1/AV_R6_W200-3_1_1; 1-B1/AV_R6_W400-1; 1-B1/AV_R6_W400-1_1_1; 1-B1/AV_R6_W400-2; 1-B1/AV_R6_W400-2_1_1; 1-B1/AV_R6_W400-3; 1-B1/AV_R6_W400-3_1_1; 1-M1; 1-M1/AV_M12_N100-1; 1-M1/AV_M12_N100-1_1_1; 1-M1/AV_M12_N100-2; 1-M1/AV_M12_N100-2_1_1; 1-M1/AV_M12_N100-3; 1-M1/AV_M12_N100-3_1_1; 1-M1/AV_M12_N200-1; 1-M1/AV_M12_N200-1_1_1; 1-M1/AV_M12_N200-2; 1-M1/AV_M12_N200-2_1_1; 1-M1/AV_M12_N200-3; 1-M1/AV_M12_N200-3_1_1; 1-M1/AV_M12_N400-1; 1-M1/AV_M12_N400-1_1_1; 1-M1/AV_M12_N400-2; 1-M1/AV_M12_N400-2_1_1; 1-M1/AV_M12_N400-3; 1-M1/AV_M12_N400-3_1_1; 1-M1/AV_M12_W100-1; 1-M1/AV_M12_W100-1_1_1; 1-M1/AV_M12_W100-2; 1-M1/AV_M12_W100-2_1_1; 1-M1/AV_M12_W100-3; 1-M1/AV_M12_W100-3_1_1; 1-M1/AV_M12_W200-1; 1-M1/AV_M12_W200-1_1_1; 1-M1/AV_M12_W200-2; 1-M1/AV_M12_W200-2_1_1; 1-M1/AV_M12_W200-3; 1-M1/AV_M12_W200-3_1_1; 1-M1/AV_M12_W400-1; 1-M1/AV_M12_W400-1_1_1; 1-M1/AV_M12_W400-2; 1-M1/AV_M12_W400-2_1_1; 1-M1/AV_M12_W400-3; 1-M1/AV_M12_W400-3_1_1; 1-M1/AV_M7_E100-1; 1-M1/AV_M7_E100-1_1_1; 1-M1/AV_M7_E100-2; 1-M1/AV_M7_E100-2_1_1; 1-M1/AV_M7_E100-3; 1-M1/AV_M7_E100-3_1_1; 1-M1/AV_M7_E200-1; 1-M1/AV_M7_E200-1_1_1; 1-M1/AV_M7_E200-2; 1-M1/AV_M7_E200-2_1_1; 1-M1/AV_M7_E200-3; 1-M1/AV_M7_E200-3_1_1; 1-M1/AV_M7_E400-1; 1-M1/AV_M7_E400-1_1_1; 1-M1/AV_M7_E400-2; 1-M1/AV_M7_E400-2_1_1; 1-M1/AV_M7_E400-3; 1-M1/AV_M7_E400-3_1_1; 1-M1/AV_M7_S100-1; 1-M1/AV_M7_S100-1_1_1; 1-M1/AV_M7_S100-2; 1-M1/AV_M7_S100-2_1_1; 1-M1/AV_M7_S100-3; 1-M1/AV_M7_S100-3_1_1; 1-M1/AV_M7_S200-1; 1-M1/AV_M7_S200-1_1_1; 1-M1/AV_M7_S200-2; 1-M1/AV_M7_S200-2_1_1; 1-M1/AV_M7_S200-3; 1-M1/AV_M7_S200-3_1_1; 1-M1/AV_M7_S400-1; 1-M1/AV_M7_S400-1_1_1; 1-M1/AV_M7_S400-2; 1-M1/AV_M7_S400-2_1_1; 1-M1/AV_M7_S400-3; 1-M1/AV_M7_S400-3_1_1; 1-M1/AV_P01-1; 1-M1/AV_P01-1_1_1; 1-M1/AV_P01-2; 1-M1/AV_P01-2_1_1; 1-M1/AV_P02-1; 1-M1/AV_P02-1_1_1; 1-M1/AV_P02-2; 1-M1/AV_P02-2_1_1; 1-M1/AV_P03-1; 1-M1/AV_P03-1_1_1; 1-M1/AV_P03-2; 1-M1/AV_P03-2_1_1; 1-M1/AV_P04-1; 1-M1/AV_P04-1_1_1; 1-M1/AV_P04-2; 1-M1/AV_P04-2_1_1; 1-M1/AV_P05-1; 1-M1/AV_P05-1_1_1; 1-M1/AV_P05-2; 1-M1/AV_P05-2_1_1; 1-M1/AV_P06-1; 1-M1/AV_P06-1_1_1; 1-M1/AV_P06-2; 1-M1/AV_P06-2_1_1; 1-M1/AV_P07-1; 1-M1/AV_P07-1_1_1; 1-M1/AV_P07-2; 1-M1/AV_P07-2_1_1; 1-M1/AV_P08-1; 1-M1/AV_P08-1_1_1; 1-M1/AV_P08-2; 1-M1/AV_P08-2_1_1; 1-M1/AV_P09-1; 1-M1/AV_P09-1_1_1; 1-M1/AV_P09-2; 1-M1/AV_P09-2_1_1; 1-M1/AV_P10-1; 1-M1/AV_P10-1_1_1; 1-M1/AV_P10-2; 1-M1/AV_P10-2_1_1; 