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  • 1
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    Tephrostratigraphy and Provenance From IODP Expedition 352, Izu-Bonin arc: Tracing Tephra Sources and Volumes From the Oligocene to the Recent (2018)
    AGU (American Geophysical Union) | Wiley
    In:  Geochemistry, Geophysics, Geosystems, 19 (1). pp. 150-174.
    Details
    Publikationsdatum: 2021-03-19
    Beschreibung: Provenance studies of widely distributed tephras, integrated within a well-defined temporal framework, are important to deduce systematic changes in the source, scale, distribution and changes in regional explosive volcanism. Here, we establish a robust tephro-chronostratigraphy for a total of 157 marine tephra layers collected during IODP Expedition 352. We infer at least three major phases of highly explosive volcanism during Oligocene to Pleistocene time. Provenance analysis based on glass composition assigns 56 of the tephras to a Japan source, including correlations with 12 major and widespread tephra layers resulting from individual eruptions in Kyushu, Central Japan and North Japan between 115 ka and 3.5 Ma. The remaining 101 tephras are assigned to four source regions along the Izu-Bonin arc. One, of exclusively Oligocene age, is proximal to the Bonin Ridge islands; two reflect eruptions within the volcanic front and back-arc of the central Izu-Bonin arc, and a fourth region corresponds to the Northern Izu-Bonin arc source. First-order volume estimates imply eruptive magnitudes ranging from 6.3 to 7.6 for Japan-related eruptions and between 5.5 and 6.5 for IBM eruptions. Our results suggest tephras between 30 and 22 Ma that show a subtly different Izu-Bonin chemical signature compared to the recent arc. After a ∼11 m.y. gap in eruption, tephra supply from the Izu-Bonin arc predominates from 15 to 5 Ma, and finally a subequal mixture of tephra sources from the (palaeo)Honshu and Izu-Bonin arcs occurs within the last ∼5 Ma.
    Materialart: Article , PeerReviewed
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    DOI: 10.1002/2017GC007100
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  • 2
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    The Miocene Galápagos ash layer record of Integrated Ocean Drilling Program Site Legs 334 and 344: Ocean-island explosive volcanism during plume-ridge interaction (2015)
    GSA (Geological Society of America)
    In:  Geology, 43 (7). pp. 599-602.
    Details
    Publikationsdatum: 2019-10-24
    Beschreibung: Drilling at Integrated Ocean Drilling Program Site U1381 on the Cocos Ridge offshore Costa Rica recovered 67 primary Miocene (ca. 8 Ma to ca. 16.5 Ma) marine fallout ash layers. Geochemical, volcanological, and geological criteria link these ashes to Plinian eruptions that carried ash to at least 50–450 km from the Galápagos hotspot. These ash layers are the first documentation of highly explosive Miocene Galápagos hotspot volcanism. This volcanism is bimodal with two-thirds of the tephra layers generated by basaltic magmas (glass compositions 〈57 wt% SiO2) and one-third by rhyolitic magmas. The temporal distribution of the tephra layers, inferred from sediment accumulation rates calibrated by 40Ar/39Ar and biostratigraphic ages, reveals a distinct increase in eruption frequency and hence increased volcanic activity of the Galápagos hotspot after 14 Ma which we interpret in the context of dynamic interaction between the Galápagos plume and spreading ridge.
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    DOI: 10.1130/G36645.1
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  • 3
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    Plinian Galápagos volcanism- evidence in ODP/IODP Legs offshore Central America (2015)
    In:  [Poster] In: IODP/ICDP Kolloquium 2015, 02.-04.03.2015, Bonn, Deutschland .
    Details
    Publikationsdatum: 2019-09-23
    Beschreibung: Drill cores recovered during several ODP and IODP Expeditions offshore Central America contain an extensive Early Cenozoic ash layer record. These ash layers have been deposited by plinian eruptions that originated either at the Central American Volcanic Arc (CAVA) or at the Galápagos Hot Spot. While plinian eruptions are well known from the CAVA, volcanism from the Galápagos region is dominantly recorded in effusive and strombolian deposits from subaerial and submarine eruptions although rare large explosive eruptions of evolved trachytic or dacitic compositions did occur in the Pleistocene (e.g., Geist et al., 1994).We have established a tephrostratigraphy from recent through Miocene times from the unique archive of ODP/IODP sites offhore Central America in which we identify tephra source regions by geochemical compositions of the glass shards. Thus we found numerous CAVA-derived tephra layers characterized by typical arc signatures (e.g., Nb-Ta troughs, LILE enrichments), but more surprisingly also an extensive record of tephra layers mostly of Miocene age featuring ocean island geochemical compositions (e.g., low La/Nb and Ba/La ratios, high Nb/Rb ratios). At this geographical setting the only plausible source for these layers is the Galápagos archipelago. Such Miocene ash layers occur in the cores of ODP Sites 1039, 1241, and 1242. At IODP Site U1381, on the Cocos Ridge offshore Costa Rica, 67 primary Miocene (~8 Ma to ~16.5 Ma) fallout ash layers have been recovered. Inferred transport distances of at least 50to 450 km from their vents imply Plinian eruptions, although two-thirds of the ash beds formed from basaltic magmas and only one-third from rhyolitic magmas that are typically associated with plinian eruptions. Our age model for Site U1381 based on sediment accumulation rates, 40Ar/39Ar dating and biostratigraphic ages, reveals a distinct increase in eruption frequency at around 14 Ma. We interpret this as an increase in magma production rates due to changes in interactions between Galápagos plume and spreading ridge.
