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Temporal and geochemical evolution of the Cenozoic intraplate volcanism of Zealandia (2010)

Timm, Christian 1977-

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In: Earth science reviews, Amsterdam [u.a.] : Elsevier, 1966, 98(2010), 1/2, Seite 38-64, 1872-6828

In: volume:98

In: year:2010

In: number:1/2

In: pages:38-64

Type of Medium: Online Resource

Pages: graph. Darst.

ISSN: 1872-6828

URL: http://dx.doi.org/10.1016/j.earscirev.2009.10.002

DOI: 10.1016/j.earscirev.2009.10.002

Language: English

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GEOMAR CATALOGUE

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2

Electronic Resource

Geology and thermochronometry of the east edge of the Median Batholith (Median Tectonic Zone): a new perspective on Permian to Cretaceous crustal growth of New Zealand (1999)

Mortimer, Nick ; Gans, Phil ; Calvert, Andy ; [et al.]

Melbourne, Australia : Blackwell Science Pty

The @island arc 8 (1999), S. 0

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ISSN: 1440-1738

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Geosciences

Notes: Abstract We report new field, petrological and isotopic data and interpretations from one of New Zealand’s major basement geological boundaries, the contact between the east side of the Median Batholith (formerly Median Tectonic Zone) and the allochthonous Mesozoic terranes of the Eastern Province. In the Nelson and Hollyford–Eglinton areas this contact is a Cenozoic fault, the Median Tectonic Line of earlier workers. However, in the Longwood Range, unfaulted pre-Cenozoic geological relations are preserved intact. Our new Ar–Ar, U–Pb and isotopic data show that the Median Batholith in the Longwood Range consists of two suites. (i) Eastern, isotopically primitive (87Sr/86Sri = 0.702 to 0.703; ɛNdT = + 7 to + 8) trondhjemite and gabbroic rocks of Permian age that we believe are part of the intraoceanic Brook Street arc of the Eastern Province. (ii) Western, isotopically more evolved (87Sr/86Sri = 0.703 to 0.704; ɛNdT = + 3 to + 5) quartz diorites, quartz monzodiorites and rare granites of Middle Triassic to Early Jurassic age that we correlate with a pulse of magmatism elsewhere in the Median Batholith. Field observations in the Longwood Range indicate intrusive, not faulted, contacts between these units and constrain accretion of the Brook Street Terrane to Gondwana to have occurred 230–245 Ma. Intra-batholith shear zones (T ~ 600°C and P ~ 0.2–0.3 GPa) were active at approximately 220 Ma. Modelling of K-feldspar Ar incremental heating ages indicate that most of the Longwood Range had cooled below 175°C by the Middle Jurassic and experienced no subsequent reheating. Significant additional post-accretionary Early Cretaceous and Cenozoic thermotectonic activity in Median Batholith in the Hollyford-Eglinton area is indicated by a new 140 ± 2 Ma U-Pb zircon date on a Largs ignimbrite, as well as by Cenozoic K-feldspar Ar–Ar ages in the Middle Triassic Mistake Diorite.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1440-1738.1999.00249.x

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Paper (German National Licenses)

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Geochemistry of volcanic rocks from the Hikurangi and Manihiki Plateaus

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

In: Supplement to: Hoernle, Kaj; Hauff, Folkmar; van den Bogaard, Paul; Werner, Reinhard; Mortimer, Nick; Geldmacher, Jörg; Garbe-Schönberg, Dieter; Davy, Bryan (2010): Age and geochemistry of volcanic rocks from the Hikurangi and Manihiki oceanic Plateaus. Geochimica et Cosmochimica Acta, 74(24), 7196-7219, https://doi.org/10.1016/j.gca.2010.09.030

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Publication Date: 2023-06-27

