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Electronic Resource

The sandstone memory of the evolution of a Triassic volcanic arc in the Southern Alps, Italy (1985)

GARZANTI, EDUARDO

Oxford, UK : Blackwell Publishing Ltd

Sedimentology 32 (1985), S. 0

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ISSN: 1365-3091

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: The erosion of a southern volcanic belt provided the bulk of the fine-grained and moderately sorted siliciclastic detritus in the whole deltaic to lagoonal Carnian (Upper Triassic) sequence of the Bergamasc Alps. Volcanic input began in the Early Carnian (Calcare Metallifero Bergamasco) and became prominent in Early-Middle (Val Sabbia Sandstone) and Late Carnian times (S. Giovanni Bianco Fm.), after an intervening period of diminished supply (Gorno Fm.).The mineralogical and chemical composition of the sandstones compares closely with that of siliciclastics derived from modern, Pacific-type magmatic arcs and it testifies to an evolution of the source rocks from andesites and dacites during the deposition of the Val Sabbia Sandstone, towards rhyodacitic ignimbrites for the S. Giovanni Bianco Fm. The marked reduction in feldspars at the top of the sequence contrasts with the classical trend from Undissected to Dissected Magmatic Arc provenance and is ascribed to the progressive deepening of erosion into Middle Triassic felsic volcanics. An increase in undulatory and polycrystalline quartz grains in the Late Carnian shows that the erosion did reach deeper into the crystalline roots of the arc, although non-volcanic detritus never exceeded 10%.After a terminal pyroclastic event in Middle-Late Carnian times, suggested by the sudden appearance of pumiceous vitric clasts at the top of the Val Sabbia Sandstone, the mid-Triassic orogenic magmatism ended and was followed by the tensional stage which led to the birth of Neotethys.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3091.1985.tb00521.x

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Organic geochemistry of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: 1; 21; 22; 23; 3; AFRIDEEP; BC; Box corer; Carbon Preference Index, n-Alkanes (C25-C33); Center for Marine Environmental Sciences; DEPTH, sediment/rock; ECT-10-1; ECT-10-2; ECT-11-2; ECT-12-2; ECT-12-4; ECT-13-1; ECT-14-1; ECT-15-1; ECT-15-4; ECT-16-1; ECT-16-3; ECT-17-2; ECT-17-3; ECT-18-1; ECT-20-1; ECT-21-1; ECT-23-1; ECT-23-3; ECT-24-1; ECT-26-1; ECT-27-3; ECT-9-1; ECT-9-2; Event label; GeoB20602-1; GeoB20604-1; GeoB20607-1; GeoB20608-2; GeoB20609-1; GeoB20610-1; GeoB20611-1; GeoB20613-1; GeoB20615-1; GeoB20619-1; GeoB20624-2; GeoB20625-1; GeoB20628-1; GeoB9301-1; GeoB9302-5; GeoB9312-2; GeoB9313-3; GeoB9314-1; Limpopo Fan; M123; M123_161-1; M123_163-1; M123_166-1; M123_167-2; M123_168-1; M123_169-1; M123_170-1; M123_172-1; M123_174-1; M123_178-1; M123_183-2; M123_184-1; M123_187-1; M63/1; MARUM; Meteor (1986); MUC; MultiCorer; n-Alkane, average chain length; n-Alkane, C31/(C29+C31) ratio; n-Alkane C29, δ13C; n-Alkane C29, δD; n-Alkane C31, δ13C; n-Alkane C31, δD; n-Alkane C33, δ13C; n-Alkane C33, δD; North of Tugela Cone; South of Limpopo Fan; South of Tugela Cone; VC; Vibro corer

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Format: text/tab-separated-values, 356 data points