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  • 4
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    The Importance of Dispersed Volcanic Ash as an Input to the Nankai Subduction Zone (2016)
    In:  [Poster] In: Goldschmidt Conference 2016, 26.06-01.07.2016, Yokohama, Japan .
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    Publikationsdatum: 2016-09-08
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  • 5
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    A 400-ka tephrochronological framework for Central America from Lake Petén Itzá (Guatemala) sediments (2016)
    Elsevier
    In:  Quaternary Science Reviews, 150 . pp. 200-220.
    Details
    Publikationsdatum: 2019-02-01
    Beschreibung: Highlights • Dating 400 ka paleoclimate record of Neotropics. • Revision and new eruptive volumes for large Central American eruptions. • Age models for Petén Itzá sediments. • Linking lacustrine ash inventory to eruptions from Central America and Mexico. Abstract Lake Petén Itzá, northern Guatemala, lies within a hydrologically closed basin in the south-central area of the Yucatán Peninsula, and was drilled under the auspices of the International Continental Scientific Drilling Program (ICDP) in 2006. At 16°55′N latitude, the lake is ideally located for study of past climate and environmental conditions in the Neotropical lowlands. Because of its great depth (〉160 m), Lake Petén Itzá has a record of continuous sediment accumulation that extends well into the late Pleistocene. A key obstacle to obtaining long climate records from the region is the difficulty of establishing a robust chronology beyond ∼40 ka, the limit of 14C dating. Tephra layers within the Lake Petén Itzá sediments, however, enable development of age/depth relations beyond 40 ka. Ash beds from large-magnitude, Pleistocene-to-Holocene silicic eruptions of caldera volcanoes along the Central American Volcanic Arc (CAVA) were found throughout drill cores collected from Lake Petén Itzá. These ash beds were used to establish a robust chronology extending back 400 ka. We used major- and trace-element glass composition to establish 12 well-constrained correlations between the lacustrine tephra layers in Lake Petén Itzá sediments and dated deposits at the CAVA source volcanoes, and with their marine equivalents in eastern Pacific Ocean sediments. The data also enabled revision of eight previous determinations of erupted volumes and masses, and initial estimates for another four eruptions, as well as the designation of source areas for 14 previously unknown eruptions. The new and revised sedimentation rates for the older sediment successions identify the interglacial of MIS5a between 84 and 72 ka, followed by a stadial between 72 and 59 ka that corresponds to MIS4. We modified the age models for the Lake Petén Itzá sediment sequences, extended the paleoclimate and paleoecological record for this Neotropical region to ∼400 ka, and determined the magnitude and timing of CAVA eruptions.
    Materialart: Article , PeerReviewed
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    DOI: 10.1016/j.quascirev.2016.08.023
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  • 6
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    Late Cenozoic tephrostratigraphy offshore the southern Central American Volcanic Arc: 1. Tephra ages and provenance (2016)
    AGU (American Geophysical Union) | Wiley
    In:  Geochemistry, Geophysics, Geosystems, 17 (11). pp. 4641-4668.
