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  • 1
    E-Ressource
    E-Ressource
    An in situ section of upper oceanic crust formed by superfast seafloor spreading : covering leg 206 of the cruises of the drilling vessel JOIDES resolution ; Balboa, Panama, to Balboa, Panama, site 1256, 6 November 2002 - 4 January 2003 (2007)
    College Station, Tex. : Ocean Drilling Program, Texas A&M Univ.
    Details Verfügbarkeit
    Materialart: Elektronische Ressource
    Seiten: 1 CD-ROM , 1 Booklet (XV, 15,15 S.)
    Serie: Proceedings of the ocean drilling program 206.2002/03
    Sprache: Englisch
    Standort Signatur Einschränkungen Verfügbarkeit
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    GEOMAR KATALOG
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  • 2
    E-Ressource
    E-Ressource
    Expedition reports, Superfast Spreading Rate Crust 4 : Expedition 335 of the riserless drilling platform Puntarenas, Costa Rica, to Balboa, Panama, site 1256, 13 April - 3 June 2011 (2012)
    Washington, DC : IODP
    Details Verfügbarkeit
    Schlagwort(e): DVD-ROM ; Costa Rica ; Ocean Drilling Program
    Materialart: Elektronische Ressource
    Seiten: 1 DVD-ROM , 1 Beibl. , 12 cm
    Serie: Proceedings of the integrated ocean drilling program 335
    Sprache: Englisch
    Standort Signatur Einschränkungen Verfügbarkeit
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    GEOMAR KATALOG
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  • 3
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    Chlorine-rich amphibole in deep layered gabbros as evidence for brine/rock interaction in the lower oceanic crust: A case study from the Wadi Wariyah, Samail Ophiolite, Sultanate of Oman (2018)
    Elsevier
    In:  Lithos, 323 . pp. 125-136.
    Details
    Publikationsdatum: 2021-02-08
    Beschreibung: Highlights • Cl-rich amphibole (〈1.5 a.p.f.u. Cl) indicates equilibrium with Cl-rich fluid. • Interaction of amphibole with Cl-bearing fluid occurs in rock-dominated environment. • Fluid evolution and changing temperatures recorded in variations in amphibole composition. • Veins and dykelets in lower oceanic crust as signs of hydrothermal alteration. Abstract Hydrothermal veins and dykelets that cross-cut layered olivine gabbros deep in the plutonic section of the Samail Ophiolite, Sultanate of Oman, point towards the occurrence of hydrothermal circulation in the deep oceanic crust, and these features record interactions between rock and high temperature seawater-derived fluids or brines. Deep penetration of seawater-derived fluids down to 100 m above the Moho transition zone and the consequent interactions with the host rock lead to hydrothermal alteration from granulite facies grading down to greenschist facies conditions. Here we present a study of veins and dykelets formed by hydrothermal interaction cutting layered gabbro in the Wadi Wariyah, using petrographic, microanalytical, isotopic, and structural methods. We focus on amphiboles, which show a conspicuous compositional variation from high-Ti magnesiohastingsite and pargasite via magnesiohornblende and edenite, to Cl-rich ferropargasite and hastingsite (up to 1.5 a.p.f.u. Cl) and actinolite. These minerals record a wide range of formation conditions from magmatic to hydrothermal, and reveal a complex history of interactions between rock and hydrothermal fluid or brine in a lower oceanic crustal setting. Large variations in Cl content and cation configurations in amphibole suggest formation in equilibrium with fluids of different salinities at variable fluid/rock ratios. The presence of subsolidus amphibole extremely enriched in chlorine implies phase separation and brine/rock interactions. 87Sr/86Sr values of 0.7031 to 0.7039 and stable δ18O isotopic compositions of 4.1 to 5.6‰ of the different amphibole types suggest a rock-dominated environment, i.e. with low fluid/rock ratios. However, the slight departure from mean Oman isotope values may indicate there was some influence of seawater in the aforementioned fluid-rock interactions. Our study provides new petrological data for the subsolidus evolution of gabbro-hosted amphibole-rich veins in the presence of a seawater-derived fluid.
    Materialart: Article , PeerReviewed
    Format: text
    DOI: 10.1016/j.lithos.2018.09.015
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    OceanRep: Artikel in einer Fachzeitschrift - begutachtet
  • 4
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    Northeast Atlantic breakup volcanism and consequences for Paleogene climate change - MagellanPlus Workshop report (2019)
    Copernicus Publications (EGU)
    In:  Scientific Drilling, 26 . pp. 69-85.