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Pollen records of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: Acanthaceae; Alchornea; Amaranthaceae/Chenopodiaceae; Anacardiaceae; Artemisia; Asteroideae; BC; Borreria; Boscia-type; Box corer; Caryophyllaceae; Celtis; Center for Marine Environmental Sciences; Clematis; Cyperaceae; DEPTH, sediment/rock; ECT-10-2; ECT-11-2; ECT-12-2; ECT-14-1; ECT-15-4; ECT-17-2; ECT-18-1; ECT-20-1; ECT-21-1; ECT-23-2; ECT-24-1; ECT-9-1; ECT-9-2; Euphorbia-type; Event label; Fraxinus; GC; GeoB20602-1; GeoB20604-1; GeoB20609-1; GeoB20610-1; GeoB20611-1; GeoB20615-1; GeoB20624-1; GeoB20625-1; Gramineae; Gravity corer; M123; M123_161-1; M123_163-1; M123_168-1; M123_169-1; M123_170-1; M123_174-1; M123_183-1; M123_184-1; MARUM; Meteor (1986); Mimosa-type; MUC; MultiCorer; Olea; Phyllanthus; Piliostigma; Plantago; Podocarpus; Pollen, total; Pterocarpus-type; Rhizophora; Rubiaceae; Vernonia-type; Ziziphus

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Format: text/tab-separated-values, 588 data points

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Bulk mineralogy of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: Amphibole; Ankerite; Ankerite-Dolomite; Aragonite; BC; Biotite; Box corer; Calcite; Center for Marine Environmental Sciences; Chlorite; Chloritoid; Clinopyroxene; Comment; DEPTH, sediment/rock; Dolomite; ECT-12-2; ECT-14-1; ECT-23-2; ECT-24-1; ECT-27-2; ECT-9-1; Epidote; Event label; Garnet; GeoB20602-1; GeoB20607-1; GeoB20608-2; GeoB20609-1; GeoB20610-1; GeoB20611-1; GeoB20613-1; GeoB20615-1; GeoB20619-1; GeoB20624-2; GeoB20625-1; GeoB20628-1; Glauconite; Illite; Iron oxide; Kalifeldspar; Kaolinite; M123; M123_161-1; M123_166-1; M123_167-2; M123_168-1; M123_169-1; M123_170-1; M123_172-1; M123_174-1; M123_178-1; M123_183-2; M123_184-1; M123_187-1; Magnetite; MARUM; Meteor (1986); Mixed layer clay minerals; Montmorillonite; MUC; MultiCorer; Muscovite; Orthopyroxene; Phyllosilicate; Plagioclase; Pyrite, FeS2; Quartz; Rutile; Serpentinite; Siderite; Silicon dioxide; Sillimanite; Smectite; Sodium chloride; Spinel; VC; Vibro corer; Zeolite; Zircon

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Format: text/tab-separated-values, 684 data points

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Petrography of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: BC; Box corer; Calcite; Center for Marine Environmental Sciences; Chert; Dolomite; ECT-10-2; ECT-11-2; ECT-12-3; ECT-14-1; ECT-15-4; ECT-16-3; ECT-17-3; ECT-18-1; ECT-19-2; ECT-20-1; ECT-2-1; ECT-21-1; ECT-22-2; ECT-23-3; ECT-24-1; ECT-27-3; Elevation of event; Event label; Feldspar; Fragments; GC; GeoB18302-1; GeoB18306-1; GeoB18307-1; GeoB18308-2; GeoB20607-1; GeoB20608-1; GeoB20610-2; GeoB20612-1; GeoB20614-1; GeoB20616-1; Gourits River; Gravity corer; Heavy minerals; Kalifeldspar; Latitude of event; Longitude of event; M102; M102_2182-1; M102_2253-1; M123; M123_166-1; M123_167-1; M123_169-2; M123_171-1; M123_173-1; M123_175-1; Mafic minerals; Marl; MARUM; Metabasite; Metamorphic index; Metapelite; Metasediments; Metavolcanic fragments; Meteor (1986); Mica; Microcline/Feldspar ratio; Minerals; MUC; MultiCorer; Plagioclase; Plagioclase/Feldspar ratio; Quartz; Quartz, polycrystalline/quartz, total ratio; Rock fragments; VC; Vibro corer

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Format: text/tab-separated-values, 632 data points

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Apsorption units at wavenumbers of several samples (2018)

