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  • Data  (140)
  • 2020-2022
  • 2005-2009
  • 1975-1979  (140)
  • 1976  (140)
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Source
Keywords
Publisher
Years
  • 2020-2022
  • 2005-2009
  • 1975-1979  (140)
Year
  • 1
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    (Table 1) Biomass (as energy) of different elements of the planktonic community in the Equatorial Pacific in the 0-150 m layer (1976)
    PANGAEA
    In:  Supplement to: Vinogradov, Mikhail E; Shushkina, Elvira A; Kukina, Irina N (1976): Functional characteristics of a planktonic community in an equatorial upwelling region. Oceanology, 16, 67-76
    Details
    Publication Date: 2023-07-09
    Description: An analysis was made of composition and content of nutrients, salts, particulate and dissolved organic matter, and various plankton groups in a series of samples collected by a 140-liter sampling bottle to depth up to 150 m at 4 equatorial stations between 97° and 154°W. Large and small phytoplankton, bacteria (aggregated and dispersed), heterotrophic flagellates, infusorians, radiolarians, foraminifers, fine filter-feeders, small and large, mostly herbivorous copepods, cyclopoids, predatory calanoids, and other predators were investigated separately. Trophic relations between these elements are established from personal and published data, and rate of their metabolism and some other physiological parameters are determined. Such functional characteristics as extent of satisfaction of food requirements of organisms belonging to various trophic groups, intensity of trophic relations, balance between production and consumption by individual elements of the community, ecological efficiency, and net and specific production of the groups distinguished, of individual trophic levels, of total zooplankton, and of the community as a whole are calculated. Variations of these characteristics along the equator with decreasing upwelling intensity are examined and their possible causes and mechanisms are discussed.
    Keywords: AK17-1454; AK17-1456; AK17-1458; AK17-1461; Archive of Ocean Data; ARCOD; Bacteria, biomass per area, as energy; Calanoides, biomass per area, as energy; Calculated; Carnivorous animals, biomass per area, as energy; Copepoda, biomass per area, as energy; Cyclopoida, biomass per area, as energy; Date/Time of event; Depth, bottom/max; Depth, top/min; DEPTH, water; Equatorial Pacific; Event label; Filter feeder, biomass per area, as energy; Flagellates, biomass per area, as energy; Infusorians, biomass per area, as energy; Latitude of event; Longitude of event; Nonpredatory animals, biomass per area, as energy; Phytoplankton, biomass per area, as energy; PLA; Plankton, biomass per area, as energy; Plankton net; Predators, biomass per area, as energy; Protozoa; Protozoa, biomass per area, as energy; Radiolarians, biomass per area, as energy; Zooplankton, biomass per area, as energy
    Type: Dataset
    Format: text/tab-separated-values, 84 data points
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  • 2
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    (Table 1) Chemical composition of phillipsites from pelagic bottom sediments of the Transpacific profile (1976)
    PANGAEA
    In:  Geological Institute, Russian Academy of Sciences, Moscow | Supplement to: Lisitzina, Nadezhda A; Butuzova, Galina Yu (1976): Zeolites in sediments of the lithological profile across the Pacific Ocean. Litologiya i Poleznyye Iskopaemyye (Lithology and Mineral Resources), 11(2), 9-21
    Details
    Publication Date: 2023-07-11
    Description: Results of petrographic, chemical and X-ray studies of zeolites in sediments in the Transpacific lithological profile from the coast of Japan to the coast of Mexico are reported. For ocean phillipsites constancy of Si/Al ratio (2.44-2.87) and unstable cation composition in quantitative predominance of potassium over sodium are characteristic. Two groups of ocean phillipsites are distinguished: of deep-water basins and of submarine rises. The first spread over broad areas of the pelagic zone, and are formed by diagenetic transformation of fine dispersed pyroclastic material in minimum sedimentation rates, the latter occur locally - in areas of basaltic volcanism manifestations.
