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  • 1
    Call number: 13/N 16.90064
    Type of Medium: Monograph available for loan
    Pages: XXIX, 961 Seiten , Illustrationen, Diagramme
    ISBN: 9789400762398
    Series Statement: Encyclopedia of earth sciences series
    Classification:
    Oceanology
    Parallel Title: Erscheint auch als Encyclopedia of Marine Geosciences
    Language: English
    Location: Reading room
    Branch Library: GFZ Library
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  • 2
    Unknown
    Dordrecht, Heidelberg, New York, London : Springer
    Keywords: marine geology ; marine geophysics ; hydrography ; marine biology ; climatology ; ecology ; marine geosciences
    Description / Table of Contents: This Encyclopedia comprises the current knowledge in marine geosciences whereby not only basic but also applied and technical sciences are covered. Through this concept a broad scale of users in the field of marine sciences and techniques is addressed, from students and scholars in academia to engineers and decision makers in industry and politics. Globally growing demand of energy and mineral resources, reliable future projection of climate processes and the protection of coasts to mitigate the threats of disasters and hazards require a comprehensive understanding of the structure, ongoing processes and genesis of the marine geosphere. Beyond the “classical” research fields in marine geology in current time more general concepts have been evolved integrating marine geophysics, hydrography, marine biology, climatology and ecology. As an umbrella the term “marine geosciences” has been broadly accepted for this new complex field of research and the solutions of practical tasks in the marine realm.
    Pages: Online-Ressource (XXXIII, 961 Seiten)
    ISBN: 9789400762381
    Language: English
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  • 3
    Publication Date: 2023-02-12
    Description: In this dataset, seven inactive massive sulfide chimneys, collected in the Manus Basin (Bismarck Sea, Papua New Guinea, SW Pacific) during SONNE cruise SO216 in 2011, are characterized with respect to mineralogical and geochemical composition as well as age. The samples originate from the PACManus (Snowcap, Fenway, Satanic Mills, Solwara 6, Solwara 8) and SuSu Knolls (North Su) hydrothermal vent fields that emit highly sulfidic fluids and feature poly-metallic sulfide chimneys and mounds. They were collected by the ROV QUEST (Marum Bremen) with the ROV's hydraulic arm. Ore petrology was performed on polished thin sections and shows that the chimneys were mainly composed of chalcopyrite (CuFeS₂), pyrite/marcasite (FeS₂), sphalerite (Zn(Fe)S), and bornite (Cu₅FeS₄) with a suite of other minor to rare minerals. The bulk geochemistry of the samples was determined on representative samples (several tens to hundreds of grams) by a combination of methods including ICP-OES, ICP-MS and Instrumental Neutron Activation. Some samples show elevated As-and Pb-concentrations (up to 3.2 wt.% As; up to 2.0 wt.% Pb), which is also reflected in the presence of tennantite and galena as well as other sulfosalts in thin sections. Five of the seven collected inactive chimney samples were dated using the ²²⁶Ra/Ba method. The youngest, yet clearly inactive sample was StM-R2 (Satanic Mills; 0 y ± 160 y) followed by Fw-R1 (Fenway; 1400 y ± 160 y), Sol8-R1 (Solwara 8; 1800 y ± 160 y) and Sol6-R1 (Solwara 6; 2093 y ± 267 y). The oldest dated chimney was NSu-R7 (North Su; 3183 y ± 236 y). The chimney samples were part of a study, in which 16S rRNA gene based community profiling of active (n=6) and inactive (n=7) sulfide chimneys from the Manus Basin (SW Pacific) was conducted. The diversity information in combination with radiometric dating was used to select a subset of inactive sulfide chimneys of different age for functional analyses on metagenomic (n=4) and metaproteomic (n=1) level.