Hahn, Annette ; Vogel, Hendrik ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: 355-U1456D; 355-U1457A; 355-U1457B; 5022-1A; Absorbance; Adelaide Island; Agulhas Basin; Antarctic Peninsula; ANT-I/2; ANT-II/3; ANT-II/4; ANT-III/3; ANT-IV/2; ANT-IV/3; ANT-IV/4; ANT-IX/4; ANT-V/4; ANT-VI/2; ANT-VI/3; ANT-VIII/3; ANT-X/2; ANT-X/4; ANT-X/5; Anvers Island; Argentine Islands; Atlantic Indik Ridge; Atlantic Ridge; Barents Sea; Bay of Bengal; BC; Bengal Sea Level; Box corer; Bransfield Strait; Camp Norway; Center for Marine Environmental Sciences; CTD/Rosette; CTD-RO; DEPTH, sediment/rock; DRILL; Drilling/drill rig; ECT-1-2; ECT-1-3; ECT-2-1; ECT-3-1a; ECT-3-1b; ECT-5-1; ECT-5-2; ECT-6-1; ECT-6-2; ECT-7-2; ECT-8-1; Event label; Exp355; Filchner Shelf; Filchner Trough; GC; GeoB11002-3; GeoB11014-2; GeoB11027-2; GeoB11028-2; GeoB11029-2; GeoB11030-2; GeoB18308-1; GeoB20602-1; GeoB20607-1; GeoB20608-2; GeoB20609-1; GeoB20610-1; GeoB20611-1; GeoB20613-1; GeoB20615-1; GeoB20619-1; GeoB20624-1; GeoB20625-1; GeoB20628-1; GeoB8331-4; Giant box corer; GKG; Gourits River; Gravity corer; Gravity corer (Kiel type); GTC14-2; GTC4-2; GTC8-1; GTC8-2; GTC9-1; Halley Bay; HPC; Hydraulic piston corer; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Joides Resolution; Kapp Norvegia; King George Island, Antarctic Peninsula; KL; Laguna Potrok Aike, Patagonia; Lazarev Sea; M102; M123; M123_161-1; M123_166-1; M123_167-2; M123_168-1; M123_169-1; M123_170-1; M123_172-1; M123_174-1; M123_178-1; M123_183-1; M123_184-1; M123_187-1; M57/1; MARUM; Maud Rise; Meteor (1986); MG; MIC; MiniCorer; MUC; Multiboxcorer; MultiCorer; ORF_1; ORF_11; ORF_12; ORF_15; ORF_17; ORF_18; ORF_19; ORF_21; ORF_22; ORF_23; ORF_24S; ORF_25; ORF_26; ORF_27S; ORF_29B; ORF_29S; ORF_30; ORF_33; ORF_40; ORF_41; ORF_8; Piston corer (BGR type); Polarstern; POS342; Poseidon; PS01; PS01/177; PS04; PS04/271; PS04/380; PS04/429; PS04/433; PS04/472; PS06/311; PS06/313; PS06 SIBEX; PS08; PS08/284; PS08/336; PS08/350; PS08/381; PS08/396; PS08/601; PS08/621; PS10; PS10/672; PS10/675; PS10/686; PS10/694; PS10/703; PS10/711; PS10/748; PS1016-1; PS1184-6; PS12; PS12/119; PS12/133; PS12/185; PS12/186; PS12/193; PS12/194; PS12/195; PS12/196; PS12/280; PS12/284; PS12/308; PS12/314; PS12/336; PS12/346; PS12/376; PS12/378; PS12/380; PS12/472; PS12/504; PS12/510; PS12/551; PS12/555; PS1204-1; PS1209-1; PS1210-1; PS1214-1; PS1281-1; PS1282-1; PS1333-2; PS1369-1; PS1376-2; PS1398-2; PS1406-1; PS1453-1; PS1459-1; PS1472-4; PS1474-1; PS1478-1; PS1481-2; PS1485-1; PS1487-1; PS1492-1; PS1539-1; PS1547-1; PS1554-1; PS1555-1; PS1557-1; PS1558-1; PS1559-1; PS1560-1; PS1584-2; PS1585-1; PS1594-1; PS1597-1; PS16; PS16/262; PS1605-3; PS1610-4; PS1623-2; PS1624-1; PS1625-1; PS1637-2; PS1642-1; PS1643-3; PS1651-2; PS1653-2; PS1750-7; PS18; PS18/232; PS18/249; PS18/256; PS20; PS20/208; PS20/219; PS2076-1; PS2091-1; PS2098-1; PS21 06AQANTX_4; PS22/780; PS22/846; PS22 06AQANTX_5; PS2223-1; PS2226-3; PS2230-1; PS2231-1; PS2243-1; PS2244-1; PS2283-3; PS2347-1; Sample code/label; SL; SO188/2; SO188/2_309; SO188/2_311; SO188/2_318; SO188/2_350; Sonne; South Atlantic; South Atlantic Ocean; Van Heesen Ridge; van Veen Grab; VC; Vestkapp; VGRAB; Vibro corer; Weddell Sea