Description: Here we present the first radiometric age data and a comprehensive geochemical data set (including major and trace element and Sr-Nd-Pb-Hf isotope ratios) for samples from the Hikurangi Plateau basement and seamounts on and adjacent to the plateau obtained during the R/V Sonne 168 cruise, in addition to age and geochemical data from DSDP Site 317 on the Manihiki Plateau. The 40Ar/39Ar age and geochemical data show that the Hikurangi basement lavas (118-96 Ma) have surprisingly similar major and trace element and isotopic characteristics to the Ontong Java Plateau lavas (ca. 120 and 90 Ma), primarily the Kwaimbaita-type composition, whereas the Manihiki DSDP Site 317 lavas (117 Ma) have similar compositions to the Singgalo lavas on the Ontong Java Plateau. Alkalic, incompatible-element-enriched seamount lavas (99-87 Ma and 67 Ma) on the Hikurangi Plateau and adjacent to it (Kiore Seamount), however, were derived from a distinct high time-integrated U/Pb (HIMU)-type mantle source. The seamount lavas are similar in composition to similar-aged alkalic volcanism on New Zealand, indicating a second wide-spread event from a distinct source beginning ca. 20 Ma after the plateau-forming event. Tholeiitic lavas from two Osbourn seamounts on the abyssal plain adjacent to the northeast Hikurangi Plateau margin have extremely depleted incompatible element compositions, but incompatible element characteristics similar to the Hikurangi and Ontong Java Plateau lavas and enriched isotopic compositions intermediate between normal mid-ocean-ridge basalt (N-MORB) and the plateau basement. These younger (~52 Ma) seamounts may have formed through remelting of mafic cumulate rocks associated with the plateau formation. The similarity in age and geochemistry of the Hikurangi, Ontong Java and Manihiki Plateaus suggest derivation from a common mantle source. We propose that the Greater Ontong Java Event, during which ?1% of the Earth's surface was covered with volcanism, resulted from a thermo-chemical superplume/dome that stalled at the transition zone, similar to but larger than the structure imaged presently beneath the South Pacific superswell. The later alkalic volcanism on the Hikurangi Plateau and the Zealandia micro-continent may have been part of a second large-scale volcanic event that may have also triggered the final breakup stage of Gondwana, which resulted in the separation of Zealandia fragments from West Antarctica.

Keywords: 33-317A; Deep Sea Drilling Project; Dredge; DRG; DRILL; Drilling/drill rig; DSDP; Glomar Challenger; Leg33; SO168; SO168_1; SO168_12; SO168_21; SO168_25; SO168_26; SO168_3; SO168_32; SO168_33; SO168_34; SO168_35; SO168_36; SO168_38; SO168_39; SO168_40; SO168_43; SO168_47; SO168_49; SO168_50; SO168_9; Sonne; South Pacific/PLATEAU; ZEALANDIA

Type: Dataset

Format: application/zip, 5 datasets

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4

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(Table 2) Sr-Nd-Hf-Pb isotope ratios of volcanic rocks from Hikurangi and Manihiki Plateaus

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

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Publication Date: 2023-06-27

Keywords: 33-317A; AGE; Area/locality; Deep Sea Drilling Project; DEPTH, sediment/rock; Dredge; DRG; DRILL; Drilling/drill rig; DSDP; Event label; Glomar Challenger; Hafnium-176/Hafnium-177; Hafnium-176/Hafnium-177, error; Latitude of event; Latitude of event 2; Lead-206/Lead-204 ratio; Lead-206/Lead-204 ratio, error; Lead-207/Lead-204 ratio; Lead-207/Lead-204 ratio, error; Lead-208/Lead-204 ratio; Lead-208/Lead-204 ratio, error; Leg33; Longitude of event; Longitude of event 2; Lutetium-176/Hafnium-177; Neodymium-143/Neodymium-144 ratio; Neodymium-143/Neodymium-144 ratio, error; Percentile 05; Rubidium/Strontium ratio; Samarium-147/Neodymium-144 ratio; Sample code/label; SO168; SO168_1; SO168_12; SO168_21; SO168_25; SO168_26; SO168_3; SO168_32; SO168_33; SO168_34; SO168_36; SO168_38; SO168_39; SO168_43; SO168_47; SO168_49; SO168_50; Sonne; South Pacific/PLATEAU; Strontium-87/Strontium-86 ratio; Strontium-87/Strontium-86 ratio, error; Thorium-232/Lead-204 ratio; Uranium-238/Lead-204 ratio; ZEALANDIA; ε-Hafnium; ε-Neodymium (T)

