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Cruise report SO-84: The St Helena hotspot : Las Palmas - Cape Town 02.01.93 - 20.02.93 = Fahrtbericht zur Forschungsreise SO-84: Der St Helena Hotspot (1993)

Devey, Colin W. 1961-

Kiel

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Schlagwort(e): Sankt Helena ; Mittelozeanischer Rücken ; Meeresgeologie ; Meeressediment ; Expedition

Materialart: Buch

Seiten: 103 S. , Graph. Darst., Kt.

Serie: Berichte / Geologisch-Paläontologisches Institut und Museum, Christian-Albrechts-Universität Kiel 64

Sprache: Englisch

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Annotated record of the detailed examination of Mn deposits from the 1993 R/V Sonne SO-84 expedition in the Atlantic Ocean (1993)

Devey, Colin W ; Ackermand, Dietrich ; Binard, Nicolas ; [weitere]

PANGAEA

In: Supplement to: Devey, Colin W; Ackermand, Dietrich; Binard, Nicolas; Chmarzynski, P; Franke-Bruckmaier, B; Geldmacher, Jörg; Graupner, T; Haake, F W; Haase, Karsten M; Hemond, Christophe; Krüger, O; Mühlhan, Norbert; O'Connor, John; Ott, S; Peucker-Ehrenbrink, Bernhard; Pototzki, Frank; Segl, Monika; Tichomirov, W (1993): Cruise report SO-84: The St Helena hotspot - Las Palmas-Cape Town 02.01.93-20.02.93. Berichte - Reports, Geologisch-Paläontologisches Institut und Museum, Christian-Albrechts-Universität, Kiel; 64; 1-103; ISSN 0175-9302, TIB - Technische Informationsbibliothek Universitätsbibliothek Hannover, Berichte-Reports, Geologisch-Paläontologisches Institut der Universität Kiel, 64, 103 pp, https://doi.org/10.2312/reports-gpi.1993.64

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Publikationsdatum: 2024-02-03

Beschreibung: The SO-84 cruise from Las Palmas to Cape Town studied the underwater volcanism associated with the St Helena hotspot. Wide-spaced grid mapping of a region south and west of St Helena island identified three previously unknown hotspot volcanoes (which we named Josephine 16°27'S-9°W, Jade 16°13'S-7°46'W and Benjamin 16°12'S-8°31'W) and several older, probably near-ridge-generated seamounts. The newly discovered hotspot seamounts, and the previously-known seamounts of Bagration, Bonaparte and Kutuzov were mapped and sampled. Onboard geochemical studies confirm that they all show trace-element (Rb, Nb, Y, Zr, Sr) enriched, hotspot magma-type compositions. Morphological studies and the state of the samples collected from the seamounts (all have at least 1 mm-thick Mn crusts) suggest that none of the volcanoes is presently active, and that the St Helena hotspot is probably extinct at the present time. Josephine appears to be the youngest volcano, and one dredge here yielded fossil hydrothermal material (Fe-hydroxides). To test the hypothesis that the extinction of the hotspot is due to its magmas being channelled to the Mid-Atlantic Ridge, several dredges were taken on the ridge opposite St Helena. Furthermore, in the proposed influence zone of the St Helena plume head, Grattan seamount (9°44'S-12°48'W) was also sampled to examine whether its composition has been affected by the St Helena plume. During the transit from Las Palmas to St Helena, several sediment cores were taken in 3000 m water depth close to the ridge axis for palaeoclimatological work.