    Keywords: Age; AGE; Age, range; Antimony; Arsenic; BAMBUS; Barium; Bismarck Sea; Bismuth; Cadmium; Calcium; Chromium; Cobalt; Copper; DEPTH, water; Description; Event label; Gallium; Germanium; Gold; hydrothermal vent; Indium; Iron; LATITUDE; Lead; LONGITUDE; Manganese; Mercury; mineral weathering; Molybdenum; Name; Nickel; Oxygen; Radium-226, standard deviation; Radium-226/Barium activity ratio; Radium-226/Barium activity ratio, standard deviation; Radium-226 activity per mass; Remote operated vehicle; ROV; Sample ID; Sample type; Selenium; Silicon dioxide; Silver; SO216; SO216-27-1; SO216-29-1; SO216-31-1; SO216-43-1; SO216-47-1; SO216-49-1; SO216-53-1; Sonne; Status; Strontium; Sulfur, elemental; sulphide chimney; Tellurium; Tin; Titanium; Zinc
    Type: Dataset
    Format: text/tab-separated-values, 267 data points
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  • 4
    Publication Date: 2023-05-12
    Keywords: Area/locality; Conductivity, average; Depth, bottom/max; ELEVATION; Heat flow; LATITUDE; LONGITUDE; Method comment; Number; Sample, optional label/labor no; Temperature gradient
    Type: Dataset
    Format: text/tab-separated-values, 96 data points
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  • 5
    Publication Date: 2023-10-28
    Keywords: DERIDGE; From Mantle to Ocean: Energy-, Material- and Life-cycles at Spreading Axes; LATITUDE; Latitude 2; Logatchev_Hydrothermal_Field; LONGITUDE; Longitude 2; Mid-Atlantic Ridge at 10-15°N; MULT; Multiple investigations; Name; Uniform resource locator/link to image
    Type: Dataset
    Format: text/tab-separated-values, 32 data points
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  • 6
    Publication Date: 2023-10-05
    Description: Swath sonar bathymetry data of the AUV ABYSS (GEOMAR) was recorded during RV POSEIDON cruise POS510 in March 2017 for the project "ANYDROS: Rifting and Hydrothermal Activity in the Cyclades Back-arc Basin". Chief Scientist was Prof. Mark Hannington from GEOMAR Helmholtz Centre for Ocean Research Kiel. The cruise took place between 2017-03-06 and 2017-03-29 in the Mediterranean Sea near Santorini, Greece. The cruise report is available under the following url: https://oceanrep.geomar.de/id/eprint/44466 The data was acquired during seven AUV dives at Kolumbo Seamount (NE of Santorini Island) by AUV ABYSS using a Kongsberg RESON Seabat 7125 Multibeam system run with a frequency of 200 kHz. Data were manually edited for false measurements in the software Qimera. No further artificial sound velocity profiles were used during processing. The data of the individual dives was combined, gridded at 2m resolution and the midpoints exported as txt-file with Latitude and Longitude provided in WGS84 datum and depth with negative values.
    Keywords: Aegean Sea; Autonomous underwater vehicle; AUV; AUV ABYSS; Bathymetry; Binary Object; Binary Object (File Size); Binary Object (Media Type); Elevation, maximum; Elevation, minimum; Extracted from file; File content; Horizontal datum; Horizontal datum, projection stored in file; Kolumbo Seamount; Latitude, northbound; Latitude, southbound; Longitude, eastbound; Longitude, westbound; Mediterranean; Multibeam Echosounder; POS510; POS510_0_Underway-1; POS510_30-1; POS510_35-1; POS510_46-1; POS510_53-1; POS510_71-1; POS510_82-1; POS510_94-1; Poseidon; Raster cell size; Vertical datum
    Type: Dataset
    Format: text/tab-separated-values, 21 data points
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  • 7
    Publication Date: 2023-09-23
    Keywords: CT; File content; File size; M86/4; M86/4-track; Mediterranean Sea; Meteor (1986); Underway cruise track measurements; Uniform resource locator/link to file
    Type: Dataset
    Format: text/tab-separated-values, 9 data points
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  • 8
    Publication Date: 2024-01-06
    Description: A total of fifteen missions of the autonomous underwater vehicle (AUV) Abyss was performed in June 2016 over the TAG hydrothermal field as part of the EU-funded project Blue Mining. Each dive lasted a few hours and recorded information for a number of sensors including ADCP (RDI Teledyne Model WHN300 S/N), CTD (Seabird SBE49FastCAT), ECO (=combined fluorometer and turbidity senso; Wetlabs FLNTU/0712017), REDOX-sensor (Eh-sensor by Ko-Ichi Nakamura from AIST, South Korea) . The sensor data is recorded in separate files for each dive. The vehicles performance under water and core functions (roll, pitch, heading, power use, and many others) are recorded in the STATE file of each dive. Additionally magnetometer and passive electric field data is recorded for each dive. The processed magnetic data grids are provided under https://doi.org/10.1594/PANGAEA.899415. The processed electric anomaly data in longitudinal direction (along the flight path) and transverse direction (perpendicular to the flight direction) is provided in separate data sets. For two missions the electrical field data has been measured at three different altitudes (average elevations of 35 m, 60 m and 90 m) above the seafloor. These three different altitudes (high-res, intermediate res, and low-res) are provided as different data sets for those two dives.
