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Physical oceanography measured on water bottle samples during DISCOVERY cruise D190 (2014)

Leach, Harry

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Publication Date: 2024-03-23

Keywords: 12021#1; 12024#1; 12026#1; 12028#1; 12029#1; 12033#1; 12034#1; 12038#1; 12040#1; 12041#1; 12042#1; 12044#1; 12046#1; 12047#1; 12048#1; 12050#1; 12052#1; Attenuation, optical beam transmission; Biogeochemical Ocean Flux Study; BOFS; Chlorophyll total; CTD/Rosette; CTD-RO; D190; Date/Time of event; Density, sigma-theta (0); DEPTH, water; DI190_12021#1; DI190_12024#1; DI190_12026#1; DI190_12028#1; DI190_12029#1; DI190_12033#1; DI190_12034#1; DI190_12038#1; DI190_12040#1; DI190_12041#1; DI190_12042#1; DI190_12044#1; DI190_12046#1; DI190_12047#1; DI190_12048#1; DI190_12050#1; DI190_12052#1; Discovery (1962); Event label; Irradiance, downward PAR; Irradiance, upward PAR; JGOFS; Joint Global Ocean Flux Study; Latitude of event; Longitude of event; Oxygen; Oxygen, Winkler (Culberson, 1991, WOCE Report 68/91); Salinity; Salinometer, inductive; Temperature, water

Type: Dataset

Format: text/tab-separated-values, 524 data points

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(Supplement) List of species sampled over Maud Rise in summer 2007/2008 (2011)

Brandt, Angelika ; Bathmann, Ulrich ; Brix, Saskia ; [et al.]

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Publication Date: 2024-03-23