1-M1/AV_P11-1; 1-M1/AV_P11-1_1_1; 1-M1/AV_P11-2; 1-M1/AV_P11-2_1_1; 1-M1/AV_P12-1; 1-M1/AV_P12-1_1_1; 1-M1/AV_P12-2; 1-M1/AV_P12-2_1_1; 1-M1/AV_P13-1; 1-M1/AV_P13-1_1_1; 1-M1/AV_P13-2; 1-M1/AV_P13-2_1_1; 1-M1/AV_P14-1; 1-M1/AV_P14-1_1_1; 1-M1/AV_P14-2; 1-M1/AV_P14-2_1_1; 1-M1/AV_P15-1; 1-M1/AV_P15-1_1_1; 1-M1/AV_P15-2; 1-M1/AV_P15-2_1_1; 1-M1/AV_P16-1; 1-M1/AV_P16-1_1_1; 1-M1/AV_P16-2; 1-M1/AV_P16-2_1_1; 1-M1/AV_P17-1; 1-M1/AV_P17-1_1_1; 1-M1/AV_P17-2; 1-M1/AV_P17-2_1_1; 1-M1/AV_P18-1; 1-M1/AV_P18-1_1_1; 1-M1/AV_P18-2; 1-M1/AV_P18-2_1_1; 1-M1/AV_P19-1; 1-M1/AV_P19-1_1_1; 1-M1/AV_P19-2; 1-M1/AV_P19-2_1_1; 1-M1/AV_P20-1; 1-M1/AV_P20-1_1_1; 1-M1/AV_P20-2; 1-M1/AV_P20-2_1_1; 1-M1/AV_R01-1; 1-M1/AV_R01-1_1_1; 1-M1/AV_R01-2; 1-M1/AV_R01-2_1_1; 1-M1/AV_R02-1; 1-M1/AV_R02-1_1_1; 1-M1/AV_R02-2; 1-M1/AV_R02-2_1_1; 1-M1/AV_R03-1; 1-M1/AV_R03-1_1_1; 1-M1/AV_R03-2; 1-M1/AV_R03-2_1_1; 1-M1/AV_R04-1; 1-M1/AV_R04-1_1_1; 1-M1/AV_R04-2; 1-M1/AV_R04-2_1_1; 1-M1/AV_R05-1; 1-M1/AV_R05-1_1_1; 1-M1/AV_R05-2; 1-M1/AV_R05-2_1_1; 1-M1/AV_R06-1; 1-M1/AV_R06-1_1_1; 1-M1/AV_R06-2; 1-M1/AV_R06-2_1_1; 1-M1/AV_R07-1; 1-M1/AV_R07-1_1_1; 1-M1/AV_R07-2; 1-M1/AV_R07-2_1_1; 1-M1/AV_R08-1; 1-M1/AV_R08-1_1_1; 1-M1/AV_R08-2; 1-M1/AV_R08-2_1_1; 1-M1/AV_R09-1; 1-M1/AV_R09-1_1_1; 1-M1/AV_R09-2; 1-M1/AV_R09-2_1_1; 1-M1/AV_R1_E100-1; 1-M1/AV_R1_E100-1_1_1; 1-M1/AV_R1_E100-2; 1-M1/AV_R1_E100-2_1_1; 1-M1/AV_R1_E100-3; 1-M1/AV_R1_E100-3_1_1; 1-M1/AV_R1_E200-1; 1-M1/AV_R1_E200-1_1_1; 1-M1/AV_R1_E200-2; 1-M1/AV_R1_E200-2_1_1; 1-M1/AV_R1_E200-3; 1-M1/AV_R1_E200-3_1_1; 1-M1/AV_R1_E400-1; 1-M1/AV_R1_E400-1_1_1; 1-M1/AV_R1_E400-2; 1-M1/AV_R1_E400-2_1_1; 1-M1/AV_R1_E400-3; 1-M1/AV_R1_E400-3_1_1; 1-M1/AV_R1_S100-1; 1-M1/AV_R1_S100-1_1_1; 1-M1/AV_R1_S100-2; 1-M1/AV_R1_S100-2_1_1; 1-M1/AV_R1_S100-3; 1-M1/AV_R1_S100-3_1_1; 1-M1/AV_R1_S200-1; 1-M1/AV_R1_S200-1_1_1; 1-M1/AV_R1_S200-2; 1-M1/AV_R1_S200-2_1_1; 1-M1/AV_R1_S200-3; 1-M1/AV_R1_S200-3_1_1; 1-M1/AV_R1_S400-1; 1-M1/AV_R1_S400-1_1_1; 1-M1/AV_R1_S400-2; 1-M1/AV_R1_S400-2_1_1; 1-M1/AV_R1_S400-3; 1-M1/AV_R1_S400-3_1_1; 1-M1/AV_R10-1; 1-M1/AV_R10-1_1_1; 1-M1/AV_R10-2; 1-M1/AV_R10-2_1_1; 1-M1/AV_R11-1; 1-M1/AV_R11-1_1_1; 1-M1/AV_R11-2; 1-M1/AV_R11-2_1_1; 1-M1/AV_R12-1; 1-M1/AV_R12-1_1_1; 1-M1/AV_R12-2; 1-M1/AV_R12-2_1_1; 1-M1/AV_R13-1; 1-M1/AV_R13-1_1_1; 1-M1/AV_R13-2; 1-M1/AV_R13-2_1_1; 1-M1/AV_R14-1; 1-M1/AV_R14-1_1_1; 1-M1/AV_R14-