    Keywords: BlueMining; Breakthrough Solutions for Mineral Extraction and Processing in Extreme Environment – Blue Mining
    Type: Dataset
    Format: application/zip, 32 datasets
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  • 9
    Publication Date: 2023-12-06
    Description: We compared Centroid Moment Tensors (CMTs), calculated for large (Mw 〉5), shallow (〈30 km) seismic events to the orientations of seafloor lineaments (n = 4000) mapped throughout the Lau Basin, in the SW Pacific. Ship-based multibeam was combined with vertical gravity gradient data to provide comprehensive coverage to create the lineament map. By comparing the possible focal planes of the CMTs to the orientations of the lineaments, the most likely fault plane solutions were selected, thus classifying the faults and establishing the nature of the highly variable stress regimes in the basin. We resolved the strike, dip and dip direction of 308 faults, and classified 258 additional structures by fault type. The majority of the table was data downloaded from the Global Centroid Moment Tensor (GCMT) database (www.globalcmt.org: accessed October 2018). For more details about the column headers consult the GCMT database website. New data from this study include the latitude and longitude error estimates (in meters), the classified faults (column: 'fault_type'), and the stress domain (column: 'stress_domain'), allocated to each of the classified faults.
    Keywords: Area/locality; B010186B; B010285E; B010484C; B010783C; B010783E; B010903A; B011101E; B011398E; B011498H; B011683A; B011694B; B011694F; B011700C; B011700E; B011777B; B011800B; B012099A; B012300F; B012300I; B012385B; B012598A; B012699D; B012999A; B020201E; B020487B; B020494A; B020796B; B020901A; B021298F; B021581B; B021587A; B021696B; B022093C; B022102F; B022387C; B022491B; B022503C; B022689B; B022787B; B030395E; B030601B; B030880A; B030894B; B031198D; B031293F; B031387A; B031387B; B031387E; B031393C; B031481A; B031487C; B031692A; B031992C; B031998A; B032003A; B032103D; B032377B; B032377C; B032377D; B032596A; B032682D; B032780A; B032780B; B032786A; B032882D; B032893B; B032982B; B032986B; B033002A; B033091A; B040691B; B040980A; B040991B; B041083C; B041201E; B041586A; B041780A; B041991C; B042088C; B042186A; B042294B; B042585D; B042700A; B042800B; B042879B; B042890B; B042979A; B050186A; B050198A; B050280D; B050392A; B050601C; B051486G; B051802C; B051981B; B052102D; B053179B; B060583A; B060598C; B060790C; B061186B; B061382A; B061479B; B061481A; B061492F; B061699D; B061797B; B061895B; B061895C; B062392E; B062502B; B062601M; B070188A; B070188B; B070689A; B070900A; B071684B; B071789A; B071997B; B072202A; B072602B; B072603D; B073101E; B080178A; B080497D; B080586A; B080586B; B080799A; B081087A; B081095B; B081286A; B081295A; B081299A; B081388C; B081694H; B081696C; B081696F; B082185A; B082290B; B082486A; B082486C; B082500A; B082577A; B082603B; B082686B; B082788B; B082790A; B082903B; B082995B; B083195C; B090684A; B090695A; B090882C; B091081A; B091377A; B091395C; B091799C; B091899D; B092097G; B092390A; B092492E; B092497C; B092688E; B092695A; B092995A; B093082A; B100179B; B100285B; B100295B; B100482B; B100684A; B100696A; B101303E; B101384A; B101501A; B101802D; B101802E; B101982A; B102287E; B102290A; B102677A; B102677B; B102885C; B103093C; B103100E; B110187C; B110499B; B110598F; B110796A; B111082A; B111382A; B111494B; B111596B; B111696C; B111696F; B111784G; B111796C; B111796E; B111797A; B111997B; B112090C; B112479A; B113087B; B113088B; B120386A; B120491A; B120696E; B120796A; B120888A; B120888B; B121286A; B121286C; B121386A; B121985A; B122190A; B122285A; B122285B; B122383A; B122387A; B122791B; B122998A; back-arc