Keywords: Acrocirrus sp.; Aegina citrea; Alluroteuthis antarcticus; Ammotrypanella arctica; Ampharetidae; Anobothrus gracilis; Anobothrus patagonicus; Antennuloniscus cf. ornati; ANT-XXIV/2; Appendicularia; Aricidea antarctica; Atolla wyvillei; Austroniscus sp.; Axinulus sp.; Axiokebuita minuta; Balaenoptera bonaerensis; Bathylagus antarcticus; Belalora striatula; Beroe cucumis; Beroe forskalli; Betamorpha cf. africana; Betamorpha fusiformis; Boreomysis bispinosa; Botrynema brucei; Calanoides acutus; Calanus propinquus; Calanus simillimus; Callianira antarctica; Calycopsis borchgrevinki; Catharacta maccormicki; cf. Eurycope sp.; cf. Ilyarachna antarctica; cf. Leptanthura cf. polaris; cf. Munneurycope antarctica; cf. Munneurycope sp.; cf. Paradoneis abranchiata; cf. Pherusa sp.; cf. Polycirrus sp.; cf. Sosane sp.; Chauliodoniscus sp.; Chuniphyes moserae; Cirratulidae; Clausocalanus laticeps; Clione antarctica; Clio piatkowskii; Clio pyramidata; Conorbela antarctica; Conorbela sp.; Crossota brunnea; Cryptonoscium sp.; Ctenocalanus spp.; Cunina duplicata; Cuspicaria sp.; Cuspidaria infelix; Cuvierina columnella forma atlantica; Cyclothone microdon; Cyllopus lucasi; Cyphocaris faurei; Cyphocaris richardi; Dacrydium albidum; Dacrydium sp.; Daption capense; Depth, bottom/max; Depth, top/min; Device type; Dimophyes arctica; Diphyes antarctica; Disconnectes sp.; Dorvilleidae; Electrona antarctica; Ennucula eltanini; Eteone sp.; Euchaetomera sp.; Euchirella rostromagna; Eucopia grimaldii; Eudoxoides sp.; Eukrohnia bathyantarctica; Eukrohnia bathypelagica; Eukrohnia hamata; Eunicidae; Euphausia superba; Euphysa sp.; Eurycope cf. glabra; Eusirus laticarpus; Eusirus microps; Exiliniscus sp.; Fabricia sp.; Flabelligella sp.; Fulmarus glacialoides; Gaidius tenuispinus; Genaxinus debilis; Gilia reticulata; Glycera kerguelensis; Halicreas minimum; Haloptilus oxycephalus; Haplomunna sp.; Haploniscus cf. cucullus; Heterorabdus austrinus; Hydrurga leptonyx; Hymenodora gracilis; Hyperia macrocephala; Hyperia medusarum; Hyperiella antarctica; Hyperiella dilatata; Hyperoche capucinus; Hyperoche medusarum; Ihlea racovitzai; Ilyarachna sp.; Ischnomesidae; Ischnomesus sp.; Jasmineira crumenifera; Jasmineira sp.; Kellia simulans; Kelliella sirenkoi; Kondakovia longimana; Lanceola clausi; Lanceola loveni; Lanceola serrata; Leitoscoloplos sp.; Leodamas sp.; Limacina helicina; Lissotesta strebeli; Lobodon carcinophagus; Lothia coppingeri; Lumbrineris magalhaensis; Lysianassidae; Macronectes giganteus; Macrostylis sp.; Macrouridae; Maldanidae; Marrus antarcticus; Marseniopsis sp.; Maud Rise; Metamysidopsis swifti; Metridia gerlachei; Microcalanus sp.; Micropodarke sp.; Mictosoma sp.; Mirabilicoxa sp.; Mode of life; MULT; Multiple investigations; Munna sp.; Myriochele heeri; Natatolana cf. intermedia; Nematocarcinus sp.; Neojaera sp.; Notolepis coatsi; Notomastus (Clistomastus) lineatus; Oceanites oceanicus; Oikopleura sp.; Oithona similis; Oligobregma collare; Oligobregma quadrispinosa; Ommatophoca rossi; Oncaea spp.; Onoba subantarctica wilkesiana; Ophelina ammotrypanella; Ophelina breviata; Ophelina cylindricaudata; Ophelina nematoides; Ophelina sp.; Ophiodromus aff. comatus; Ophryotrocha sp.; Oplophoridae; Orbiniidae; Ostracoda; Pagodroma nivea; Pandea rubra; Pantachogon scotti; Paraeuchaeta antarctica; Paralabidocera antarctica; Paramphinome australis; Paramphinome sp.; Paramunna sp.; Parasyllidea; Pelagobia longicirrata; Periphylla periphylla; Phelloderma sp.; Philobrya sp.; Pholoe sp.; Phyllodoce sp.; Pisces, larvae; Polarstern; Polygordiidae; Polymastia invaginata; Polymastia sp.; Polyodontidae; Primno macropa; Prionospio sp.; Protopelagonemertes hubrechti; PS71/MR; PS71 ANDEEP-SYSTCO SCACE; Pseudoscalibregma bransfieldium; Psychrotheutis glacialis; Pygoscelis adeliae; Pyrostephos vanhoeffeni; Radiella antarctica; Rhincalanus gigas; Rhynchonereella bongraini; Sagitta gazellae; Sagitta marri; Sagitta maxima; Sample amount; Scaphander sp.; Scaphocalanus farrani; Scaphopoda; Scina antarctica; Scolecitricella ovata; Siriella sp.; Sphaerosyllis joinvillensis; Spionidae; Spongiobranchaea australis; Stephos longipes; Sterna paradisaea; Stylomesus sp.; Syllidae; Tentorium semisuberites; Terebellides sp.; Thalassoica antarctica; Thylakogaster sp.; Thysanoessa macrura; Toledonia striata; Tomopteridae; Tomopteris carpenteri; Tomopteris sp.; Travisiopsis levinseni; Typhloscolex muelleri; Vanadis antarctica; Vesicomya sirenkoi; Vibilia armata; Vogtia serrata; Vogtia spinosa; Yoldiella antarctica; Yoldiella ecaudata; Yoldiella oblonga; Yoldiella sabrina; Yoldiella sp.

Type: Dataset

Format: text/tab-separated-values, 2008 data points

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Species abundance and water and sediment characteristics for three ANDEEP stations on Maud Rise and the Weddell Sea (2011)

Brandt, Angelika ; Bathmann, Ulrich ; Brix, Saskia ; [et al.]