Type: Dataset

Format: text/tab-separated-values, 824638 data points

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DATA PANGAEA

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Hardsubstrate data of offshore wind farms (DanTysk, Sandbank, Horns Rev) in the North Sea (2022)

Dannheim, Jennifer ; Mavraki, Ninon ; Coolen, Joop W P ; [et al.]

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Publication Date: 2023-01-30

Description: Makrozoobenthic communties were collected at multiple at different depth of wind turbines. Samples were taken by scraping the organisms from the turbines into a net (scrape samples) by scuba divers to analyse the epifaunal communities. Samples were collected in three different wind farms: DanTysk (sampled in 2018, 2019) and Sandbank (2019) in the German exclusive economic zone (EEZ) and Horns Rev (2003-2005) in the Danish EEZ. Epifaunal community was evaluated for recording successional stages of growth on the wind turbines in different depth to cover the vertical zonation along the turbines. The data are part of the Danish monitoring data on offshore wind farms and the German Standard Investigation of the Impacts of Offshore Wind Turbines on the Marine Environment (StUK 4, published by BSH 2014). Data for each campaign comprise different turbines in the wind farms sampled by scuba divers using scrape samples. Biodiversity data of species include abundance (count data) and biomass (wet mass, g) per sample. Data were collected on behalf of Vattenfall in the framework of the mandatory monitoring. Thus we would like to thank Vattenfall who kindly provided the data for scientific independent research analysis and publication.