    Keywords: Aluminium oxide; Archive of Ocean Data; ARCOD; Area/locality; Barium oxide; Calcium oxide; Calculated; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; DM9; DM9-612; DM9-643; Dmitry Mendeleev; Elevation of event; Event label; GC; Gravity corer; Iron oxide, Fe2O3; Iron oxide, FeO; Latitude of event; Longitude of event; Magnesium oxide; Manganese oxide; Northeast Pacific; Northwestern Basin, Pacific Ocean; Northwest Pacific; OKEAN; Okean Grab; Phosphorus pentoxide; Potassium oxide; Ratio; Silicon/Aluminium ratio; Silicon dioxide; Size fraction; Sodium oxide; Sum; Titanium dioxide; VITYAZ; Vityaz (ex-Mars); Vityaz-29; VITYAZ4362-GR-1; VITYAZ6176-GC; VITYAZ6177-GR; Water in rock; Wet chemistry
    Type: Dataset
    Format: text/tab-separated-values, 192 data points
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  • 3
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    (Table 2) Light minerals in turbidites from DSDP Hole 19-183, the Aleutian abyssal plain (1976)
    PANGAEA
    Details
    Publication Date: 2023-07-11
    Keywords: 19-183; Chert; Deep Sea Drilling Project; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Feldspar; Fragments; Glomar Challenger; Kalifeldspar; Leg19; North Pacific/PLAIN; Plagioclase; Quartz; Quartz, polycrystalline; Ratio; Rock fragments; Sample code/label; Size fraction
    Type: Dataset
    Format: text/tab-separated-values, 782 data points
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  • 4
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    (Table 1) Heavy minerals in turbidites from DSDP Hole 19-183, the Aleutian abyssal plain (1976)
    PANGAEA
    Details
    Publication Date: 2023-07-11
    Keywords: 19-183; Amphibole; Amphibole group minerals; Apatite; Clinopyroxene; Deep Sea Drilling Project; DEPTH, sediment/rock; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Epidote; Garnet; Glomar Challenger; Hornblende, basaltic; Hornblende, common; Kyanite; Leg19; North Pacific/PLAIN; Orthopyroxene; Pumpellyite; Pyroxene group minerals; Sample code/label; Size fraction; Sphene; Staurolite; Tourmaline; Tremolite/Actinolite; Zircon; Zoisite
    Type: Dataset
    Format: text/tab-separated-values, 965 data points
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  • 5
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    Abundance and chemical and mineral compositions of nodules from the Pacific Ocean (1976)
    PANGAEA
    In:  Supplement to: Bezrukov, Panteleimon L; Skornyakova, Nadezhda S; Murdmaa, Ivar O; Andrushchenko, Polina F; Zenkevich, Nikita L (1976): Ferromanganese Nodules of the Pacific Ocean. P.P. Shirshov Institute of Oceanology of the USSR Academy of Sciences, Transactions, vol. 109. Moscow, Nauka Publ. (P.L. Bezrukov, Ed.), 301 pp
    Details
    Publication Date: 2023-08-28
    Description: The monograph highlights extensive materials collected during expeditions of P.P. Shirshov Institute of Oceanology. We consider facial conditions of nodule formation, regularities of their distribution, stratigraphic position, petrography, mineral composition, textures, geochemistry of nodules and hosting sediments. Origin of iron-manganese nodules in the Pacific Ocean is considered as well.