    Details
    Publikationsdatum: 2021-03-26
    Beschreibung: The northeast Atlantic encompasses archetypal examples of volcanic rifted margins. Twenty-five years after the last ODP (Ocean Drilling Program) leg on these volcanic margins, the reasons for excess melting are still disputed with at least three competing hypotheses being discussed. We are proposing a new drilling campaign that will constrain the timing, rates of volcanism, and vertical movements of rifted margins. This will allow us to parameterise geodynamic models that can distinguish between the hypotheses. Furthermore, the drilling-derived data will help us to understand the role of breakup magmatism as a potential driver for the Palaeocene–Eocene thermal maximum (PETM) and its influence on the oceanographic circulation in the earliest phase of the northeast Atlantic Ocean formation. Tackling these questions with a new drilling campaign in the northeast Atlantic region will advance our understanding of the long-term interactions between tectonics, volcanism, oceanography, and climate and the functioning of subpolar northern ecosystems and climate during intervals of extreme warmth.
    Materialart: Article , PeerReviewed
    Format: text
    DOI: 10.5194/sd-26-69-2019
    Standort Signatur Einschränkungen Verfügbarkeit
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  • 5
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    Fluid–rock interactions in the shallow Mariana forearc: carbon cycling and redox conditions (2021)
    Details
    Publikationsdatum: 2022-01-25
    Beschreibung: Few data exist that provide insight into pro- cesses affecting the long-term carbon cycle at shallow fore- arc depths. To better understand the mobilization of C in sediments and crust of the subducting slab, we investigated carbonate materials that originate from the subduction chan- nel at the Mariana forearc (〈 20 km) and were recovered during International Ocean Discovery Program Expedition 366. Calcium carbonates occur as vein precipitates within metavolcanic and metasedimentary clasts. The clasts repre- sent portions of the subducting lithosphere, including ocean island basalt, that were altered at lower blueschist facies conditions and were subsequently transported to the fore- arc seafloor by serpentinite mud volcanism. Euhedral arag- onite and calcite and the lack of deformation within the veins suggest carbonate formation in a stress-free environ- ment after peak metamorphism affected their hosts. Inter- growth with barite and marked negative Ce anomalies in car- bonate attest the precipitation within a generally oxic envi- ronment, that is an environment not controlled by serpen- tinization. Strontium and O isotopic compositions in car- bonate (87Sr/86Sr = 0.7052 to 0.7054, δ18OVSMOW = 20 to 24 ‰) imply precipitation from slab-derived fluids at tem- peratures between ∼ 130 and 300 ◦C. These temperature es- timates are consistent with the presence of blueschist facies phases such as lawsonite coexisting with the carbonates in some veins. Incorporated C is inorganic (δ13CVPDB = −1 ‰ to +4 ‰) and likely derived from the decarbonation of cal- careous sediment and/or oceanic crust. These findings pro- vide evidence for the mobilization of C in the downgoing slab at depths of 〈 20 km. Our study shows for the first time in detail that a portion of this C forms carbonate precipitates in the subduction channel of an active convergent margin. This process may be an important asset in understanding the deep carbon cycle since it highlights that some C is lost from the subducting lithosphere before reaching greater depths.
    Beschreibung: research
    Schlagwort(e): FID-GEO-DE-7
    Sprache: Englisch
    Materialart: map
    Standort Signatur Einschränkungen Verfügbarkeit
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    CITATION GEO-LEO
  • 6
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    Expedition 390 Preliminary Report: South Atlantic Transect 1 (2023)
    International Ocean Discovery Program
    Details
    Publikationsdatum: 2023-02-06
    Beschreibung: The South Atlantic Transect (SAT) is a multidisciplinary scientific ocean drilling project that comprises four International Ocean Discovery Program (IODP) expeditions: engineering Expeditions 390C and 395E as well as Expeditions 390 and 393. Altogether, the expeditions aim to recover complete sedimentary sections and the upper 100–350 m of the underlying oceanic crust along a slow/intermediate spreading rate Mid-Atlantic Ridge crustal flow line at ~31°S. The sediments along this transect were originally spot cored more than 50 y ago during Deep Sea Drilling Project Leg 3 (December 1968–January 1969) to help verify the theories of seafloor spreading and plate tectonics. Given dramatic advances in drilling technology and analytical capabilities since Leg 3, many high-priority scientific objectives can be addressed by revisiting the transect. The SAT expeditions target six primary sites on 7, 15, 31, 49, and 61 Ma ocean crust, which fill critical gaps in our sampling of intact in situ ocean crust with regards to crustal age, spreading rate, and sediment thickness. Drilling these sites is required to investigate the history of the low-temperature hydrothermal interactions between the aging ocean crust and the evolving South Atlantic Ocean and quantify past hydrothermal contributions to global biogeochemical cycles. Samples from the transect of the previously unexplored sediment- and basalt-hosted deep biosphere beneath the South Atlantic Gyre are essential to refining global biomass estimates and examining microbial ecosystems’ responses to variable conditions in a low-energy gyre and aging ocean crust. The transect is located near World Ocean Circulation