Keywords: Area; artificial hard substrate; benthic communities; Campaign; DATE/TIME; DEPTH, water; Event label; Gear; German Bight; Habitat; HR_3_2003; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S1a; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S1b; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S1c; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S1d; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S2a; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S2b; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S2c; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S2d; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S3a; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S3b; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S3c; HR_3_2003/HORN_T33_9.2_3/2003-T33/2003/03_9.2m_S3d; HR_3_2003/HORN_T55_0.2_3/2003-T55/2003/03_0.2m_S1; HR_3_2003/HORN_T55_0.2_3/2003-T55/2003/03_0.2m_S1_; HR_3_2003/HORN_T55_0.2_3/2003-T55/2003/03_0.2m_S2; HR_3_2003/HORN_T55_0.2_3/2003-T55/2003/03_0.2m_S2_; HR_3_2003/HORN_T55_2.2_3/2003-T55/2003/03_2.2m_S1a; HR_3_2003/HORN_T55_2.2_3/2003-T55/2003/03_2.2m_S1b; HR_3_2003/HORN_T55_2.2_3/2003-T55/2003/03_2.2m_S2a; HR_3_2003/HORN_T55_2.2_3/2003-T55/2003/03_2.2m_S2b; HR_3_2003/HORN_T55_4.2_3/2003-T55/2003/03_4.2m_S1a; HR_3_2003/HORN_T55_4.2_3/2003-T55/2003/03_4.2m_S1b; HR_3_2003/HORN_T55_4.2_3/2003-T55/2003/03_4.2m_S2a; HR_3_2003/HORN_T55_4.2_3/2003-T55/2003/03_4.2m_S2b; HR_3_2003/HORN_T55_6.2_3/2003-T55/2003/03_6.2m_S1a; HR_3_2003/HORN_T55_6.2_3/2003-T55/2003/03_6.2m_S1b; HR_3_2003/HORN_T55_6.2_3/2003-T55/2003/03_6.2m_S2a; HR_3_2003/HORN_T55_6.2_3/2003-T55/2003/03_6.2m_S2b; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1a; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1b; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1c; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1d; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1e; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S1f; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2a; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2b; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2c; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2d; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2e; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S2f; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S3a; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S3b; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S3c; HR_3_2003/HORN_T55_8.2_3/2003-T55/2003/03_8.2m_S3d; HR_3_2003/HORN_T58_1.1_3/2003-T58/2003/03_1.1m_S1a; HR_3_2003/HORN_T58_1.1_3/2003-T58/2003/03_1.1m_S1b; HR_3_2003/HORN_T58_1.1_3/2003-T58/2003/03_1.1m_S2a; HR_3_2003/HORN_T58_1.1_3/2003-T58/2003/03_1.1m_S2b; HR_3_2003/HORN_T58_3.1_3/2003-T58/2003/03_3.1m_S1a; HR_3_2003/HORN_T58_3.1_3/2003-T58/2003/03_3.1m_S1b; HR_3_2003/HORN_T58_3.1_3/2003-T58/2003/03_3.1m_S2a; HR_3_2003/HORN_T58_3.1_3/2003-T58/2003/03_3.1m_S2b; HR_3_2003/HORN_T58_5.1_3/2003-T58/2003/03_5.1m_S1a; HR_3_2003/HORN_T58_5.1_3/2003-T58/2003/03_5.1m_S1b; HR_3_2003/HORN_T58_5.1_3/2003-T58/2003/03_5.1m_S2a; HR_3_2003/HORN_T58_5.1_3/2003-T58/2003/03_5.1m_S2b; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1a; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1b; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1c; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1d; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1e; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S1f; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2a; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2b; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2c; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2d; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2e; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S2f; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S3a; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S3b; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S3c; HR_3_2003/HORN_T58_7.1_3/2003-T58/2003/03_7.1m_S3d; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S1a; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S1b; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S1c; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S1d; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S2a; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S2b; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S2c; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S2d; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S3a; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S3b; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S3c; HR_3_2003/HORN_T91_5.5_3/2003-T91/2003/03_5.5m_S3d; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S1a; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S1b; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S1c; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S1d; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S2a; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S2b; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S2c; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S3a; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S3b; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S3c; HR_3_2003/HORN_T92_5.7_3/2003-T92/2003/03_5.7m_S3d; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S1a; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S1a_1_1; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S1b; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S1b_1_1; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S2a; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S2a_1_1; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S2b; HR_3_2003/HORN_T95_0_3/2003-T95/2003/03_0m_S2b_1_1; HR_3_2003/HORN_T95_1.3_3/2003-T95/2003/03_1.3m_S1a; HR_3_2003/HORN_T95_1.3_3/2003-T95/2003/03_1.3m_S1b; HR_3_2003/HORN_T95_1.3_3/2003-T95/2003/03_1.3m_S2a; HR_3_2003/HORN_T95_1.3_3/2003-T95/2003/03_1.3m_S2b; HR_3_2003/HORN_T95_3.3_3/2003-T95/2003/03_3.3m_S1a; HR_3_2003/HORN_T95_3.3_3/2003-T95/2003/03_3.3m_S1b; HR_3_2003/HORN_T95_3.3_3/2003-T95/2003/03_3.3m_S2a; HR_3_2003/HORN_T95_3.3_3/2003-T95/2003/03_3.3m_S2b; HR_3_2003/HORN_T95_5.3_3/2003-T95/2003/03_5.3m_S1a; HR_3_2003/HORN_T95_5.3_3/2003-T95/2003/03_5.3m_S1b; HR_3_2003/HORN_T95_5.3_3/2003-T95/2003/03_5.3m_S2a; HR_3_2003/HORN_T95_5.3_3/2003-T95/2003/03_5.3m_S2b; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1a; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1b; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1c; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1d; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1e; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S1f; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2a; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2b; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2c; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2d; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2e; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S2f; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S3a; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S3b; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S3c; HR_3_2003/HORN_T95_7.3_3/2003-T95/2003/03_7.3m_S3d; HR_3_2004; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S1a; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S1b; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S1c; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S1d; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S2a; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S2b; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S2c; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S2d; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S3a; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S3b; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S3c; HR_3_2004/HORN_T33_9.2_3/2004-T33/2004/03_9.2m_S3d; HR_3_2004/HORN_T55_0.2_3/2004-T55/2004/03_0.2m_S1a; HR_3_2004/HORN_T55_0.2_3/2004-T55/2004/03_0.2m_S1b; HR_3_2004/HORN_T55_0.2_3/2004-T55/2004/03_0.2m_S2a; HR_3_2004/HORN_T55_0.2_3/2004-T55/2004/03_0.2m_S2b; HR_3_2004/HORN_T55_2.2_3/2004-T55/2004/03_2.2m_S1a; HR_3_2004/HORN_T55_2.2_3/2004-T55/2004/03_2.2m_S1b; HR_3_2004/HORN_T55_2.2_3/2004-T55/2004/03_2.2m_S2a; HR_3_2004/HORN_T55_2.2_3/2004-T55/2004/03_2.2m_S2b; HR_3_2004/

Type: Dataset

Format: text/tab-separated-values, 133418 data points

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10

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Station list and links to master tracks in different resolutions of HEINCKE cruise HE460, Bremerhaven - Bremerhaven, 2016-04-06 - 2016-04-12 (2016)

Dannheim, Jennifer

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In: Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Bremerhaven

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Publication Date: 2024-01-12

Keywords: Calculated; Course; CT; DATE/TIME; HE460; HE460-track; Heincke; LATITUDE; LONGITUDE; Speed; Underway cruise track measurements

Type: Dataset

Format: text/tab-separated-values, 2016 data points

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