    Keywords: AK4-225-TR; AK4-227-PH; AK4-230-GR; AK4-231-GR; AK4-232-GR; AK4-232-PH; AK4-233-GR; AK4-233-TR; AK4-259-GR; AK4-259-PH; AK4-260-GR; AK4-261-GR; Akademik Kurchatov; AKU4; Archive of Ocean Data; ARCOD; Central Basin, Pacific Ocean; Central Pacific Seamounts, Pacific Ocean; DM8; DM8-516-GR; DM8-518-GR; DM8-520-GR; DM8-521-TR; DM8-541-GR; DM8-554-GR; DM8-556-GR; DM8-568-GR; DM8-569-GR; DM8-598-GR; DM8-599-GR; DM8-600-GR; DM8-607-GR; DM8-608-GR; Dmitry Mendeleev; Dredge; DRG; Eastern Basin, Pacific Ocean; Eastern Mariana Basin, Pacific Ocean; Equatorial Pacific; GC; Grab; GRAB; Gravity corer; Manihiki Plateau, Pacific Ocean; Marcus-Necker Ridge; Mariana Basin, Pacific Ocean; MULT; Multiple investigations; Northwestern Basin, Pacific Ocean; OKEAN; Okean Grab; Photo/Video; PV; Southeast Pacific; Southern Basin, Pacific Ocean; TRAWL; Trawl net; VITYAZ; Vityaz (ex-Mars); Vityaz-20; Vityaz-25; Vityaz-29; VITYAZ3150-TR; VITYAZ3151-TR; VITYAZ3233-GC-2; Vityaz-34; VITYAZ3630-PH; VITYAZ3631-GR-1; VITYAZ3632-PH; VITYAZ3635-PH; VITYAZ3729-GC-1; VITYAZ3782-PH; VITYAZ3782-TR; VITYAZ3787-TR; VITYAZ3802-TR; VITYAZ3871-GR-1; VITYAZ3899-GR-1; VITYAZ3900-GR-1; VITYAZ3996-TR; VITYAZ4009-TR; VITYAZ4074-TR; VITYAZ4084-GR-1; VITYAZ4090-TR; VITYAZ4104-TR; VITYAZ4191-TR; VITYAZ4199-TR; VITYAZ4217-TR; VITYAZ4221-TR; VITYAZ4239-PH; VITYAZ4239-TR; VITYAZ4245-GR; VITYAZ4249-PH; VITYAZ4249-TR; VITYAZ4261-PH; VITYAZ4265-TR; VITYAZ4273-GR-1; VITYAZ4273-PH; VITYAZ4273-TR; VITYAZ4279-PH; VITYAZ4279-TR; VITYAZ4281-TR; VITYAZ4285-GR-1; VITYAZ4285-PH; VITYAZ4289-GR-1; VITYAZ4289-TR; Vityaz-43; VITYAZ4309-TR; VITYAZ4320-TR; VITYAZ4331-GR-1; VITYAZ4343-GR-1; VITYAZ4347-GR-1; VITYAZ4347-PH; VITYAZ4351-GR; VITYAZ4355-GR; VITYAZ4359-GR-1; VITYAZ4359-PH; VITYAZ4362-GR-1; VITYAZ4370-PH; VITYAZ4370-TR; Vityaz-48; VITYAZ5066-GR; VITYAZ5066-TR; VITYAZ5074-PH; VITYAZ5074-TR; VITYAZ5096-PH; VITYAZ5100-GR-1; VITYAZ5110-GR-1; VITYAZ5112-GR; VITYAZ5114-GR; VITYAZ5124-TR; VITYAZ5126-GR-1; VITYAZ5128-TR; VITYAZ5129-GR-1; VITYAZ5133-TR; VITYAZ5139-GR-1; VITYAZ5159-TR; VITYAZ5163-GR-1; VITYAZ5398-GR-1; VITYAZ5408-GR-1; VITYAZ5409-GR-1; VITYAZ5410-GR-1; VITYAZ5411-GR-1; VITYAZ5412-DR; VITYAZ5414-GR-1; VITYAZ5420-GR-1; VITYAZ5421-GR-1; VITYAZ5422-GR-1; VITYAZ5423-GR-1; VITYAZ5424-GR; VITYAZ5429-GR-1; VITYAZ5432-GR-1; VITYAZ5437-GR; VITYAZ5505-GR; VITYAZ5937A-GR; VITYAZ5937-GR; VITYAZ5955; VITYAZ5958-GR; VITYAZ5959-GR; VITYAZ5960-GR; VITYAZ5960-PH; VITYAZ5962-GR; VITYAZ5962-PH; VITYAZ5963-GC; VITYAZ5964-GR; VITYAZ5965-0-GR; VITYAZ5965-10-GR-1; VITYAZ5965-1-GR; VITYAZ5965-2-GC; VITYAZ5965-3-GR; VITYAZ5965-3-TR; VITYAZ5965-5-GR; VITYAZ5965-6-GC; VITYAZ5966-GR; VITYAZ5966-PH; VITYAZ5968-14-DR; VITYAZ5968-15-DR; VITYAZ5968-18-GC; VITYAZ5968-1-GR; VITYAZ5968-2-GC; VITYAZ5968-3-GR; VITYAZ5968-4-GR; VITYAZ5968-7-TR; VITYAZ5968-9-GR; VITYAZ5970-GR; VITYAZ5971-GR; VITYAZ5972-TR; VITYAZ5975-GR; VITYAZ5975-PH; VITYAZ5977-PH; VITYAZ5982-GR; VITYAZ5982-PH; VITYAZ5983-GR; VITYAZ5983-PH; VITYAZ5984-GR; VITYAZ5984-PH; VITYAZ5987-GR; VITYAZ5988-11-GR; VITYAZ5988-12-GR; VITYAZ5988-13-GR; VITYAZ5988-14-GC; VITYAZ5988-16-GR; VITYAZ5988-19-TR; VITYAZ5988-20-GR; VITYAZ5988-21-GR; VITYAZ5988-22-GR; VITYAZ5988-24-GR; VITYAZ5988-25-GR; VITYAZ5988-2-GC; VITYAZ5988-4-TR; VITYAZ5988-5-GR; VITYAZ5988-7-GR; VITYAZ5988-9-GR; VITYAZ5993-GR