Experiment Line A10, providing access to records of carbonate chemistry and deepwater mass properties across the western South Atlantic through key Cenozoic intervals of elevated atmospheric CO2 and rapid climate change. Reconstruction of the history of the deep western boundary current and deepwater formation in the Atlantic basins will yield crucial data to test hypotheses regarding the role of evolving thermohaline circulation patterns in climate change and the effects of tectonic gateways and climate on ocean acidification. Engineering Expeditions 390C and 395E cored a single hole through the sediment/basement interface with the advanced piston corer/extended core barrel system at five of the six primary proposed SAT sites and installed a reentry system with casing either into basement or within 10 m of basement at each of those five sites. Expedition 390 (7 April–7 June 2022) conducted operations at three of the SAT sites, recovering 700 m of core (77% recovery) over 30.3 days of on-site operations. Sediment coring, basement drilling, and logging were conducted at two sites on 61 Ma crust, and sediment coring was completed at the 7 Ma crust site. At Site U1557 on 61 Ma crust, the drill bit was deposited on the seafloor prior to downhole logging, leaving Hole U1557D available for future deepening and to establish a legacy borehole for basement hydrothermal and microbiological experiments. Expedition 390 scientists additionally described, and analyzed data from, 792 m of core collected during Expeditions 390C and 395E. Expedition 393 plans to operate at four sites, conducting basement drilling and downhole logging at the 7 Ma site, in addition to sediment coring, basement drilling, and logging at the sites intermediate in age.
    Beschreibung: Published
    Beschreibung: 1A. Geomagnetismo e Paleomagnetismo
    Repository-Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Materialart: book
    Standort Signatur Einschränkungen Verfügbarkeit
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    ARTIKEL (OA)
  • 7
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    Fluid-rock interactions in the shallow Mariana forearc: Carbon cycling and redox conditions (2019)
    European Geosciences Union
    Details
    Publikationsdatum: 2022-05-26
    Beschreibung: © The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Albers, E., Bach, W., Klein, F., Menzies, C. D., Lucassen, F., & Teagle, D. A. H. Fluid-rock interactions in the shallow Mariana forearc: Carbon cycling and redox conditions. Solid Earth, 10(3), (2019): 907-930, doi: 10.5194/se-10-907-2019.
    Beschreibung: Few data exist that provide insight into processes affecting the long-term carbon cycle at shallow forearc depths. To better understand the mobilization of C in sediments and crust of the subducting slab, we investigated carbonate materials that originate from the subduction channel at the Mariana forearc (〈 20 km) and were recovered during International Ocean Discovery Program Expedition 366. Calcium carbonates occur as vein precipitates within metavolcanic and metasedimentary clasts. The clasts represent portions of the subducting lithosphere, including ocean island basalt, that were altered at lower blueschist facies conditions and were subsequently transported to the forearc seafloor by serpentinite mud volcanism. Euhedral aragonite and calcite and the lack of deformation within the veins suggest carbonate formation in a stress-free environment after peak metamorphism affected their hosts. Intergrowth with barite and marked negative Ce anomalies in carbonate attest the precipitation within a generally oxic environment, that is an environment not controlled by serpentinization. Strontium and O isotopic compositions in carbonate (87Sr∕86Sr = 0.7052 to 0.7054, δ18OVSMOW = 20 to 24 ‰) imply precipitation from slab-derived fluids at temperatures between ∼130 and 300 ∘C. These temperature estimates are consistent with the presence of blueschist facies phases such as lawsonite coexisting with the carbonates in some veins. Incorporated C is inorganic (δ13CVPDB = −1 ‰ to +4 ‰) and likely derived from the decarbonation of calcareous sediment and/or oceanic crust. These findings provide evidence for the mobilization of C in the downgoing slab at depths of 〈 20 km. Our study shows for the first time in detail that a portion of this C forms carbonate precipitates in the subduction channel of an active convergent margin. This process may be an important asset in understanding the deep carbon cycle since it highlights that some C is lost from the subducting lithosphere before reaching greater depths.
    Beschreibung: Funding was provided by the Deutsche Forschungsgemeinschaft (grant no. BA1605/18-1) and the Natural Environment Research Council (grant no. NE/P020909/1). Elmar Albers received financial support from the BremenIDEA out-program and from GLOMAR – Bremen International Graduate School for Marine Sciences.
    Repository-Name: Woods Hole Open Access Server
    Materialart: Article
    Standort Signatur Einschränkungen Verfügbarkeit
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    ARTIKEL (OA)
  • 8
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    What Lies Beneath: the formation and evolution of oceanic lithosphere (2019)
    Oceanography Society
    Details
    Publikationsdatum: 2022-05-26
    Beschreibung: Author Posting. © Oceanography Society , 2019. This article is posted here by permission of Oceanography Society for personal use, not for redistribution. The definitive version was published in Michibayashi, K., M. Tominaga, B. Ildefonse, and D.A.H. Teagle. What lies beneath: The formation and evolution of oceanic lithosphere. Oceanography 32(1), (2019):138–149, doi:10.5670/oceanog.2019.136.