Schlagwort(e): 12DS; 13DS; 14DS; 1DS; 20DS; 21DS; 22DS; 23DS; 24DS; 25DS; 26DS; 27DS; 31DS; 35DS; 37DS; 42DS; 43DS; 44DS; 47DS; 49DS; 53DS; 54DS; 55DS; 59DS; 60DS; 63DS; 64DS; 65DS; 68DS; 69DS; 71DS; 72DS; 74DS; 7DS; 83DS; Comment; Deposit type; DEPTH, sediment/rock; Description; Dredge; DRG; Event label; GIK/IfG; GIK17835-1; GIK17841-1; GIK17846-1; GIK17847-1; GIK17848-1; GIK17854-1; GIK17855-1; GIK17856-1; GIK17857-1; GIK17858-1; GIK17859-1; GIK17860-1; GIK17861-1; GIK17865-1; GIK17869-1; GIK17871-1; GIK17876-1; GIK17877-1; GIK17878-1; GIK17881-1; GIK17883-1; GIK17887-1; GIK17888-1; GIK17889-1; GIK17893-1; GIK17894-1; GIK17897-1; GIK17898-1; GIK17899-1; GIK17902-1; GIK17903-1; GIK17905-1; GIK17906-1; GIK17908-1; GIK17917-1; Identification; Institute for Geosciences, Christian Albrechts University, Kiel; NOAA and MMS Marine Minerals Geochemical Database; NOAA-MMS; Position; Quantity of deposit; Sediment type; Size; SO84; Sonne; South Atlantic; ST. HELENA HOTSPOT; Substrate type; Visual description

Materialart: Dataset

Format: text/tab-separated-values, 725 data points

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DATA PANGAEA

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Source compositions and melting processes in the Society and Austral plumes (South Pacific Ocean): Element and isotope (Sr, Nd, Pb, Th) geochemistry (1994)

Hémond, C. ; Devey, Colin W. ; Chauvel, C.

Elsevier

In: Chemical Geology, 115 (1-2). pp. 7-45.

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Publikationsdatum: 2017-12-06

Beschreibung: We present comprehensive geochemical analyses on samples from the active volcanoes of the Society and Austral hotspot chains, including data for major, trace and rare-earth elements, and Sr, Nd, Pb and Th isotopes. The latter can be used to determine the Th/U in the source at the time of melting, and so give a constraint on the absolute amount of incompatible-element fractionation occurring during melting. SiO2 vs. MgO variations show evidence for variable amounts of a nephelinitic melt component (low SiO2, low MgO) in all the magmas studied. The nephelinite is probably produced in the presence of CO2 during melting. Correlations between SiO2 and the degree of ThU fractionation (derived from Th isotope measurements) imply that the CO2-driven, nephelinitic melting is also responsible for fractionating the Th/U ratio. Comparing the Th isotopes with Sr, Nd and Pb isotopes, it is possible to place limits on the Th/U ratios in the EM II (Societies) and HIMU (Australs) sources. These are ∼ 3.4 and ⩽ 2.5, respectively. The Nb/U ratio, which was previously thought to be relatively constant in all oceanic volcanics (47 ± 10), is shown to be anomalously low (25 ± 5) in some of the Society Seamounts and high (60) in some of the Australs. This confirms the presence of continent-derived material in the Society source and suggests that HIMU volcanics may have elevated Nb/U ratios. The change in Pb isotope compositions in the Australs, from HIMU (e.g., Tubuai) before 6 Ma to the more recent, less extreme compositions seen for example at Macdonald, is the result of a small amount of subducted sediment contaminating the pure old recycled oceanic crust component which, before 6 Ma, yielded HIMU.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/0009-2541(94)90143-0

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Isotope and trace element geochemistry of MORB from the Nansen-Gakkel ridge at 86° north (1993)

Mühe, Richard ; Devey, Colin W. ; Bohrmann, H.

Elsevier

In: Earth and Planetary Science Letters, 120 (3-4). pp. 103-109.

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Publikationsdatum: 2016-11-14

Beschreibung: The geochemistry of mid-oceanic ridge basalts from 86°N (Arctic Ocean) provides, for the first time, an insight into the composition of the mantle around the North Pole. Our data show the source region of the Arctic basalts to possess traces of an enrichment similar to the DUPAL signature. This is remarkable since up to now the DUPAL signature has been believed to be present only in Indian but not in Atlantic or Pacific MORB. These results also argue against a model of whole-mantle convection, in which upwelling of enriched material at the equator is balanced by downwelling of depleted material at the poles

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/0012-821X(93)90233-Y

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The petrology and geochemistry of Vesteris Seamount, Greenland Basin - An intraplate alkaline volcano of non-plume origin (1994)

Haase, Karsten M. ; Devey, Colin W.