; VITYAZ5995-GR; VITYAZ5996-10-GR; VITYAZ5996-11-TR; VITYAZ5996-13-GR; VITYAZ5996-15-GR; VITYAZ5996-17-GR; VITYAZ5996-18-GR; VITYAZ5996-1-GR; VITYAZ5996-20-GR; VITYAZ5996-22-GR; VITYAZ5996-24-GC; VITYAZ5996-25-GR; VITYAZ5996-2-TR; VITYAZ5996-4-GR; VITYAZ5996-6-GR; VITYAZ6000-GC; VITYAZ6002-11-GC; VITYAZ6002-12-DR; VITYAZ6002-17-GC; VITYAZ6002-20-GC; VITYAZ6002-21-DR; VITYAZ6002-24; VITYAZ6004-GC; VITYAZ6005-GC; VITYAZ6005-GR; VITYAZ6006-GR; VITYAZ6008; VITYAZ6009-GR; VITYAZ6011-GR; VITYAZ6012-GR; VITYAZ6013-GR; VITYAZ6014-GR; VITYAZ6015-GR; VITYAZ6015-PH; VITYAZ6015-TR; VITYAZ6016-GR; VITYAZ6017-DR; VITYAZ6165-GR-1; VITYAZ6167-GR; VITYAZ6168-GR; VITYAZ6172-GR; VITYAZ6174-GR; VITYAZ6177-GR; VITYAZ6243-GR; VITYAZ6255-GR; VITYAZ6256-GR; VITYAZ6257-GR; VITYAZ6264-GR; VITYAZ6265-DR; VITYAZ6267-GR; VITYAZ6270-DR; VITYAZ6272-GR; VITYAZ6273-GR; VITYAZ6275-11-GR; VITYAZ6275-15-TR; VITYAZ6275-2-TR; VITYAZ6275-3-GR; VITYAZ6275-5-GC; VITYAZ6275-8-TR; VITYAZ6277-3-GC; VITYAZ6277-4-TR; VITYAZ6297-TR; VITYAZ6298-10-GC; VITYAZ6298-12-GR; VITYAZ6298-13-TR; VITYAZ6298-14-GC; VITYAZ6298-18-GR; VITYAZ6298-19-GC; VITYAZ6298-1-GC; VITYAZ6298-20-TR; VITYAZ6298-24-TR; VITYAZ6298-26-GR; VITYAZ6298-28-GC; VITYAZ6298-2-GR; VITYAZ6298-30-TR; VITYAZ6298-31-GC; VITYAZ6298-33-GC; VITYAZ6298-34-GR; VITYAZ6298-35-TR; VITYAZ6298-36-GR; VITYAZ6298-37-TR; VITYAZ6298-40-TR; VITYAZ6298-42-GC; VITYAZ6298-43-GR; VITYAZ6298-45-GC; VITYAZ6298-46-GR; VITYAZ6298-47-GC; VITYAZ6298-48-GR; VITYAZ6298-49-GC; VITYAZ6298-50-GR; VITYAZ6298-51-GC; VITYAZ6298-52A-TR; VITYAZ6298-53-TR; VITYAZ6298-56-TR; VITYAZ6298-57-GC; VITYAZ6298-58; VITYAZ6298-62-TR; VITYAZ6298-7-TR; VITYAZ6298-8-GR; VITYAZ6298-9-GR; VITYAZ6299-TR; VITYAZ6300-TR; VITYAZ6307-TR; VITYAZ6331; VITYAZ6332-GR; VITYAZ6333-10-TR; VITYAZ6333-11-GR; VITYAZ6333-13-TR; VITYAZ6333-20; VITYAZ6333-22-GC; VITYAZ6333-23-TR; VITYAZ6333-26-GC; VITYAZ6333-2-TR; VITYAZ6333-3-GC; VITYAZ6333-5-GC; VITYAZ6333-7-GC; VITYAZ6333-8-GC; VITYAZ6334-GR; VITYAZ6335-GC; VITYAZ6339-GC; VITYAZ6343-TR; VITYAZ6344-TR; VITYAZ6348-TR; VITYAZ6352-TR; VITYAZ6356-TR; VITYAZ6358-TR; VITYAZ6359-TR; VITYAZ6360-TR; VITYAZ6364-TR; VITYAZ6365-TR; VITYAZ6366-DR; VITYAZ6367-DR; VITYAZ6368-DR; VITYAZ6369-DR; VITYAZ6405-PH; VITYAZ6408-PH; VITYAZ6704-GC; VITYAZ6706-DR; VITYAZ6817-GR; VITYAZ6818-TR; VITYAZ6819-TR; VITYAZ6821-GR; VITYAZ6822-DR; VITYAZ6824-GR; VITYAZ6825-GR; VITYAZ6826-GR; Vityaz Trench, Pacific Ocean
    Type: Dataset
    Format: application/zip, 14 datasets
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  • 6
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    Analysis of manganese crusts from Galapagos (1976)
    PANGAEA
    In:  Supplement to: Moore, Willard S; Vogt, Peter R (1976): Hydrothermal manganese crusts from two sites near the Galapagos spreading axis. Earth and Planetary Science Letters, 29(2), 349-356, https://doi.org/10.1016/0012-821X(76)90139-4
    Details
    Publication Date: 2023-08-28