    Beschreibung: Sampling the upper mantle via scientific ocean drilling remains elusive. Although the technologies required for drilling to the Moho still don’t exist, we have made significant progress over the last five decades in piecing together the complex geology of the oceanic crust. Here, we highlight key findings that reveal the architecture of oceanic crust and the thermal, physical, and chemical processes that are responsible for the growth and structure of the oceanic lithosphere. These advances result from enduring efforts to drill and collect downhole geophysical logs of oceanic crust near both slow and fast spreading ridges.
    Beschreibung: This work used samples and data provided by the International Ocean Discovery Program (IODP). The manuscript benefited from thorough and helpful reviews by B.E. John and D.K. Blackman with editorship by D. Saffer and A. Koppers. We thank the USIO teams and JOIDES Resolution crews for their invaluable assistance and outstanding work during IODP expeditions. This work was supported by a research grant awarded to K.M. by the Japan Society for the Promotion of Science (Kiban-S 16H06347) and Japan Drilling Earth Science Consortium (J-DESC).
    Repository-Name: Woods Hole Open Access Server
    Materialart: Article
    Standort Signatur Einschränkungen Verfügbarkeit
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    ARTIKEL (OA)
  • 9
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    Geochmistry and isotopic compositions of metavolcanic and metasedimentary rock-hosted minerals and serpentinite mud pore waters, recovered at the Mariana forearc during IODP Exp366 (2019)
    PANGAEA
    In:  Supplement to: Albers, Elmar; Bach, Wolfgang; Klein, Frieder; Menzies, C D; Lucassen, Friedrich; Teagle, Damon A H (2019): Fluid–rock interactions in the shallow Mariana forearc: carbon cycling and redox conditions. Solid Earth, 10(3), 907-930, https://doi.org/10.5194/se-10-907-2019
    Details
    Publikationsdatum: 2023-01-30
    Beschreibung: Few data exist that provide insight into processes affecting the long-term carbon cycle at shallow forearc depths. To better understand the mobilization of carbon in sediments and crust of the subducting slab, we investigated carbonate materials that originate from the subduction channel at the Mariana forearc (〈 20 km) and were recovered during International Ocean Discovery Program Expedition 366. The calcium carbonates exist as vein precipitates within metavolcanic and metasedimentary clasts. The clasts represent portions of the subducting lithosphere, including ocean island basalt, that were altered at lower blueschist facies conditions and were subsequently transported to the forearc seafloor by serpentinite mud volcanism. Euhedral aragonite and calcite and the lack of deformation within the veins suggest carbonate formation in a strain-free environment, that is after peak metamorphism affected their hosts. Intergrowth with barite and marked negative Ce anomalies in carbonate attest the precipitation within a generally oxic environment that was not controlled by serpentinization. Strontium and O isotopic compositions in carbonate (87Sr/86Sr = 0.7052 to 0.7054, δ18OVSMOW = 20 to 24 ‰) imply precipitation from slab-derived fluids at temperatures between ~ 130 and 300 °C. These temperature estimates are consistent with the presence of blueschist facies phases, such as lawsonite coexisting with the carbonates in some veins. Incorporated carbon is inorganic (δ13CVPDB = −1 to +4 ‰) and likely derived from the decarbonation of carbonaceous sediment and/or oceanic crust. These findings provide evidence for the mobilization of carbon in the downgoing slab at depths of 〈 20 km. Our study for the first time shows in detail that a portion of this carbon forms carbonate precipitates in the subduction channel of an active convergent margin. This process may be an important asset in understanding the deep carbon cycle since it highlights that C is lost from the subducting lithosphere before reaching greater depths.
    Schlagwort(e): Carbon cycling; IODP Exp. 366; Mariana forearc; Redox conditions; Serpentinite mud volcanism; Serpentinization
    Materialart: Dataset
    Format: application/zip, 6 datasets
    Standort Signatur Einschränkungen Verfügbarkeit
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    DATA PANGAEA
  • 10
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    XRD raw data from IODP Exp335 (2013)
    PANGAEA
    Details
    Publikationsdatum: 2023-02-24
    Schlagwort(e): 335-U1256D; DRILL; Drilling/drill rig; Elevation of event; Event label; Exp335; File format; File size; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Joides Resolution; Latitude of event; Longitude of event; Superfast Spreading Rate Crust 4; Uniform resource locator/link to raw data file
    Materialart: Dataset
    Format: text/tab-separated-values, 3 data points
    Standort Signatur Einschränkungen Verfügbarkeit
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    DATA PANGAEA
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