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In: Supplement to: Brandt, Angelika; Bathmann, Ulrich; Brix, Saskia; Cisewski, Boris; Flores, Hauke; Göcke, C; Janussen, Dorte; Krägefsky, Sören; Kruse, Svenja; Leach, Harry; Linse, Katrin; Pakhomov, Evgeny A; Peeken, Ilka; Riehl, Torben; Sauter, Eberhard-Jürgen; Sachs, Oliver; Schüller, M; Schrödl, M; Schwabe, E; Strass, Volker H; van Franeker, Jan Andries; Wilmsen, Markus (2011): Maud Rise - a snapshot through the water column. Deep Sea Research Part II: Topical Studies in Oceanography, 58(19-20), 1962-1982, https://doi.org/10.1016/j.dsr2.2011.01.008

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Publication Date: 2024-03-23

Description: The benthic fauna was investigated during the expedition ANT-XXIV/2 (2007/08) in relation to oceanographic features, biogeochemical properties and sediment characteristics, as well as the benthic, pelagic and air-breathing fauna. The results document that Maud Rise (MR) differs distinctly from surrounding deep-sea basins investigated during previous Southern Ocean expeditions (ANDEEP 2002, 2005). Considering all taxa, the overall similarity between MR and adjacent stations was low (~20% Bray-Curtis-Similarity), and analyses of single taxa show obvious differences in species composition, abundances and densities. The composition and diversity of bivalves of MR are characterised by extremely high abundances of three species, especially the small sized Vesicomya spp. Exceptionally high gastropod abundance at MR is due to the single species Onoba subantarctica wilkesiana, a small brooder that may prey upon abundant benthic foraminiferas. The abundance and diversity of isopods also show that one family, Haplomunnidae, occurs with a surprisingly high number of individuals at MR while this family was not found at any of the 40 bathyal and abyssal ANDEEP stations. Similarly, polychaetes, especially the tube-dwelling, suspension-feeder fraction, are represented by species not found at the comparison stations. Sponges comprise almost exclusively small specimens in relatively high numbers, especially a few species of Polymastiidae. Water-column sampling from the surface to the seafloor, including observations of top predators, indicate the existence of a prospering pelagic food web. Local concentrations of top predators and zooplankton are associated with a rich ice-edge bloom located over the northern slope of MR. There the sea ice melts, which is probably accelerated by the advection of warm water at intermediate depth. Over the southern slope, high concentrations of Antarctic krill (Euphausia superba) occur under dense sea ice and attract Antarctic Minke Whales (Balaenoptera bonaerensis) and several seabird species. These findings suggest that biological prosperity over MR is related to both oceanographic and sea-ice processes. Downward transport of the organic matter produced in the pelagic realm may be more constant than elsewhere due to low lateral drift over MR.

Keywords: AWI; Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas; SPP1158

Type: Dataset

Format: application/zip, 7 datasets

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Physical oceanography and processed 2 minutes-averaged continuous VM-ADCP profiles during POLARSTERN cruise ANT-XXVIII/3 (2016)

Strass, Volker H ; Leach, Harry ; Prandke, Hartmut ; [et al.]

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In: Supplement to: Strass, Volker H; Leach, Harry; Prandke, Hartmut; Donnelly, Matthew; Bracher, Astrid; Wolf-Gladrow, Dieter A (2016): The physical environmental conditions for biogeochemical differences along the Antarctic Circumpolar Current in the Atlantic Sector during late austral summer 2012. Deep Sea Research Part II: Topical Studies in Oceanography, 20 pp, https://doi.org/10.1016/j.dsr2.2016.05.018

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Publication Date: 2024-03-23

