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(Table 1) Electron microprobe analyses of volcanic glass of some tephra layers in Northeastern Pacific Ocean (1987)

Sarna-Wojcicki, Andrei M ; Morrison, S D ; Meyer, C E ; [et al.]

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Publication Date: 2024-07-01

Keywords: 18-173; 5-34; 5-36; 63-470; AGE; Age, comment; Age, maximum/old; Age, minimum/young; Aluminium oxide; Calcium oxide; Calculated; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Electron microprobe (EMP); Elevation of event; Event label; Glomar Challenger; Iron oxide, Fe2O3; Latitude of event; Leg18; Leg5; Leg63; Longitude of event; Magnesium oxide; Manganese oxide; North Pacific/ABYSSAL FLOOR; North Pacific/PLAIN; North Pacific/RIDGE; North Pacific/SLOPE; Potassium oxide; Sample, optional label/labor no; Sample type; Silicon dioxide; Sodium oxide; Sum; Titanium dioxide; Water in rock

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Format: text/tab-separated-values, 97 data points

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(Table 2) Energy-dispersive X-ray fluorescence spectral data of volcanic glass of some tephra layers in Northeastern Pacific Ocean (1987)

Sarna-Wojcicki, Andrei M ; Morrison, S D ; Meyer, C E ; [et al.]

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Publication Date: 2024-07-01

Keywords: 5-34; 5-36; AGE; Age, comment; Age, maximum/old; Age, minimum/young; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Elevation of event; Energy dispersive X-ray analysis, EDAX; Event label; Glomar Challenger; Latitude of event; Leg5; Longitude of event; Manganese; Niobium; North Pacific/PLAIN; North Pacific/RIDGE; Rubidium; Sample, optional label/labor no; Sample type; Strontium; Titanium; Yttrium; Zirconium

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Format: text/tab-separated-values, 49 data points

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Annotated record of the detailed examination of Mn deposits from the Pacific Ocean and the Blake Plateau, Atlantic Ocean (1987)

Sorem, Ronald K

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Publication Date: 2024-07-01

Keywords: Blake Plateau, Atlantic Ocean; Deposit type; DEPTH, sediment/rock; Description; Dredge; DRG; DSV70-BP3; DSV75-NP58; DVI_Survey; ELT20; ELT20.005-BT; Eltanin; Event label; Identification; KEN70-NP12; KEN70-NP13; KEN70-NP14; KEN70-NP15; KEN70-NP16; KEN70-NP17; KEN70-NP18; KEN70-NP19; KEN70-NP22; KEN71-NP11; KEN72-NP10; KEN72-NP9; KEN72-SP3; KEN72-SP4; KEN72-SP5; KEN72-SP6; KEN72-SP7; KEN72-SP8; KEN72-SP9; Mn-74-02 IDOE DOMES; Moana Wave; MW7402; MW7402-SBT5; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Pacific Ocean; Position; Prospector; Quantity of deposit; SIO70-SP2; Size; Southern Ocean; TRAWL; Trawl net; Uniform resource locator/link to image; Visual description

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Format: text/tab-separated-values, 99 data points

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Description of samples from the Washington State University marine manganese nodule collection (1987)

Sorem, Ronald K

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Publication Date: 2024-07-01