basins; Body wave magnitude; Body waves, components; Body waves, shortest period; Body waves, stations; C010987B; C011298J; C011498E; C012204A; C020399A; C020991A; C021393D; C022304C; C022304E; C022490A; C030693G; C030799E; C031293D; C031387F; C032004G; C032504E; C041704C; C041793C; C051504D; C051583A; C061404A; C070278A; C080497C; C080897C; C082997B; C090382E; C091400B; C091783C; C092304C; C100480A; C101104F; C101302A; C101804A; C103100F; C110892B; C111004D; C112304C; C120301A; C121804G; C200502181525A; C200503132233A; C200504261133A; C200504261856A; C200505051011A; C200505111540A; C200507310419A; C200508071135A; C200508071354A; C200508071441A; C200508221648A; C200509041213A; C200510191410A; C200510291633A; C200512071934A; C200512130316A; C200512130732A; C200512161433A; C200512201148A; C200601290826A; C200602061134A; C200602260418A; C200603020747A; C200603051712A; C200603140529A; C200603171946A; C200603191254A; C200604031604A; C200604032027A; C200604251512A; C200604300703A; C200605211757A; C200606031326B; C200606131540A; C200606151715A; C200606151810A; C200606232150A; C200606270836A; C200606281322A; C200607020257A; C200607031949A; C200607041259A; C200608111807A; C200608111841A; C200608112020A; C200611061053A; C200611061124A; C200611210112A; C200611241711A; C200701160153A; C200702031647A; C200702050956A; C200702051016A; C200702051019A; C200703270803B; C200704050246A; C200704050325A; C200704130150A; C200705030630A; C200706140529A; C200706192036A; C200706231914A; C200706231920A; C200706231935A; C200706232102A; C200706232152A; C200706241015A; C200706260801A; C200707020054A; C200707090650A; C200707170939A; C200707180007A; C200707182351A; C200707191933A; C200707270351A; C200708222224A; C200709101004A; C200709140546A; C200709160010A; C200709180610A; C200709302011A; C200710050352A; C200710050417A; C200710300458A; C200711231222A; C200711231237A; C200712150246A; C200801201630A; C200801220009A; C200801220628A; C200801220755A; C200801221049A; C200801231220A; C200801240250A; C200801271528A; C200801302347A; C200801310152A; C200802011026A; C200802112320A; C200802141905A; C200803161956A; C200804151724A; C200804160035A; C200804251844A; C200806200424A; C200807221851A; C200807231255A; C200807231324A; C200807231354A; C200808141242A; C200808141510A; C200808240100A; C200809010531A; C200809010706A; C200809011032A; C200810030834A; C200810092308A; C200810232336A; C200810240058A; C200811201758A; C200901300347A; C200902080724A; C200902110931A; C200903070941A; C200903241813A; C200904142237A; C200904142329A; C200905110526A; C200905260049A; C200907020806A; C200907101604A; C200907211507A; C200908070242A; C200908070334A; C200908071734A; C200909210606A; C200910011739A; C200910011821A; C200910011840A; C200910031402A; C200910031410A; C200910051852A; C200910071310A; C200910141800A; C200910271201A; C200910281955A; C200911050600A; C200911050604A; C200911050611A; C200911291033A; C200912262123A; C200912291202A; C201001131621A; C201001131649A; C201001131651A; C201001171046A; C201002071312A; C201002071359A; C201002150529A; C201003280207A; C201003280251A; C201004042028A; C201007041338A; C201007041613A; C201007171620A; C201008300444A; C201009071249A; C201009071613A; C201009291225A; C201012011601A; C201012182224A; C201012201743A; C201012210736A; C201101211711A; C201101241331A; C201102031113A; C201102280224A; C201103262249A; C201103280847A; C201103310011A; C201103310259A; C201103310744A; C201103311631A; C201103311709A; C201104240601A; C201105021321A; C201105021922A; C201105171035A; C201105180810A; C201105240853A; C201105241630A; C201105300006A; C201106051635A; C201106051656A