Type: Dataset

Format: text/tab-separated-values, 795 data points

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5

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(Table EA3) Major and trace element content of volcanic rocks from Hikurangi and Manihiki Plateaus (2010)

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

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Publication Date: 2023-07-10

Keywords: 33-317A; Aluminium oxide; Area/locality; Barium; Caesium; Calcium oxide; Carbon dioxide; Cerium; Chromium; Cobalt; Copper; Deep Sea Drilling Project; DEPTH, sediment/rock; Dredge; DRG; DRILL; Drilling/drill rig; DSDP; Dysprosium; Elements, total; Erbium; Europium; Event label; Gadolinium; Gallium; Glomar Challenger; Hafnium; Holmium; Inductively coupled plasma - mass spectrometry (ICP-MS); Iron oxide, Fe2O3; Lanthanum; Latitude of event; Latitude of event 2; Lead; Leg33; Longitude of event; Longitude of event 2; Lutetium; Magnesium oxide; Manganese oxide; Neodymium; Nickel; Niobium; Phosphorus pentoxide; Potassium oxide; Praseodymium; Rubidium; Samarium; Sample code/label; Scandium; Silicon dioxide; SO168; SO168_12; SO168_21; SO168_25; SO168_26; SO168_32; SO168_33; SO168_34; SO168_35; SO168_36; SO168_38; SO168_39; SO168_40; SO168_43; SO168_47; SO168_49; SO168_50; SO168_9; Sodium oxide; Sonne; South Pacific/PLATEAU; Strontium; Tantalum; Terbium; Thorium; Thulium; Titanium dioxide; Uranium; Vanadium; Water in rock; X-ray fluorescence (XRF); Ytterbium; Yttrium; ZEALANDIA; Zinc; Zirconium

Type: Dataset

Format: text/tab-separated-values, 1656 data points

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6

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(Table 1) Age determination of volcanic rocks from Hikurangi and Manihiki Plateaus (2010)

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

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Publication Date: 2023-08-16

Keywords: -; Age, 40Ar/39Ar Argon-Argon; Age, dated; Age, dated standard deviation; Area/locality; Crystals; DEPTH, sediment/rock; Dredge; DRG; Event label; Latitude of event; Latitude of event 2; Longitude of event; Longitude of event 2; Probability; Rock type; Sample code/label; Sample comment; Sample ID; SO168; SO168_12; SO168_34; SO168_38; Sonne; ZEALANDIA

Type: Dataset

Format: text/tab-separated-values, 55 data points

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7

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(Table EA2) Individual 40Ar/39Ar analysis of volcanic rocks from Hikurangi and Manihiki Plateaus (2010)

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

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Publication Date: 2023-08-16

Keywords: -; 33-317A; Age, dated; Age, dated standard deviation; Argon-36/Argon-39; Argon-37/Argon-39; Argon-39; Argon-40; Argon-40/Argon-39; Calcium/Potassium ratio; Comment; Deep Sea Drilling Project; DEPTH, sediment/rock; Dredge; DRG; DRILL; Drilling/drill rig; DSDP; Event label; Glomar Challenger; Latitude of event; Latitude of event 2; Leg33; Longitude of event; Longitude of event 2; Number; Probability; Sample code/label; Sample comment; Sample mass; SO168; SO168_12; SO168_34; SO168_38; SO168_40; SO168_49; SO168_50; SO168_9; Sonne; South Pacific/PLATEAU; ZEALANDIA

Type: Dataset

Format: text/tab-separated-values, 3602 data points

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8

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(Table 1) Plateau ages of DSDP Hole 33-317A basalts and dredge samples (2010)

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

PANGAEA

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Publication Date: 2023-08-16

Keywords: -; 33-317A; Age, 40Ar/39Ar Argon-Argon; Age, dated; Age, dated standard deviation; Area/locality; Argon-39; Deep Sea Drilling Project; DEPTH, sediment/rock; Dredge; DRG; DRILL; Drilling/drill rig; DSDP; DSDP/ODP/IODP sample designation; Event label; Glomar Challenger; Latitude of event; Latitude of event 2; Leg33; Longitude of event; Longitude of event 2; Number; Probability; Rock type; Sample code/label; Sample comment; Sample ID; SO168; SO168_40; SO168_49; SO168_50; SO168_9; Sonne; South Pacific/PLATEAU; ZEALANDIA

Type: Dataset

Format: text/tab-separated-values, 128 data points

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9

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Age and geochemistry of volcanic rocks from the Hikurangi and Manihiki oceanic Plateaus (2010)

Hoernle, Kaj ; Hauff, Folkmar ; van den Bogaard, Paul ; [et al.]