    Description: Manganese oxide crusts similar to those reported from the Mid-Atlantic Ridge rift valley by Scott et al., 1974 (https://doi.pangaea.de/10.1594/PANGAEA.848726) were dredged at two sites near the Galapagos spreading axis on ocean floor estimated from magnetic anomalies to be 2.4 and 0.3 m.y. old. Compared to the typical ocean-floor manganese deposits attributed to precipitation from seawater, the 2-6 cm thick manganese crusts reported here exhibit very low Fe/Mn and low 232Th/238U ratios, as well as lower transition metal and higher manganese concentrations. The manganese crusts were deposited several orders of magnitude faster than the more common hydrogenous nodules; this fact together with other geochemical characteristics and the geophysical environment suggests the manganese deposits reported here are of hydrothermal origin.
    Keywords: NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 7
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    Annotated record of the detailed examination of Mn deposits on the coral banks of the continental shelf in the south-western coastal area of the Gulf of Mexico off Texas (1976)
    PANGAEA
    Details
    Publication Date: 2023-08-28
    Keywords: Baker_B; Big-Adam_B; BLM-75; Deposit type; DEPTH, sediment/rock; Description; Dream_B; Dredge; DRG; Event label; Gulf of Mexico; Gyre; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Position; Quantity of deposit; Sample ID; Size; Small-Adam_B; South-Baker_B; Southern-Hospital_B; Substrate type
    Type: Dataset
    Format: text/tab-separated-values, 42 data points
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  • 8
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    Annotated record of the detailed examination of Mn deposits on the coral banks of the continental shelf in the south-western coastal area of the Gulf of Mexico off Texas (1976)
    PANGAEA
    Details
    Publication Date: 2023-08-28
    Description: During U.S. Department of Interior, Bureau of Land Management (BLM) public hearings held in 1973, 1974 and 1975 prior to Texas Outer Continental Shelf (OCS) oil and gas lease sales, concern was expressed by the National Marine Fisheries Service, scientists from Texas A&M and the University of Texas and private citizens over the possible environmental impact of oil and gas drilling and production operations on coral reefs and fishing banks in or adjacent to lease blocks to be sold. As a result, certain restrictive regulations concerning drilling operations in the vicinity of the well documented coral reefs and biostromal communities at the East and West Flower Gardens were established by BLM, and Signal Oil Company was required to provide a biological and geological baseline study of the less well known Stetson Bank before a drilling permit could be issued. Considering the almost total lack of knowledge of the geology and biotic communities associated with the South Texas OCS banks lying in or near lease blocks to be offered for sale in 1975, BLM contracted with Texas A&M University to provide the biological and geological baseline information required to facilitate judgments as to the extent and nature of restrictive regulations on drilling near these banks which might be required to insure their protection. In pursuit of this, scientists from Texas A&M University were to direct their attention toward assessments of ground fish populations, unique biological and geological features, substratum type and distribution, and the biotic and geologic relationships between these banks and those farther north.