Oxford Univ. Press

In: Journal of Petrology, 35 (2). pp. 295-328.

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Publikationsdatum: 2018-05-04

Beschreibung: Vesteris Seamount is a solitary alkaline volcano in the Greenland Basin some 280 km NW of Jan Mayen. Topographic and geophysical studies have shown no sign of an associated plume trace. Evidence from ash layers in sediment cores around the volcano and dating of dredged samples show that it has been active in Quaternary times. The lavas from Vesteris studied here consist of basanites, tephrites, mugearite, and alkali basalts. Crystal fractionation models are consistent with the generation of the tephrites and mugearite from a basanitic parent. Extensive kaersutite fractionation is required late in the fractionation sequence to produce the extreme mugearite composition. Na-Al-Fe-rich green cores to many clinopyroxene phenocrysts at Vesteris suggest a fractionation history beginning at high pressure in the mantle. Differences between Vesteris and Jan Mayen in the ratios of highly incompatible trace elements such as Ce/Pb and Rb/Cs, which will not normally be fractionated from one another during mantle melting, suggest that the two are not derived from the same source. Relatively unradiogenic Sr isotope ratios (compared with Bulk Earth), and highly incompatible trace element patterns similar to those for St. Helena, suggest that Vesteris magmas are derived from a depleted, asthenospheric source. We propose that the Vesteris basanites are very low degree partial melts (˜1%) of this source, most probably those which give rise to the seismic low-velocity zone (LVZ). Such small-degree melts may preferentially tap small-scale heterogeneities in the asthenosphere. Vesteris lies at the intersection of two major structural trends in the Greenland Basin—(1) a zone of major reorientation of spreading direction on the Mohns Ridge north of Jan Mayen and (2) the extension of the Kolbeinsey Ridge axis. We propose that a combination of the extensional stress fields related to these two lineaments produces sufficient dilation of the lithosphere at Vesteris to allow magmas from the LVZ to reach the surface.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1093/petrology/35.2.295

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Devey, Colin W. ; Stephens, W.E.

Geological Society

In: In: Magmatism and the causes of continental breakup. , ed. by Storey, B. C., Alabaster, T. and Pankhurst, R. J. Geological Society Special Publication, 68 . Geological Society, London, UK, pp. 271-291. ISBN 0-903317-83-4

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Publikationsdatum: 2020-04-01

Beschreibung: The rocks of the Seychelles can be divided into two age groups, namely Precambrian granites and younger (Cretaceous/Tertiary) intrusive rocks. The latter can be further subdivided into alkaline ring complexes (as found on the islands of Silhouette and North Island) and basic dykes (on Praslin, Felicité and Mahé islands). Evidence from offshore seismic work and drill holes suggests that Cretaceous/Tertiary magmatism occurred over the whole Seychelles Bank, producing both flood basalts and central volcanic complexes. The flood basalts extend at least as far south as 10°S/60°E. The younger igneous rocks of the Seychelles show close similarities to the Deccan igneous rocks of India. Tholeiitic dykes from Praslin have previously been shown to resemble Bushe Formation tholeiites from the Deccan, and here we show that the Felicité Island dykes also resemble Bushe. We show also that the alkaline dykes of Mahé and North Island are chemically similar to the dykes at Murud on the west coast of India. Isotopically the Seychelles undersaturated rocks fall within the fields of the Deccan tholeiites. In India, alkaline magmatism post-dates the tholeiitic magmatism; the age difference is of the order of 3 Ma. This is similar to the age difference between shield-building and rejuvenated-stage magmatism on Hawaiian volcanoes, which has been related to reactivation of the volcanoes by the passage of the Hawaiian Arch. We propose that the Deccan alkaline magmatism is a continental equivalent of oceanic rejuvenated-stage volcanism.