Type: Dataset

Format: text/tab-separated-values, 334313 data points

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Inorganic geochemistry of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: 1; 21; 22; 23; 3; AFRIDEEP; Aluminium; BC; Box corer; Bromine; Calcium; Center for Marine Environmental Sciences; Chromium; Copper; DEPTH, sediment/rock; ECT-10-1; ECT-10-2; ECT-1-1; ECT-11-2; ECT-1-2; ECT-12-2; ECT-12-3; ECT-12-4; ECT-1-3; ECT-14-1; ECT-14-2; ECT-15-3; ECT-15-4; ECT-16-1; ECT-16-3; ECT-17-2; ECT-17-3; ECT-18-1; ECT-19-2; ECT-20-1; ECT-2-1; ECT-21-1; ECT-2-2; ECT-22-2; ECT-23-2; ECT-23-3; ECT-24-1; ECT-25-1; ECT-26-1; ECT-27-2; ECT-27-3; ECT-3-1; ECT-5-1; ECT-5-2; ECT-6-1; ECT-6-2; ECT-7-2; ECT-8-1; ECT-9-1; ECT-9-2; Event label; GeoB20602-1; GeoB20604-1; GeoB20607-1; GeoB20608-2; GeoB20609-1; GeoB20610-1; GeoB20611-1; GeoB20613-1; GeoB20615-1; GeoB20619-1; GeoB20624-2; GeoB20625-1; GeoB20628-1; GeoB9301-1; GeoB9302-5; GeoB9312-2; GeoB9313-3; GeoB9314-1; Gourits River; Iron; Limpopo Fan; M123; M123_161-1; M123_163-1; M123_166-1; M123_167-2; M123_168-1; M123_169-1; M123_170-1; M123_172-1; M123_174-1; M123_178-1; M123_183-2; M123_184-1; M123_187-1; M63/1; Magnesium; Manganese; MARUM; Meteor (1986); MUC; MultiCorer; Nickel; North of Tugela Cone; Potassium; Rubidium; Sample ID; Silicon; South of Limpopo Fan; South of Tugela Cone; Strontium; Sulfur, total; Titanium; VC; Vibro corer; Zinc; Zirconium

Type: Dataset

Format: text/tab-separated-values, 1062 data points

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Apsorption units at wavenumbers and mineral content of several samples (2018)

Hahn, Annette ; Vogel, Hendrik ; Andó, Sergio ; [et al.]

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In: Supplement to: Hahn, Annette; Vogel, Hendrik; Andó, Sergio; Garzanti, Eduardo; Kuhn, Gerhard; Lantzsch, Hendrik; Schüürman, Jan; Vogt, Christoph; Zabel, Matthias (2018): Using Fourier transform infrared spectroscopy to determine mineral phases in sediments. Sedimentary Geology, 375, 27-35, https://doi.org/10.1016/j.sedgeo.2018.03.010

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Publication Date: 2024-04-11

Description: In paleoenvironmental studies, the mineralogical composition of sediments is an important indicator. In combination with other indicators, they contribute to the understanding of changes in sediment sourcing as well as in weathering and depositional processes. Fourier transform infrared spectroscopy (FTIRS) spectra contain information on mineralogical composition because each mineral has a unique absorption pattern in the mid-IR range. Although easily obtained, FTIR spectra are often too complex to infer mineral concentrations directly. In this study, we use a calibration set of ca. 200 sediment samples conventionally measured using X-ray diffraction (XRD) in order to develop multivariate, partial least squares (PLS) regression models relating mineral contents to sediment spectra. Good correlations were obtained for the most common minerals (e.g. quartz, K-feldspar, illite, plagioclase, smectite, calcite). Correlation coefficients ranged from 0.85 to 0.92, coefficients for the validation varied from 0.64 to 0.80, the number of latent variables (PLS regression components) in the models ranged between 3 and 7 and the range of variation of the RMSEcv gradient was from 15.28 to 5.7.