    Keywords: Baker_B; Big-Adam_B; BLM-75; Deposit type; DEPTH, sediment/rock; Description; Dream_B; Dredge; DRG; Event label; Gulf of Mexico; Gyre; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Position; Quantity of deposit; Sample ID; Size; Small-Adam_B; South-Baker_B; Southern-Hospital_B; Substrate type
    Type: Dataset
    Format: text/tab-separated-values, 42 data points
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  • 9
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    Annotated record of the detailed examination of Mn deposits from DSDP Leg 33 (Holes 314, 315A, 317A, 318) (1976)
    PANGAEA
    In:  Supplement to: Jenkyns, Hugh C (1976): Sediments and Sedimentary History, Manihiki Plateau, South Pacific Ocean. In: Schlanger, S.O.; Jackson, E.D.; et al., Initial Reports of the Deep Sea Drilling Project, U.S. Government Printing Office, XXXIII, 873-890, https://doi.org/10.2973/dsdp.proc.33.134.1976
    Details
    Publication Date: 2023-08-28
    Description: The Manihiki Plateau is an elevated area of shallow oceanic crust in the South Pacific; it was formed during Early Cretaceous time by profuse outpourings of basalt. DSDP Holes 317, 317A, and 317B, on which this account is based, are situated in a basinal area on the so called High Plateau, the shallowest part of the volcanic edifice, where depths range between 2000 and 3000 meters. The oldest sediments cored are Lower Cretaceous greenish-black volcaniclastics traversed by reddish-purple clay seams; these deposits commonly show evidence of redeposition, but the only possible shallow-water remains found are very rare bryozoan and echinoderm fragments.
    Keywords: 33-314; 33-315A; 33-317A; 33-318; Comment; Deep Sea Drilling Project; Deposit type; DEPTH, sediment/rock; Description; DRILL; Drilling/drill rig; DSDP; Event label; Glomar Challenger; Identification; Leg33; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; North Pacific/FAN; North Pacific/TROUGH; Position; Quantity of deposit; Sample code/label; Sediment type; Size; South Pacific/PLATEAU; South Pacific/RIDGE; Substrate type; Visual description
    Type: Dataset
    Format: text/tab-separated-values, 77 data points
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  • 10
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    Annotated record of the detailed examination of Mn deposits from the SOUTHTOW cruise over the Manihiki Plateau, Pacific Ocean (1976)
    PANGAEA
    In:  Supplement to: Clague, David A (1976): Petrology of Basaltic and Gabbroic Rocks Dredged from the Danger Islands Troughs, Manihiki Plateau. In: Schlanger, S.O.; Jackson, E.D.; et al., Initial Reports of the Deep Sea Drilling Project, U.S. Government Printing Office, XXXIII, 891-911, https://doi.org/10.2973/dsdp.proc.33.135.1976
    Details
    Publication Date: 2023-08-28
    Description: Dredging in the Danger Island Troughs, which divide the High and Western parts of the Manihiki Plateau, recovered several fresh pebbles of olivine tholeiite and tholeiite, a single pebble of highly altered gabbroic cumulate, and several dozen pebbles of altered variolitic basalt. Troughs suggests that at one time the troughs were the site of active faulting. A tectonic model for the evolution of the plateau, consistent with a fracture zone origin for the Danger Island Troughs, requires the formation of the Manihiki Plateau at a triple junction of the Pacific, Farallon, and Antarctic plates.
    Keywords: Comment; Deep Sea Drilling Project; Deposit type; DEPTH, sediment/rock; Description; Dredge; DRG; DSDP; File name; Identification; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Pacific Ocean; Position; Quantity of deposit; Sediment type; Size; SOTW11WT-068D; SOTW-68D; SOUTHTOW; Substrate type; Thomas Washington; Uniform resource locator/link to image; Visual description
    Type: Dataset
    Format: text/tab-separated-values, 11 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
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