Description: The physical and biological carbon pumps in the different hydrographic and biogeochemical regimes of the Atlantic Sector of the Southern Ocean are controlled by a series of coupled physical, chemical and biological processes and a project named Eddy-Pump was designed to study them. The Eddy Pump field campaign was carried out during RV Polarstern Cruise ANT-XXVIII/3 between January and March 2012. Particular emphasis was laid on the differences which occur along the axis of the Antarctic Circumpolar Current (ACC) with its associated mesoscale eddy field. The study sites were selected in order to represent (1) the central ACC with its regular separation in different frontal jets, investigated by a meridional transect along 10°E; (2) a large-scale bloom west of the Mid-Atlantic Ridge which lasted several months with conspicuous chlorophyll-poor waters to its immediate east studied by a three-dimensional mesoscale survey centred at 12°40'W; and (3) the Georgia Basin north of the island of South Georgia, which regularly features an extended and dense phytoplankton bloom, was investigated by a mesoscale survey centred at 38°12'W. While Eddy-Pump represents an interdisciplinary project by design, we here focus on describing the variable physical environment within which the different biogeochemical regimes developed. For describing the physical environment we use measurements of temperature, salinity and density, of mixed-layer turbulence parameters, of dynamic heights and horizontal current vectors, and of flow trajectories obtained from surface drifters and submerged floats. This serves as background information for the analyses of biological and chemical processes and of biogeochemical fluxes addressed by other papers in this issue. The section along 10°E between 44°S and 53°S showed a classical ACC structure with well-known hydrographic fronts, the Subantarctic Front (SAF) at 46.5°S, the Antarctic Polar Front (APF) split in two, at 49.25°S and 50.5°S, and the Southern Polar Front (SPF) at 52.5°S. Each front was associated with strong eastward flows. The West Mid-Atlantic Ridge Survey showed a weak and poorly resolved meander structure between the APF and the SPF. During the first eight days of the survey the oceanographic conditions at the Central Station at 12°40'W remained reasonably constant. However after that, conditions became more variable in the thermocline with conspicuous temperature inversions and interleavings and also a decrease in temperature in the surface layer. At the very end of the period of observation the conditions in the thermocline returned to being similar to those observed during the early part of the period with however the mixed layer temperature raised. The period of enhanced thermohaline variability was accompanied by increased currents. The Georgia Basin Survey showed a very strong zonal jet at its northern edge which connects to a large cyclonic meander that itself joins an anticyclonic eddy in the southeastern quadrant. The water mass contrasts in this survey were stronger than in the West Mid-Atlantic Ridge Survey, but similar to those met along 10°E with the exception that the warm and saline surface water typical of the northern side of the SAF was not covered by the Georgia Basin Survey. Mixed layers found during Eddy-Pump were typically deep, but varied between the three survey areas; the mean depths and standard variations of the mixed layer along the 10°E were 77.2±24.7 m, at the West Mid-Atlantic Ridge 66.7±17.7 m, and in the Georgia Basin 36.8±10.7 m.

Keywords: AWI_PhyOce; Physical Oceanography @ AWI

Type: Dataset

Format: application/zip, 2 datasets

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Bathymetry along track line of CHARLES DARWIN cruise 74AB59_1 (2006)

Leach, Harry

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In: Natural Environment Research Council

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Publication Date: 2024-03-23

Keywords: 74AB59_1; 74AB59_1-track; CD59; Charles Darwin; CT; DATE/TIME; Depth, bathymetric; Echosounder, 10 kHz; LATITUDE; LONGITUDE; Sample method; Underway cruise track measurements; WOCE; World Ocean Circulation Experiment

Type: Dataset

Format: text/tab-separated-values, 120166 data points

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(Table 5) Sponge species abundance for three ANDEEP stations on Maud Rise and the Weddell Sea (2011)

Brandt, Angelika ; Bathmann, Ulrich ; Brix, Saskia ; [et al.]

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Publication Date: 2024-03-23

Keywords: ANT-XXII/3; ANT-XXIV/2; Asbestopluma belgicae; Asbestopluma cf. callithrix; Asbestopluma sp.; Clathria (Axosuberites) flabellata; Date/Time of event; EBS; Epibenthic sledge; Event label; Farrea sp.; Latitude of event; Longitude of event; Phelloderma sp.; Polarstern; Polymastia invaginata; Polymastia sp.; PS67/059-5; PS67/078-9; PS67 ANDEEP 3; PS71/039-17; PS71 ANDEEP-SYSTCO SCACE; Radiella antarctica; South Atlantic Ocean; Tentorium semisuberites

Type: Dataset

Format: text/tab-separated-values, 30 data points

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Processed 2 minutes-averaged continuous VM-ADCP (vessel-mounted Acoustic Doppler Current Profiler) profiles during POLARSTERN cruise ANT-XXVIII/3 (2016)

Strass, Volker H ; Leach, Harry ; Prandke, Hartmut ; [et al.]

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Publication Date: 2024-03-23

Description: This data set was obtained during the R. V. POLARSTERN cruise ANT-XXVIII/3. Current velocities were measured nearly continuously when outside territorial waters along the ship's track with a vessel-mounted TRD Instruments' 153.6-kHz Ocean Surveyor ADCP. The transducers were located 11 m below the water line and were protected against ice floes by an acoustically transparent plastic window. The current measurements were made using a pulse of 2s and vertical bin length of 4 m. The ship's velocity was calculated from position fixes obtained by the Global Positioning System (GPS). Heading, roll and pitch data from the ship's gyro platforms and the navigation data were used to convert the ADCP velocities into earth coordinates. Accuracy of the ADCP velocities mainly depends on the quality of the position fixes and the ship's heading data. Further errors stem from a misalignment of the transducer with the ship's centerline. The ADCP data were processed using the Ocean Surveyor Sputum Interpreter (OSSI) software developed by GEOMAR Helmholtz-Zentrum für Ozeanforschung Kiel. The averaging interval was set to 120 seconds. The reference layer was set to bins 5 to 16 avoiding near surface effects and biases near bin 1. Sampling interval setting: 2s; Number of bins: 80; Bin length: 4m; Pulse length: 4m; Blank beyond transmit length: 4m. Data processing setting: Top reference bin: 5; Bottom reference bin: 16; Average: 120s; Misalignment amplitude: 1.0276 +/- 0.1611, phase: 0.8100 +/- 0.7190. The precision for single ping and 4m cell size reported by TRDI is 0.30m/s. Resulting from the single ping precision and the number of pings (most of the time 36) during 120seconds the velocity accuracy is nearly 0.05m/s. (Velocity accuracy = single ping precision divided by square root of the number of pings).