    Details
    Publikationsdatum: 2019-02-01
    Beschreibung: We studied the tephra inventory of 18 deep sea drill sites from six DSDP/ODP legs (Legs 84, 138, 170, 202, 205, 206) and two IODP legs (Legs 334 and 344) offshore the southern Central American Volcanic Arc (CAVA). Eight drill sites are located on the incoming Cocos plate and ten drill sites on the continental slope of the Caribbean plate. In total we examined ∼840 ash-bearing horizons and identified ∼650 of these as primary ash beds of which 430 originated from the CAVA. Correlations of ash beds were established between marine cores and with terrestrial tephra deposits, using major and trace element glass compositions with respect to relative stratigraphic order. As a prerequisite for marine-terrestrial correlations we present a new geochemical data set for significant Neogene and Quaternary Costa Rican tephras. Moreover, new Ar/Ar ages for marine tephras have been determined and marine ash beds are also dated using the pelagic sedimentation rates. The resulting correlations and provenance analyses build a tephrochronostratigraphic framework for Costa Rica and Nicaragua that covers the last 〉8 Myr. We define 39 correlations of marine ash beds to specific tephra formations in Costa Rica and Nicaragua; from the 4.15 Ma Lower Sandillal Ignimbrite to the 3.5 ka Rincón de la Vieja Tephra from Costa Rica, as well as another 32 widely distributed tephra layers for which their specific region of origin along Costa Rica and Nicaragua can be constrained.
    Materialart: Article , PeerReviewed
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    DOI: 10.1002/2016GC006503
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  • 7
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    Alkalic marine tephra layers at ODP Site 1241 - Major explosive eruptions from an oceanic volcano in a pre-shield stage? (2016)
    Elsevier
    In:  Journal of Volcanology and Geothermal Research, 328 . pp. 96-104.
    Details
    Publikationsdatum: 2019-09-23
    Beschreibung: Highlights • Subplinian to Plinian eruptions from Cocos Island • Tectonically controlled melt ascent • Ocean island evolution without passing typical growth stages Abstract We report a series of fourteen marine tephra layers that are the products of large explosive eruptions of Subplinian to Plinian intensities and magnitudes (VEI 〉 4) from Cocos Island, Costa Rica. Cocos Island is a volcanic island in the eastern Central Pacific Ocean ~ 500 km offshore Costa Rica, and is situated on the northwestern flank of the aseismic Cocos Ridge. Geochemical fingerprinting of Pleistocene (~ 2.4–1.4 Ma) marine tephra layers from Ocean Drilling Project (ODP) Leg 202 Site 1241 using major and trace element compositions of volcanic glass shards demonstrates unequivocally their origin from Cocos Island rather than the Galápagos Archipelago or the Central American Volcanic Arc (CAVA). Cocos Island and the adjacent seamounts of the Cocos Island Province have alkalic compositions and formed on young (≤ 3 Ma) oceanic crust from an extinct spreading ridge bounded by a transform fault against the older and thicker crust of the aseismic Cocos Ridge. Cocos Island has six times the average volume of the adjacent seamounts although all appear to have formed during the 3–1.4 Ma time period. Cocos Island lies closest to the transform fault and we explain its excessive growth by melts rising from garnet-bearing mantle being deflected from the thick Cocos Ridge lithosphere toward the thinner lithosphere on the other side of the transform, thus enlarging the melt catchment area for Cocos Island compared to the seamounts farther away from the transform. This special setting favored growth above sea level and subaerial explosive eruptions even though the absence of appropriate compositions suggests that the entirely alkalic Cocos Island (and seamounts) never evolved through the productive tholeiitic shield stage typical of other Pacific Ocean islands, possibly because melt production rates remained too small. Conditions of magma generation and ascent resembled Hawaiian pre-shield volcanoes but persisted for much longer (〈 1 m.y.) and formed evolved, trachytic magmas. Therefore Cocos Island may be a unique example for a volcanic ocean island that did not pass through the typical growth stages.
    Materialart: Article , PeerReviewed
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    DOI: 10.1016/j.jvolgeores.2016.10.009
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  • 8
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    Tephrachronostratigraphy and Provenance from IODP Expedition 352, Izu-Bonin Arc: Temporal Variations Indicating Tephra Source Changes from the Oligocene to the Holocene (2016)
    In:  [Poster] In: Goldschmidt Conference 2016, 26.06-01.07.2016, Yokohama, Japan .
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    Publikationsdatum: 2016-09-08
    Materialart: Conference or Workshop Item , NonPeerReviewed
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  • 9
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    Quantification and implications of dispersed volcanic ash as an input to the Nankai Subduction Zone (2016)
    In:  [Poster] In: AGU Fall Meeting 2016, 12.-16.12.2016, San Francisco, USA .
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    Publikationsdatum: 2017-03-23
    Materialart: Conference or Workshop Item , NonPeerReviewed
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  • 10
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    Geological Development of the Izu-Bonin Forearc Since the Eocene Based on Biostratigraphic, Rock Magnetic, and Sediment Provenance Observations from IODP Expedition 352 Drill Cores (2016)
    In:  [Poster] In: AGU Fall Meeting 2016, 12.-16.12.2016, San Francisco, USA .
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    Publikationsdatum: 2017-03-23
    Materialart: Conference or Workshop Item , NonPeerReviewed
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