Keywords: 2P-50; 2P-52; Agassiz; ANTIPODE; ANTP03MV-050D; ANTP-050D; Argo; Atlantic Ocean; BC; BENTHIFACE; Blake Plateau, Atlantic Ocean; BNFC02MV; BNFC02MV-019BX; BNFC02MV-054BX; BNFC02MV-056BX; BNFC02MV-072BXA; BNFC02MV-074BX; BNFC02MV-085BXB; BNFC19BX; BNFC54BX; BNFC56BX; BNFC72BXA; BNFC74BX; BNFC85BXB; Box corer; Carlsberg Ridge; CARR2_9D; CARROUSEL2; Core; CORE; D16; D6269; Deposit type; Description; Discovery (1962); DODO; DODO-009D-1; DODO-013D; DOMES Site A, Pacific Ocean; DOMES Site B, Pacific Ocean; DOMES Site C, Pacific Ocean; Dredge; Dredge, bucket; Dredge, rock; DRG; DRG_BU; DRG_R; DSV70-BP3; DSV75-NP58; DVI_Survey; ELT06; ELT06.007-BT; ELT20; ELT20.005-BT; Eltanin; Event label; FFGR; Free-fall grab; Grab; GRAB; Identification; KEN70-NP12; KEN70-NP13; KEN70-NP14; KEN70-NP15; KEN70-NP16; KEN70-NP17; KEN70-NP18; KEN70-NP19; KEN70-NP22; KEN71-NP11; KEN72-NP10; KEN72-NP9; KEN72-SP3; KEN72-SP4; KEN72-SP5; KEN72-SP6; KEN72-SP7; KEN72-SP8; KEN72-SP9; Melville; Mn-74-01-001-FFG-003; Mn-74-01-002-FFG-004; Mn-74-01-003-FFG-007; Mn-74-01-004-FFG-011; Mn-74-01-005-B2; Mn-74-01-006-FFG-016; Mn-74-01-007-FFG-028; Mn-74-01-009-FFG-036; Mn-74-01-010-FFG-037; Mn-74-01 IODE; Mn-74-02-13A-FFG-002; Mn-74-02-13A-FFG-003; Mn-74-02-13A-FFG-004; Mn-74-02-13B-FFG-005; Mn-74-02-13B-FFG-007; Mn-74-02-13C-D-004; Mn-74-02-13C-FFG-009; Mn-74-02-13C-FFG-010; Mn-74-02-13C-FFG-011; Mn-74-02-13C-FFG-012; Mn-74-02-15-FFG-021; Mn-74-02-15-FFG-023; Mn-74-02-15-FFG-025; Mn-74-02-15-FFG-026; Mn-74-02-16-FFG-028; Mn-74-02-16-FFG-029; Mn-74-02-16-FFG-030; Mn-74-02-16-FFG-034; Mn-74-02 IDOE DOMES; Moana Wave; MW7401; MW7401-01G03; MW7401-02G04; MW7401-03G07; MW7401-04G11; MW7401-05B02; MW7401-06G16; MW7401-07G28; MW7401-09G36; MW7401-10G37; MW7402; MW7402-13D04; MW7402-13G02; MW7402-13G03; MW7402-13G04; MW7402-13G05; MW7402-13G07; MW7402-13G09; MW7402-13G10; MW7402-13G11; MW7402-13G12; MW7402-15G21; MW7402-15G23; MW7402-15G25; MW7402-15G26; MW7402-16G28; MW7402-16G29; MW7402-16G30; MW7402-16G34; MW7402D-SBT1; MW7402D-SBT4; MW7402-SBT5; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Northwestern Pacific Ocean; Oceanographer; Pacific Ocean; Project; Prospector; Prospector-63; Quantity of deposit; RC15; RC15-21RD; RC15-25RD; RC15-43G; Robert