Keywords: Acoustic Doppler Current Profiling (ADCP), TRDI Ocean Surveyor, 153.6 kHz; ANT-XXVIII/3; AWI_PhyOce; CT; Current velocity, east-west; Current velocity, north-south; DATE/TIME; DEPTH, water; LATITUDE; LONGITUDE; Physical Oceanography @ AWI; Polarstern; PS79; PS79/3-track; Quality; South Atlantic Ocean; Underway cruise track measurements

Type: Dataset

Format: text/tab-separated-values, 9807327 data points

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Continuous meteorological surface measurement during CHARLES DARWIN cruise 74AB59_1 (2006)

Leach, Harry ; WOCE Surface Meteorology Data, WOCEMET

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In: British Oceanographic Data Center

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Publication Date: 2024-03-23

Keywords: 74AB59_1; 74AB59_1-track; ALTITUDE; CD59; Charles Darwin; CT; DATE/TIME; Didcot cosine collector PAR sensor; Irradiance sensor (Kipp & Zonen); LATITUDE; LONGITUDE; Long-wave downward radiation; Propeller-vane anemometer; Psychrometer; Pyrogeometer; Quality code; Radiation, photosynthetically active; Short-wave downward (GLOBAL) radiation; Temperature, air; Temperature, air, wet bulb; Temperature, water; Thermosalinograph; TSG; Underway cruise track measurements; Wind direction; Wind speed; WOCE; World Ocean Circulation Experiment

Type: Dataset

Format: text/tab-separated-values, 227882 data points

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Physical oceanography from SeaSoar CTDs during DISCOVERY cruise D190 (2004)

Leach, Harry

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Publication Date: 2024-03-23