; C201106192126A; C201106280707A; C201107051902A; C201107061011A; C201107061344A; C201107061446A; C201107101847A; C201107102029A; C201107110054A; C201108030320A; C201108201027A; C201109222307A; C201109230901A; C201110280447A; C201110280913A; C201111130624A; C201111190541A; C201111190706A; C201112140048A; C201201041345A; C201201041804A; C201201041854A; C201201081951A; C201201082004A; C201201090006A; C201202220426A; C201202220804A; C201202221003A; C201202240202A; C201202260246A; C201202260508A; C201202260521A; C201202261117A; C201202261212A; C201202261349A; C201202261613A; C201202261628A; C201202261919A; C201202261937A; C201202270135A; C201202270301A; C201202270711A; C201202271434A; C201202271454A; C201203122148A; C201203192346A; C201203300618A; C201203312252A; C201205041758A; C201205051118A; C201205132246A; C201206041418A; C201206070023A; C201206170638A; C201206190036A; C201207060040A; C201207110357A; C201207230328A; C201208030508A; C201208030722A; C201208031945A; C201208100642A; C201208192054A; C201208200048A; C201208200215A; C201209271131A; C201209271139A; C201210121510A; C201210132236A; C201210220032A; C201210301059A; C201211032259A; C201211132323A; C201211220619A; C201211281016A; C201212120144A; C201212141652A; C201212271531A; C201301020819A; C201301031649A; C201301291329A; C201302152120A; C201302250259A; C201302250356A; C201304120048A; C201304262010A; C201305060733A; C201305310334A; C201306181313A; C201306301513A; C201307090124A; C201307290812A; C201309081000A; C201311141415A; C201312111809A; C201312151451A; C201401210129A; C201401220341A; C201401231209A; C201401261039A; C201401300446A; C201402230216A; C201402231654A; C201402231700A; C201402240119A; C201403070557A; C201403161115A; C201403281437A; C201403281454A; C201404250841A; C201405020746A; C201405131005A; C201405180058A; C201405180246A; C201405180638A; C201406062306A; C201406081108A; C201406091119A; C201406291552A; C201406291715A; C201406291824A; C201407041130A; C201407101732A; C201407212144A; C201408141846A; C201408271631A; C201409280623A; C201410051716A; C201410192047A; C201410201315A; C201410240452A; C201410280044A; C201410280315A; C201411051813A; C201411240417A;
    Type: Dataset
    Format: text/tab-separated-values, 42372 data points
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  • 10
    Publication Date: 2024-02-02
    Description: A total of fifteen missions of the autonomous underwater vehicle (AUV) Abyss was performed in June 2016 over the TAG hydrothermal field as part of the EU-funded project Blue Mining. Each dive lasted a few hours and recorded information for a number of sensors including ADCP (RDI Teledyne Model WHN300 S/N), CTD (Seabird SBE49FastCAT), ECO (=combined fluorometer and turbidity senso; Wetlabs FLNTU/0712017), REDOX-sensor (Eh-sensor by Ko-Ichi Nakamura from AIST, South Korea) . The sensor data is recorded in separate files for each dive. The vehicles performance under water and core functions (roll, pitch, heading, power use, and many others) are recorded in the STATE file of each dive. Additionally magnetometer and passive electric field data is recorded for each dive.
    Keywords: ADCP data; Autonomous underwater vehicle; AUV; AUV underway data; Binary Object; Binary Object (File Size); Binary Object (Media Type); BlueMining; Breakthrough Solutions for Mineral Extraction and Processing in Extreme Environment – Blue Mining; CTD data; Description; M127; M127_623-1; Meteor (1986); Redox potential; TAG_field; turbidity
    Type: Dataset
    Format: text/tab-separated-values, 10 data points
    Location Call Number Expected Availability
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