Conrad; RP6OC75; RP6OC75-11-53; RP6OC75-15B-50; RP6OC75-16B-49; RP6OC75-23B-30; RP6OC75-25-51; RP6OC75-27-52; RP-8-OC-75; RP8OC7503; RP8OC75-46-01; RP8OC75-46-03; RP8OC75-46-04; RP8OC75-46-06; RP8OC75-46-07; RP8OC75-46-08; RP8OC75-46-09; RP8OC75-47-11; RP8OC75-47-12; RP8OC75-47-13; RP8OC75-47-14; RP8OC75-47-15; RP8OC75-48-19; RP8OC75-48-20; RP8OC75-48-21; RP8OC75-48-22; RP8OC75-48-24; RP8OC75-49-25; RP8OC75-49-26; RP8OC75-49-27; RP8OC75-50-28; RP8OC75-50-29; RP8OC75-50-30; RP8OC75-50-31; RP8OC75-50-32; RP8OC75-51-33; RP8OC75-51-34; RP8OC75-51-35; RP8OC75-51-36; RP8OC75-52-37; RP8OC75-52-38; RP8OC75-52-40; RP8OC75-52-41; RP8OC75-53-44; RP8OC75-53-45; RP8OC75-53-46; RP8OC75-54-47; RP8OC75-54-48; RP8OC75-54-49; RP8OC75-54-50; RP8OC75-54-51; RP8OC75-54-52; RP8OC75-55-53; RP8OC75-55-54; RP8OC75-55-55; RP8OC75-55-56; RP8OC75-57-57; RP8OC75-58-60; RP8OC75-58-61; RP8OC76; RP-8-OC-76; RP8OC76-10-15; RP8OC76-11-16; RP8OC76-12-18; RP8OC76-13-19; RP8OC76-14-20; RP8OC76-15-21; RP8OC76-1-6; RP8OC76-16-22; RP8OC76-17-23; RP8OC76-18-24; RP8OC76-19-25; RP8OC76-21-27; RP8OC76-22-28; RP8OC76-2-7; RP8OC76-3-8; RP8OC76-4-9; RP8OC76-5-10; RP8OC76-6-11; RP8OC76-7-12; RP8OC76-8-13; RP8OC76-9-14; Sample code/label; SAN_JUAN_1963; SB930001; SB930001-1D; Seascope Expedition; Silas Bent; SIO70-SP2; SNJ-DH1; SNJ-DH2; SNJ-DH3; SNJ-DH4; SNJ-DH5; SNJ-DH6; SNJ-DH7; SNJ-DH8; SNJ-DH9; Southern Ocean; Spencer F. Baird; SS72/1; SS72/2; SS72/3; SS72/5; SS72/6; SS72-103DB; SS72-104DB; SS72-105DB; SS72-106DB; SS72-111DB; SS72-112DB; SS72-114DB; SS72-115DB; SS72-122DB; SS72-124DB; SS72-125DB; SS72-126DB; SS72-127DB; SS72-131DB; SS72-132DB; SS72-134DB; SS72-135DB; SS72-138DB; SS72-13DB; SS72-141DB; SS72-148DB; SS72-149DB; SS72-14DB; SS72-150DB; SS72-151DB; SS72-152DB; SS72-153DB; SS72-154DB; SS72-155DB; SS72-156DB; SS72-157DB; SS72-16DB; SS72-17DB; SS72-19SC; SS72-20DB; SS72-21DB; SS72-22DB; SS72-23DB; SS72-24DB; SS72-25DB; SS72-26DB; SS72-27DB; SS72-28DB; SS72-29DB; SS72-30DB; SS72-31DB; SS72-32DB; SS72-33DB; SS72-36DB; SS72-37CC; SS72-38DB; SS72-3DB; SS72-41DB; SS72-44DB; SS72-4DB; SS72-50DB; SS72-52DB; SS72-53DB; SS72-57DB; SS72-58DB; SS72-59DB; SS72-5DB; SS72-60DB; SS72-63DB; SS72-65DB; SS72-66DB; SS72-68DB; SS72-69DB; SS72-6DB; SS72-70DB; SS72-72DB; SS72-74DB; SS72-79DB; SS72-7DB; SS72-80DB; SS72-83DB; SS72-84DB; SS72-85DB; SS72-86DB; SS72-87DB; SS72-89DB; SS72-8CC; SS72-90DB; SS72-91DB; SS72-92DB; SS72-93DB; SS72-94DB; SS72-95DB; SS72-96DB; SS72-97DB; SS72-98DB; SS72-99DB; SS72-9DB; Station 212; STYX_I; STYX01AZ; STYXI-10FF; STYXI-2FF; TRAWL; Trawl net