Materialart: Book chapter , PeerReviewed

Format: text

DOI: 10.1144/GSL.SP.1992.068.01.17

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Geochemical effects of dynamic melting beneath ridges: Reconciling major and trace element variations in Kolbeinsey (and global) mid-ocean ridge basalt (1994)

Devey, Colin W. ; Garbe-Schönberg, C.-Dieter ; Stoffers, Peter ; [weitere]

AGU

In: Journal of Geophysical Research: Solid Earth, 99 (B5). pp. 9077-9095.

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Publikationsdatum: 2020-07-23

Beschreibung: Zero-age basalts dredged from the Kolbeinsey Ridge directly north of Iceland are mafic quartz tholeiites (MgO 6-10 wt. %), strongly depleted in incompatible elements. Fractionation-corrected Na2O contents ('Na(sub 8)') are amongst the lowest found on the global ridge system, implying that the degree of partial melting at Kolbeinsey is amongst the highest for all mid-ocean ridge basalt (MORB). In contrast, the basalts show large ranges of incompatible-element ratios (e.g., K2O/TiO2 of 0.01 to 0.12 and Nd/Sm of 2.1 to 2.9) not related to variations in radiogenic isotope ratios; this suggests recent enrichment/depletion events associated with small-degree partial melting as their cause, rather than long-lived source heterogeneity. Tholeiitic MORB from many regions globally show similar or more extreme variations in K2O/TiO2. Dynamic melting of an adiabatically upwelling source can reconcile these conflicting indications of the degree of melting. Through dynamic melting, the incompatible elements are partially separated into different melt fractions based on their bulk partition coefficients, more incompatible elements being concentrated in deeper, smaller-degree partial melts. The final erupted magma is a mix of melts from all depths in the melting column. The concentration of highly incompatible elements in the mix will be very sensitive to the physical processes allowing the deep melts to separate and migrate to the site of mixing, and small fluctuations in the efficiency of the separation process can account for the large range of trace element ratios seen at Kolbeinsey. The major element chemistry of the erupted mix (and Na(sub 8) is much more robust, depending mainly on the integrated total amount of melting. The large variations of incompatible element ratios seen at Kolbeinsey, and in MORB in general, therefore give no information about the total degree of melting occuring beneath the ridge, nor do they require a heterogeneous source.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1029/93JB03364

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Tholeiitic dykes in the Seychelles and the original spatial extent of the Deccan (1991)

Devey, Colin W. ; Stephens, W. E.

Geological Society of London

In: Journal of the Geological Society, 148 (6). pp. 979-983.

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Publikationsdatum: 2017-10-05

Beschreibung: We report geochemical data from c. Deccan age tholeiitic dykes from Praslin Island in the Seychelles, a continental fragment which lay adjacent to the coast of India before sea-floor spreading started in the Arabian Sea at 64 Ma. The dykes have compositions very similar to the distinctive Bushe magma-type from the Deccan, and hence constitute the first traces of Deccan activity recognized on the Seychelles. Fitting the Seychelles and India back together to reconstruct the original extent of the Deccan, we find that the present estimate of 1 million km2 needs to be revised upwards by c. 25% to account for the Deccan magmatism in the Seychelles. If dipping reflectors found on seismic lines to the northwest of the Seychelles are also Deccan age flows, this would increase still further the area and volume estimates.

Materialart: Article , PeerReviewed

DOI: 10.1144/gsjgs.148.6.0979

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Geochemistry of the Pitcairn seamounts, I: source character and temporal trends (1993)

Woodhead, J.D. ; Devey, Colin W.

Elsevier

In: Earth and Planetary Science Letters, 116 (1-4). pp. 81-99.