Keywords: Biogeochemical Ocean Flux Study; BOFS; Calculated; CTD, Neil Brown, Mark III B; D190; Date/Time of event; Density, sigma-theta (0); DEPTH, water; DI190_LEG1.107.8; DI190_LEG1.112.3; DI190_LEG1.116.8; DI190_LEG1.121.5; DI190_LEG1.126.2; DI190_LEG1.130.6; DI190_LEG1.135.1; DI190_LEG1.139.6; DI190_LEG1.144; DI190_LEG1.148.4; DI190_LEG1.152.9; DI190_LEG1.157.3; DI190_LEG1.161.8; DI190_LEG1.166.3; DI190_LEG1.170.7; DI190_LEG1.175.1; DI190_LEG1.179.7; DI190_LEG1.184.1; DI190_LEG1.188.5; DI190_LEG1.193; DI190_LEG1.197.3; DI190_LEG1.202; DI190_LEG1.206.3; DI190_LEG1.210.8; DI190_LEG1.215.4; DI190_LEG1.219.8; DI190_LEG1.224.2; DI190_LEG1.228.7; DI190_LEG1.233.3; DI190_LEG1.237.6; DI190_LEG1.242.1; DI190_LEG1.246.5; DI190_LEG1.251; DI190_LEG1.255.5; DI190_LEG1.260; DI190_LEG1.264.4; DI190_LEG1.268.9; DI190_LEG1.273.3; DI190_LEG1.277.8; DI190_LEG1.282.3; DI190_LEG1.286.7; DI190_LEG1.291.2; DI190_LEG1.295.6; DI190_LEG1.300.1; DI190_LEG1.304.5; DI190_LEG1.309; DI190_LEG1.313.5; DI190_LEG2.341.5; DI190_LEG2.345.2; DI190_LEG2.349.7; DI190_LEG2.354.1; DI190_LEG2.358.6; DI190_LEG2.363; DI190_LEG2.367.5; DI190_LEG2.372; DI190_LEG2.376.5; DI190_LEG2.380.9; DI190_LEG2.385.3; DI190_LEG2.389.8; DI190_LEG2.394.2; DI190_LEG2.398.7; DI190_LEG2.403.1; DI190_LEG2.407.6; DI190_LEG2.412; DI190_LEG2.416.5; DI190_LEG2.421; DI190_LEG2.425.4; DI190_LEG2.429.8; DI190_LEG2.434.3; DI190_LEG2.438.7; DI190_LEG2.443.1; DI190_LEG2.447.6; DI190_LEG2.452; DI190_LEG2.456.5; DI190_LEG2.461; DI190_LEG2.465.5; DI190_LEG2.469.8; DI190_LEG2.474.3; DI190_LEG2.478.8; DI190_LEG2.483.3; DI190_LEG2.487.6; DI190_LEG2.492.1; DI190_LEG2.496.6; DI190_LEG2.501.1; DI190_LEG2.505.5; DI190_LEG2.510; DI190_LEG2.514.4; DI190_LEG2.518.8; DI190_LEG2.523.3; DI190_LEG2.527.7; DI190_LEG2.532.2; DI190_LEG2.536.7; DI190_LEG2.541.1; DI190_LEG3.569; DI190_LEG3.573.3; DI190_LEG3.577.6; DI190_LEG3.582.2; DI190_LEG3.586.6; DI190_LEG3.591.1; DI190_LEG3.595.6; DI190_LEG3.600; DI190_LEG3.604.4; DI190_LEG3.608.8; DI190_LEG3.613.3; DI190_LEG3.617.7; DI190_LEG3.622.2; DI190_LEG3.626.7; DI190_LEG3.631.1; DI190_LEG3.635.6; DI190_LEG3.640; DI190_LEG3.644.4; DI190_LEG3.649; DI190_LEG3.653.4; DI190_LEG3.657.8; DI190_LEG3.662.3; DI190_LEG3.666.7; DI190_LEG3.671.1; DI190_LEG3.675.7; DI190_LEG3.680.1; DI190_LEG3.684.6; DI190_LEG3.689; DI190_LEG3.693.4; DI190_LEG3.697.9; DI190_LEG3.702.3; DI190_LEG3.706.8; DI190_LEG3.711.2; DI190_LEG3.715.7; DI190_LEG3.720.2; DI190_LEG3.724.6; DI190_LEG3.729.1; DI190_LEG3.733.6; DI190_LEG3.738; DI190_LEG3.742.4; DI190_LEG3.746.9; DI190_LEG3.751.3; DI190_LEG3.755.8; DI190_LEG3.760.2; DI190_LEG3.764.7; DI190_LEG3.769.2; DI190_LEG4.798.3; DI190_LEG4.802.4; DI190_LEG4.807; DI190_LEG4.811.3; DI190_LEG4.815.8; DI190_LEG4.820.3; DI190_LEG4.824.7; DI190_LEG4.829.2; DI190_LEG4.833.7; DI190_LEG4.838; DI190_LEG4.842.6; DI190_LEG4.847; DI190_LEG4.851.5; DI190_LEG4.855.9; DI190_LEG4.860.3; DI190_LEG4.864