Elsevier

In: Geochimica et Cosmochimica Acta, 74 (24). pp. 7196-7219.

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Publication Date: 2020-10-21

Description: Here we present the first radiometric age data and a comprehensive geochemical data set (including major and trace element and Sr–Nd–Pb–Hf isotope ratios) for samples from the Hikurangi Plateau basement and seamounts on and adjacent to the plateau obtained during the R/V Sonne 168 cruise, in addition to age and geochemical data from DSDP Site 317 on the Manihiki Plateau. The 40Ar/39Ar age and geochemical data show that the Hikurangi basement lavas (118–96 Ma) have surprisingly similar major and trace element and isotopic characteristics to the Ontong Java Plateau lavas (ca. 120 and 90 Ma), primarily the Kwaimbaita-type composition, whereas the Manihiki DSDP Site 317 lavas (117 Ma) have similar compositions to the Singgalo lavas on the Ontong Java Plateau. Alkalic, incompatible-element-enriched seamount lavas (99–87 Ma and 67 Ma) on the Hikurangi Plateau and adjacent to it (Kiore Seamount), however, were derived from a distinct high time-integrated U/Pb (HIMU)-type mantle source. The seamount lavas are similar in composition to similar-aged alkalic volcanism on New Zealand, indicating a second wide-spread event from a distinct source beginning ca. 20 Ma after the plateau-forming event. Tholeiitic lavas from two Osbourn seamounts on the abyssal plain adjacent to the northeast Hikurangi Plateau margin have extremely depleted incompatible element compositions, but incompatible element characteristics similar to the Hikurangi and Ontong Java Plateau lavas and enriched isotopic compositions intermediate between normal mid-ocean-ridge basalt (N-MORB) and the plateau basement. These younger (not, vert, similar52 Ma) seamounts may have formed through remelting of mafic cumulate rocks associated with the plateau formation. The similarity in age and geochemistry of the Hikurangi, Ontong Java and Manihiki Plateaus suggest derivation from a common mantle source. We propose that the Greater Ontong Java Event, during which not, vert, similar1% of the Earth’s surface was covered with volcanism, resulted from a thermo-chemical superplume/dome that stalled at the transition zone, similar to but larger than the structure imaged presently beneath the South Pacific superswell. The later alkalic volcanism on the Hikurangi Plateau and the Zealandia micro-continent may have been part of a second large-scale volcanic event that may have also triggered the final breakup stage of Gondwana, which resulted in the separation of Zealandia fragments from West Antarctica.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.gca.2010.09.030

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Subduction of the oceanic Hikurangi Plateau and its impact on the Kermadec arc (2014)

Timm, Christian ; Davy, Bryan ; Haase, Karsten ; [et al.]

Nature Publishing Group

In: Nature Communications, 5 (Article 4923).

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Publication Date: 2019-09-23

Description: Large igneous province subduction is a rare process on Earth. A modern example is the subduction of the oceanic Hikurangi Plateau beneath the southern Kermadec arc, offshore New Zealand. This segment of the arc has the largest total lava volume erupted and the highest volcano density of the entire Kermadec arc. Here we show that Kermadec arc lavas south of B32°S have elevated Pb and Sr and low Nd isotope ratios, which argues, together with increasing seafloor depth, forearc retreat and crustal thinning, for initial Hikurangi Plateau—Kermadec arc collision B250 km north of its present position. The combined data set indicates that a much larger portion of the Hikurangi Plateau (the missing Ontong Java Nui piece) than previously believed has already been subducted. Oblique plate convergence caused southward migration of the thickened and buoyant oceanic plateau crust, creating a buoyant ‘Hikurangi’ me´lange beneath the Moho that interacts with ascending arc melts.

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/ncomms5923

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