Keywords: Center for Marine Environmental Sciences; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; MARUM; RAiN; Regional Archives for Integrated iNvestigations

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Format: application/zip, 2 datasets

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Southeast African provenance study (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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In: Supplement to: Hahn, Annette; Miller, Charlotte; Andó, Sergio; Bouimetarhan, Ilham; Cawthra, Hayley C; Garzanti, Eduardo; Green, Andrew N; Radeff, Giuditta; Schefuß, Enno; Zabel, Matthias (2018): The provenance of terrigenous components in marine sediments along the east coast of southern Africa. Geochemistry, Geophysics, Geosystems, 19(7), 1946-1962, https://doi.org/10.1029/2017GC007228

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Publication Date: 2024-04-11

Description: Terrestrial signals in marine sediment archives are often used for paleoclimatic reconstructions. It is therefore important to know the origin of the different terrestrial sedimentary components. The proximity to a river mouth is often the key location to determine the source. Especially in regions with strong ocean currents, such an assumption might,however, lead to considerable misinterpretations. To investigate the source of various terrigenous sediment fractions in southeastern Africa, a region with strong sediment redistribution, we have performed an extensive comparison between terrestrial material (pollen, plant lipids, detrital modes and heavy minerals as well as bulk inorganic geochemical composition) from potential source regions and the same components in the adjacent coastal and continental shelf sediments. Onshore the proxy‐indicators reflect small‐scale diversity in sampling locations and associated environments (riverbank sediments, flood deposits, suspension loads and soils). Nevertheless, the overall trends reflect significant environmental gradients along a SW to NE transect. We note a general comparability of the studied parameters between the continental and marine sediments regardless of their specific differences in transport and depositional characteristics. We propose that the influence of the Agulhas Current affects sediment deposition and distribution only seaward of the mid‐shelf and that pockets of sediment remain preserved in the lee of coastal protrusions where they are protected from erosion. This study provides the essential prerequisite to allow the attribution of temporal variations of compositional changes in marine sediment cores to environmental changes in southeastern Africa.

Keywords: Center for Marine Environmental Sciences; MARUM

Type: Dataset

Format: application/zip, 6 datasets

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Heavy minerals of surface sediment samples from southeast Africa (2017)

Hahn, Annette ; Miller, Charlotte ; Andó, Sergio ; [et al.]

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Publication Date: 2024-04-11

Keywords: Amphibole; Andalusite; Apatite; BC; Biotite; Box corer; Carbonates; Center for Marine Environmental Sciences; Chlorite; Chloritoid; Clinopyroxene; DEPTH, sediment/rock; ECT-10-2; ECT-11-2; ECT-12-3; ECT-14-1; ECT-15-4; ECT-17-3; ECT-18-1; ECT-20-1; ECT-21-1; ECT-22-2; ECT-23-3; ECT-24-1; ECT-27-3; Elevation of event; Epidote; Event label; Garnet; GC; GeoB18302-1; GeoB18308-2; GeoB20604-1; GeoB20607-1; GeoB20608-2; GeoB20609-1; GeoB20610-2; GeoB20611-1; GeoB20612-1; GeoB20613-1; GeoB20614-1; GeoB20615-2; GeoB20616-1; Glauconite; Gravity corer; Heavy minerals, turbid; Hornblende color index; Iron oxide; Kyanite; Latitude of event; Light minerals; Longitude of event; M102; M102_2182-1; M102_2253-1; M123; M123_163-1; M123_166-1; M123_167-2; M123_168-1; M123_169-2; M123_170-1; M123_171-1; M123_172-1; M123_173-1; M123_174-2; M123_175-1; MARUM; Metamorphic minerals, low-grade; Meteor (1986); Minerals; Minerals, other; Monazite; MUC; MultiCorer; Olivine; Opaque minerals; Orthopyroxene; Rock fragments; Sillimanite; Soil organic matter; Spinel; Staurolite; Titanite; Titanium dioxide; Transparent minerals; Zircon

Type: Dataset

Format: text/tab-separated-values, 867 data points

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