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Format: text/tab-separated-values, 1775 data points

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Lithic grain and mineral composition of sand and sandstones from the North Pacific Ocean and the Bering Sea (Table 3) (1986)

Gergen, Leslie Dickson ; Ingersoll, Raymond V

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In: Supplement to: Gergen, Leslie Dickson; Ingersoll, Raymond V (1986): Petrology andprovenanve of Deep Sea Drilling Project sand and sandstone from the North Pacific Ocean and the Bearing Sea. Sedimentary Geology, 51(1-2), 29-56, https://doi.org/10.1016/0037-0738(86)90023-0

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Publication Date: 2024-07-01

Description: Sand and sandstone compositions from different types of basins reflect provenance terranes governed by plate tectonics. One hundred and one thin sections of Upper Miocene to Holocene sand-sized material were examined from DSDP/IPOD Sites in the North Pacific Ocean and the Bering Sea. The Gazzi-Dickinson point-counting method was used to establish compositional characteristics of sands from different tectonic settings. Continental margin forearc sands from the western North America continental margin arc system are clearly different from backarc/marginal-sea sands from the Aleutian intraoceanic arc system. The forearc sands have average QFL percentages of 29-42-29, LmLvLst percentages of 32-34-34, 3 Fmwk%M and 0.82 P/F. Aleutian backarc sands have average QFL percentages of 8-22-69. LmLvLst percentages of 9-85-6, 0.5 Fmwk%M and 0.96 P/F. A trend of increasing QFL%Q and decreasing LmLvLst%Lv westward in the backarc region of the Aleutian Ridge reflects the influence of the Asiatic continental margin. Aleutian backarc sands without continental influence have average QFL percentages of 1-20-79, LmLvLst percentages of 1-98-1, 0 Fmwk%M and 0.99 P/F. Of the continental margin forearc samples, sands on the Astoria Fan (west of the Oregon-Washington trench) contain the highest LmLvLst%Lv and lowest P/F; sands from mixed transform-fault and trench settings (Delgada Fan and Gulf of Alaska samples) have slightly higher Qp/Q (0.03); and sands from the Pacific-Juan de Fuca-North America triple junction have the highest Fmwk%M. Delgada Fan and Gulf of Alaska sands have average QFL percentages of 27-38-35, LmLvLst percentages of 37-26-37, 2 Fmwk%M and 0.86 P/F. Astoria Fan sands have average QFL percentages of 35-41-24, LmLvLst percentages of 30-47-23, 3 Fmwk%M and 0.74 P/F. The triple-junction sands have average QFL percentages of 28-59-13, LmLvLst percentages of 25-26-49, 9 Fmwk%M and 0.87 P/F. The petrologic data from the modern ocean basins examined in this study can provide useful analogs for interpretation of ancient oceanic sequences. Our data suggest some refinements of, but generally substantiate, existing petrologic models relating sandstone composition to tectonic setting.

Keywords: 18-173; 18-174; 18-174A; 18-177A; 18-178; 18-179; 18-180; 18-181; 18-182; 19-184; 19-184B; 19-185; 19-188; 19-190; 5-32; 5-34; AGE; Deep Sea Drilling Project; DRILL; Drilling/drill rig; DSDP; Event label; Feldspar; Glomar Challenger; Heavy minerals; Kalifeldspar; Leg18; Leg19; Leg5; Lithic grains; North Pacific/Bering Strait/BASIN; North Pacific/Bering Strait/PLATEAU; North Pacific/Bering Strait/RIDGE; North Pacific/Bering Strait/SPUR; North Pacific/FAN; North Pacific/PLAIN; North Pacific/RIDGE; North Pacific/SLOPE; North Pacific/TRENCH; Phyllosilicate; Plagioclase; Plagioclase/Feldspar ratio; Point counting; Quartz; Quartz, monocrystalline; Quartz, polycrystalline; Quartz, polycrystalline/quartz, total ratio; Sample code/label