.8; DI190_LEG4.869.3; DI190_LEG4.873.6; DI190_LEG4.878.1; DI190_LEG4.882.6; DI190_LEG4.887.1; DI190_LEG4.891.6; DI190_LEG4.896; DI190_LEG4.900.4; DI190_LEG4.904.9; DI190_LEG4.909.3; DI190_LEG4.913.7; DI190_LEG4.918.2; DI190_LEG4.922.6; DI190_LEG4.927.1; DI190_LEG4.931.5; DI190_LEG4.936; DI190_LEG4.940.4; DI190_LEG4.944.9; DI190_LEG4.949.4; DI190_LEG4.953.9; DI190_LEG4.958.3; DI190_LEG4.962.8; DI190_LEG4.967.3; DI190_LEG4.971.7; DI190_LEG4.976.2; DI190_LEG4.980.6; DI190_LEG4.985; DI190_LEG4.989.5; DI190_LEG4.994; DI190_LEG4.998.5; DI190_LEG5.1035.8; DI190_LEG5.1040.3; DI190_LEG5.1044.8; DI190_LEG5.1049.2; DI190_LEG5.1053.7; DI190_LEG5.1058.1; DI190_LEG5.1062.6; DI190_LEG5.1067; DI190_LEG5.1071.5; DI190_LEG5.1075.9; DI190_LEG5.1080.5; DI190_LEG5.1084.9; DI190_LEG5.1089.4; DI190_LEG5.1093.8; DI190_LEG5.1098.3; DI190_LEG5.1102.8; DI190_LEG5.1107.2; DI190_LEG5.1111.7; DI190_LEG5.1116.1; DI190_LEG5.1120.5; DI190_LEG5.1125; DI190_LEG5.1129.4; DI190_LEG5.1133.9; DI190_LEG5.1138.4; DI190_LEG5.1142.8; DI190_LEG5.1147.3; DI190_LEG5.1151.7; DI190_LEG5.1156.3; DI190_LEG5.1160.6; DI190_LEG5.1165.1; DI190_LEG5.1169.6; DI190_LEG5.1174.1; DI190_LEG5.1178.5; DI190_LEG5.1183; DI190_LEG5.1219.2; DI190_LEG5.1223.6; DI190_LEG5.1228.1; DI190_LEG5.1232.6; DI190_LEG6.1262.3; DI190_LEG6.1265.8; DI190_LEG6.1270.2; DI190_LEG6.1274.6; DI190_LEG6.1279.2; DI190_LEG6.1283.6; DI190_LEG6.1288.1; DI190_LEG6.1292.6; DI190_LEG6.1297.1; DI190_LEG6.1301.5; DI190_LEG6.1306; DI190_LEG6.1310.4; DI190_LEG6.1314.9; DI190_LEG6.1319.3; DI190_LEG6.1323.9; DI190_LEG6.1328.3; DI190_LEG6.1332.7; DI190_LEG6.1337.2; DI190_LEG6.1341.6; DI190_LEG6.1346.1; DI190_LEG6.1350.6; DI190_LEG6.1355.1; DI190_LEG6.1359.6; DI190_LEG6.1364; DI190_LEG6.1368.4; DI190_LEG6.1372.8; DI190_LEG6.1377.3; DI190_LEG6.1381.7; DI190_LEG6.1386.2; DI190_LEG6.1390.8; DI190_LEG6.1395.1; DI190_LEG6.1399.6; DI190_LEG6.1404.1; DI190_LEG6.1408.5; DI190_LEG6.1413; DI190_LEG6.1417.4; DI190_LEG6.1421.9; DI190_LEG6.1426.3; DI190_LEG6.1430.8; DI190_LEG6.1435.2; DI190_LEG6.1439.7; DI190_LEG6.1444.1; DI190_LEG6.1448.6; DI190_LEG6.1453.1; DI190_LEG6.1457.5; DI190_LEG6.1462; DI190_LEG7.1491.2; DI190_LEG7.1494.1; DI190_LEG7.1498.5; DI190_LEG7.1503; DI190_LEG7.1507.5; DI190_LEG7.1511.9; DI190_LEG7.1516.4; DI190_LEG7.1520.8; DI190_LEG7.1525.2; DI190_LEG7.1529.8; DI190_LEG7.1534.1; DI190_LEG7.1538.6; DI190_LEG7.1543.1; DI190_LEG7.1547.5; DI190_LEG7.1552; DI190_LEG7.1556.5; DI190_LEG7.1560.9; DI190_LEG7.1565.3; DI190_LEG7.1569.8; DI190_LEG7.1574.2; DI190_LEG7.1578.7; DI190_LEG7.1583.2; DI190_LEG7.1587.6; DI190_LEG7.1592.1; DI190_LEG7.1596.5; DI190_LEG7.1601; DI190_LEG7.1605.4; DI190_LEG7.1609.9; DI190_LEG7.1614.4; DI190_LEG7.1619; DI190_LEG7.1623.4; DI190_LEG7.1627.8; DI190_LEG7.1632.4; DI190_LEG7.1636.8; DI190_LEG7.1641.2; DI190_LEG7.1645.6; DI190_LEG7.1650.1; DI190_LEG7.1654.6; DI190_LEG7.1659; DI190_LEG7.1663.4; DI190_LEG7.1667.9; DI190_LEG7.1672.4; DI190_LEG7.1676.8; DI190_LEG7.1681.2; DI190_LEG7.1685.7; DI190_LEG7.1690.1; DI190_LEG8.1719.4; DI190_LEG8.1723.1; DI190_LEG8.1727.5; DI190_LEG8.1732; DI190_LEG8.1736.4; DI190_LEG8.1740.9; DI190_LEG8.1745.4; DI190_LEG8.1749.8; DI190_LEG8.1754.3; DI190_LEG8.1758.7; DI190_LEG8.1763.1; DI190_LEG8.1767.6; DI190_LEG8.1772; DI190_LEG8.1776.5; DI190_LEG8.1780.9; DI190_LEG8.1785.4; DI190_LEG8.1789.9; DI190_LEG8.1794.4; DI190_LEG8.1798.8; DI190_LEG8.1803.2; DI190_LEG8.1807.7; DI190_LEG8.1812.1; DI190_LEG8.1816.7; DI190_LEG8.1821.1; DI190_LEG8.1825.6; DI190_LEG8.1830.1; DI190_LEG8.1834.6; DI190_LEG8.1839; DI190_LEG8.1843.5; DI190_LEG8.1847.9; DI190_LEG8.1852.3; DI190_LEG8.1856.8; DI190_LEG8.1861.2; DI190_LEG8.1865.7; DI190_LEG8.1870.2; DI190_LEG8.1874.7; DI190_LEG8.1879.2; DI190_LEG8.1883.6; DI190_LEG8.1888; DI190_LEG8.1892.5; DI190_LEG8.1897; DI190_LEG8.1901.3; DI190_LEG8.1905.8; DI190_LEG8.1910.3; DI190_LEG8.1914.7; DI190_LEG8.1919.2; DI190_LEG9.1949.2; DI190_LEG9.1953; DI190_LEG9.1957.4; DI190_TRA1.1253.5; DI190_TRA1.1257.9; DI190_TRA1.1262.4; DI190_TRA1.1266.9; DI190_TRA1.1271.3; DI190_TRA1.1275.7; DI190_TRA1.1280.2; DI190_TRA1.1284.7; DI190_TRA1.1289.2; DI190_TRA1.1293.7; DI190_TRA1.1298.1; DI190_TRA1.1302.6; DI190_TRA1.1307; DI190_TRA1.1311.5; DI190_TRA1.1315.8; DI190_TRA1.1320.4; DI190_TRA1.1324.8; DI190_TRA1.1329.3; DI190_TRA1.1334.3; DI190_TRA1.1378.2; DI190_TRA1.1382.7; DI190_TRA1.1387.1; DI190_TRA1.1391.5; DI190_TRA1.1396; DI190_TRA1.1400.4; DI190_TRA1.1404.9; DI190_TRA1.1409.4; DI190_TRA1.1413.9; DI190_TRA1.1418.2; DI190_TRA1.1422.7; DI190_TRA1.1427.2; DI190_TRA1.1431.7; DI190_TRA1.1436.2; DI190_TRA1.1440.6; DI190_TRA1.1445; DI190_TRA1.1449.6; DI190_TRA1.1454.1; DI190_TRA1.1458.5; DI190_TRA1.1462.9; DI190_TRA1.1467.5; DI190_TRA1.1471.8; DI190_TRA1.1476.3; DI190_TRA1.1480.8; DI190_TRA1.1485.3; DI190_TRA1.1489.7; DI190_TRA1.1494.2; DI190_TRA1.1498.8; DI190_TRA1.1503.2; DI190_TRA1.1507.6; DI190_TRA1.1512.1; DI190_TRA1.1516.6; DI190_TRA1.1521.1; DI190_TRA1.1525.5; DI190_TRA1.1530; DI190_TRA1.1534.5; DI190_TRA1.1538.8; DI190_TRA1.1543.4; DI190_TRA1.1547.8; DI190_TRA1.1552.3; DI190_TRA1.1556.7; DI190_TRA1.1561.2; DI190_TRA1.1565.7; DI190_TRA1.1570.1; DI190_TRA1.1574.6;

Type: Dataset

Format: text/tab-separated-values, 136494 data points

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Water temperature profiles from 42 XBT drops along the track of cruise DI190 (2008)

Leach, Harry

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Publication Date: 2024-03-23

Keywords: Biogeochemical Ocean Flux Study; BOFS; CT; D190; DATE/TIME; DEPTH, water; DI190-track; Discovery (1962); JGOFS; Joint Global Ocean Flux Study; LATITUDE; LONGITUDE; Sample code/label; Temperature, water; Underway cruise track measurements; XBT

Type: Dataset

Format: text/tab-separated-values, 108706 data points

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