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Publikationsdatum: 2016-11-14

Beschreibung: Seabeam mapping in the central Pacific Ocean, southeast of Pitcairn Island, has revealed a number of large volcanic edifices, some of which appear to be currently active. Here we document the first isotope and trace element data obtained for dredge samples from these volcanoes which are believed to represent the present-day surface expression of the Pitcairn mantle plume. Striking linear trends in multi-isotope plots suggest the operation of a simple two-component mixing process in the genesis of these lavas with end-members of extreme EM-I and isotopically more depleted type. Isotope-trace element covariations allow limits to be placed upon the composition of the Pitcairn plume source, which is then compared with other EM-type oceanic islands. Current hypotheses for the generation of EM components are then evaluated in the light of these data. Temporal trends, similar to those seen on Pitcairn Island, are present within the seamount data, although samples equivalent to the post-shield formations on Pitcairn Island are not observed. These evolutionary trends suggest a high level origin for the depleted component rather than entrainment of asthenospheric material into a rising diapir. Three of the Pitcairn seamounts are much older, in the region of 20–25 Ma, and were probably formed in a near-ridge environment.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/0012-821X(93)90046-C

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Source and differentiation of Deccan Trap Lavas: Implications of geochemical and mineral chemical variations (1990)

Lightfoot, P. C. ; Hawkesworth, C. J. ; Devey, Colin W. ; [weitere]

Oxford Univ. Press

In: Journal of Petrology, 31 (5). pp. 1165-1200.

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Publikationsdatum: 2017-10-10

Beschreibung: The basalt stratigraphy of the Deccan Trap between Mahabaleshwar Ghat and Belgaum over-steps the basement from north to south. Sr-isotope and Zr/Nb ratios, and Sr, Rb, and Ba concentrations correlate portions of the post-Poladpur stratigraphy over 250 km along the Western Ghats, thereby confirming a southerly component of dip of 0·06°. At the southwestern margin, the stratigraphy extends upwards from the compositionally uniform Ambenali Formation (Cox & Hawkesworth, 1984) into a sequence of grossly heterogeneous flow units which have been allocated to the Mahabaleshwar and Panhala Formations (Lightfoot & Hawkesworth, 1988). The Mahabaleshwar Formation is represented only by a sequence of highly fractionated flows (termed the Kolhapur unit) with similar 87Sr/86Sr0 to the Mahabaleshwar (0·7045), but with Sr〈240 ppm and TiO2〉2·25%. Succeeding the Kolhapur unit are a series of flows with high 87Sr/86Sr0 (0·7045-0·705), Zr/Nb 〉 13, and low Sr (〈 200 ppm), which have been allocated to the Panhala Formation, and a group of flows with high 87Sr/86Sr0 (0·707–0·708) and Sr (〉230), but trace element concentrations similar to the Mahabaleshwar Formation; these have been allocated to the Desur unit of the Panhala. Geochemical variations in flows overlying the Ambenali define two distinct trends: one is attributed to gabbro fractionation, and the other to variations in the compositions of the parental magmas, and arguably their source regions. There is little evidence for significant crustal contamination in these flows, and the degree of fractionation and the composition of the phase extract are shown to vary along strike within the Mahabaleshwar Formation. The high TiO2 content of Kolhapur unit flows is shown to be the result of shallow-level gabbro fractionation, rather than the presence of a primitive high-Ti magma. Mahabaleshwar Formation basalts exhibit a broad negative correlation between the degree of fractionation and Sr-isotopic composition. The endmember with lower 87Sr/86Sr0 has different Zr/Y from the Ambenali basalts, and would appear to have been generated by lower degrees of melting of a similar source. The other endmember has more radiogenic Sr, lower Zr/Nb, similar Zr/Y, but higher mg-number. The simplest interpretation is that these magmas were more primitive and hence hotter and more able to interact with the lithosphere en route to the surface, and that they then mixed to produce the Mahabaleshwar array. The Panhala Formation basalts plot on the Sr-Nd array defined by the Mahabaleshwar Formation, and the Desur unit basalts plot on an extension of this array; this suggests that the source characteristics are also lithospheric. The absolute elemental abundances may then be a function of melting and fractionation. We are impressed by the apparent switch from crustal lithospheric contributions to mantle lithospheric contributions through the stratigraphy, and suggest that this, together with the more protracted fractionation of the magma, reflects a change in the availability of the lithospheric components accompanying the southerly migration of the volcanic edifice.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1093/petrology/31.5.1165

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