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Format: text/tab-separated-values, 1997 data points

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Paleomagnetic measurements of 10 sediment profiles from the Antarctic continental slope (1989)

Grobe, Hannes ; Spieß, Volkhard

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In: Alfred Wegener Institute for Polar and Marine Research, Bremerhaven (1986-2013)

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Publication Date: 2024-07-01

Description: Die im Rahmen des zweijährigen Forschungsprojekts über paläomagnetisch-sedimentologische Analysen sedimentärer Zyklen in der Weddell See und ihre stratigraphische Interpretation durchgeführten Arbeiten lieferten Ergebnisse zur Geschichte glaziomariner Sedimentationsprozesse am antarktischen Kontinentalrand. So konnte für ein Kernprofil mit einer außergewöhnlichen Terassenstruktur eine fazielle Gliederung und stratigraphische Einordnung erreicht werden, die auch auf größere Areale in der Weddell See anwendbar sind. Aufgrund der stratigraphischen Randbedingungen konnten die gewonnenen paläo- und gesteinsmagnetischen Messungen in eine Altersstruktur integriert und zusammen mit den sedimentologischen Parametern im Hinblick auf lokale und regionale Umweltveränderungen interpretiert werden. Insbesondere die gesteinsmagnetischen Analysen haben gezeigt, daß die magnetische Kornfraktion als accessorischer Bestandteil im Gesamtsediment dennoch an die Sortierungsprozesse des terrigenen Sedimenteintrags gekoppelt ist. Die ungewöhnlich deutlichen Variationen korngrößenabhängiger Parameter zeigten weiterhin, daß in Verbindung mit einer hochauflösenden Stratigraphie die magnetische Detailanalyse und ein besseres Verständnis der Sedimentationsprozesse in der Nähe der Schelfeiskante und speziell bei Meeresspiegeltiefständen die Möglichkeit eröffnen, unmittelbar Aussagen über die Bewegungen der Schelfeise und die Qualität der Meereisbedeckungen zu machen. Die gezielte Fortsetzung dieser Arbeiten in anderen Arealen am antarktischen Kontinentalrand ist daher wünschenswert. Die verwendeten Verfahren lassen sich mit den derzeit verfügbaren Instrumenten noch erweitern und versprechen durch die sehr sensitive Methodik detaillierte Aussagen zu glaziomarinen Sedimentationsprozessen.

Keywords: ANT-IV/3; ANT-V/4; ANT-VI/3; ANT-VIII/5; Atka Bay; AWI_Paleo; Camp Norway; Eastern Weddell Sea, Southern Ocean; Gravity corer (Kiel type); Kapp Norvegia; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; PS08; PS08/333; PS08/335; PS08/336; PS08/338; PS08/347; PS08/353; PS08/354; PS08/355; PS08/356; PS08/357; PS08/361; PS08/364; PS08/365; PS08/366; PS08/367; PS08/368; PS08/371; PS08/374; PS08/486; PS10; PS10/694; PS10/699; PS10/778; PS10/816; PS12; PS12/291; PS12/302; PS12/536; PS1367-2; PS1368-3; PS1369-2; PS1370-2; PS1375-3; PS1377-2; PS1378-3; PS1379-3; PS1380-3; PS1381-3; PS1385-3; PS1386-2; PS1387-3; PS1388-3; PS1389-3; PS1390-3; PS1392-1; PS1394-4; PS1431-1; PS1481-3; PS1483-3; PS1498-2; PS1506-1; PS1588-1; PS1591-1; PS16; PS16/444; PS1648-1; PS1799-1; SL; Weddell Sea

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Format: application/zip, 9 datasets

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Stable isotope and Cd/Ca ratios of Neogloboquadrina pachyderma in high-latitude sediments (1989)

Keigwin, Lloyd D ; Boyle, Edward A

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In: Supplement to: Keigwin, Lloyd D; Boyle, Edward A (1989): Late Quaternary paleochemistry of high-latitude surface waters. Palaeogeography, Palaeoclimatology, Palaeoecology, 73(1-2), 85-106, https://doi.org/10.1016/0031-0182(89)90047-3

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Publication Date: 2024-07-01

Description: Recent studies have stressed the role of high latitude nutrient levels and productivity in controlling the carbon isotopic composition of the deep sea and the CO2 content of the atmosphere. We undertook a study of the chemical composition of the polar planktonic foraminifer Neogloboquadrina pachyderma (s., sinistral coiling) from 30 late Holocene samples and 49 down core records from the high-latitude North and South Atlantic Oceans to evaluate the history of sea surface chemical change from glacial to interglacial time. Stable isotopic analysis of coretop samples from the Atlantic, Pacific and Southern Oceans shows no significant correlation between the delta13C of N. pachyderma and either delta13C or PO4 in seawater. Conversely, Cd/Ca ratios in planktonic foraminifera are consistent with the PO4 content of surface waters. The level of maximum glaciation (18,000 yr B.P.), identified by CLIMAP and delta18O, was chosen for mapping. Isopleths of delta18O on N. pachyderma (s.) in the North Atlantic reveal a pattern largely influenced by sea surface temperature (S.S.T.) and generally support the S.S.T. reconstruction of CLIMAP. Differences between the two suggest significantly lower salinity in North Atlantic surface waters at high latitudes than in lower latitudes. Down core delta13C records of N. pachyderma confirm that low delta13C values occurred in the northeast Atlantic during the latest glacial maximum (Labeyrie and Duplessy, 1985, doi:10.1016/0031-0182(85)90069-0). However, a map of delta13C for the 18,000 yr B.P. level for a much larger region in the North Atlantic shows that minimum N. pachyderma delta13C occurred in temperate waters. N. pachyderma delta13C decreased toward the southwest, reaching a minimum of -1 per mil at 37°N. Despite the variability seen in delta13C records of N. pachyderma, none of our cores show significant temporal variability in Cd/Ca. From the combined Cd/Ca and delta13C data we can see no evidence for an upwelling gyre in the eastern North Atlantic during the latest glacial maximum, nor evidence that the southern and northern oceans had significantly different levels of preformed nutrients than today.

Keywords: 94-606_Site; AT_II-107_19; AT_II-107_22; ATII_USA; Atlantic Ocean; Atlantis II (1963); CEPAG; CH67-19; CH69-32; CH69-69; CH6X; CH70-K11; CH72-101; CH72-104; CH73-110; CH73-136; CH73-139; CH73-139C; CH77-07; CH7X; CH8X; CHN115-26PG; CHN115-27PG; CHN115-36PG; CHN82-04; CHN82-15; CHN82-20; CHN83-20; COMPCORE; Composite Core; Core; CORE; Fram-I; FramI/7; FramII/4; GC; GEOGAS; Glomar Challenger; Gravity corer; Gravity corer (Kiel type); HU75-41; HU75-42; Ice drift station; Jean Charcot; K708-006; Keigwin_31-33; KN708-1; KN708-6; KN714-15; KNR54-16BC; Leg94; Le Noroit; Le Suroît; NO77/79; NO79-06; North Atlantic; North Atlantic/FLANK; PC; Piston corer; RAMA; RAMA03WT; RAMA-44P; RC09; RC09-225; Robert Conrad; ROMANCHA; SL; South Atlantic; SU81-47; Thomas Washington; V23; V23-23; V23-42; V23-81; V23-82; V23-83; V27; V27-114; V27-116; V27-17; V27-19; V27-20; V27-60; V27-86; V28; V28-14; V28-56; V29; V29-177; V29-178; V29-179; V29-180; V29-183; V29-206; V30; V30-101; V30-108; V30-96; V30-97; Vema

Type: Dataset

Format: application/zip, 9 datasets

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