Search Results - "Cenozoic"

The first day of the Cenozoic by Gulick, S.P.S., Bralower, T.J., Ormö, J., Hall, B., Grice, Kliti, Schaefer, Bettina, Lyons, S., Freeman, K.H., Morgan, J.V., Artemieva, N., Kaskes, P., De Graaff, S.J., Whalen, M.T., Collins, G.S., Tikoo, S.M., Verhagen, C., Christeson, G.L., Claeys, P., Coolen, Marco, Goderis, S., Goto, K., Grieve, R.A.F., McCall, N., Osinski, G.R., Rae, A.S.P., Riller, U., Smit, J., Vajda, V., Wittmann, A.

“…Site M0077 includes ∼130 m of impact melt rock and suevite deposited the first day of the Cenozoic covered by <1 m of micrite-rich carbonate deposited over subsequent weeks to years. …”
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Cenozoic inversion of the East China Sea Shelf Basin: Implications for reconstructing Cenozoic tectonics of eastern China by Su, J., Zhu, W., Chen, J., Ge, Rongfeng, Zheng, B., Min, B.

“…Structural inversions have superimposed on the Cenozoic extensional rift basin during these compression events, forming regional unconformity reflectors (T4°, T3°, T2°, and T1°). …”
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Western Australian Late Cretaceous and Cenozoic brachiopoda. by Craig, Robert S.

Subjects: “…Cenozoic brachiopods…”
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East Java: Cenozoic basins, volcanoes and ancient basement by Smyth, H., Hall, R., Hamilton, Joseph, Kinny, Peter

Subjects: “…Cenozoic Basins…”
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Reservoir quality of Cenozoic carbonate buildups and coral reef terraces by Wilson, Moyra

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Global and regional influences on equatorial shallow-marine carbonates during the Cenozoic by Wilson, Moyra

“…The SE Asian carbonate record allows insight into the poorly known response of equatorial marine systems to regional and global change during the Cenozoic. There is a marked change from larger benthic foraminifera to corals as dominant shallow-marine carbonate producers in SE Asia around the Oligo-Miocene boundary. …”
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Cenozoic thermo-tectonic evolution of the Gangdese batholith constrained by low-temperature thermochronology by Ge, Y., Dai, J., Wang, C., Li, Y., Xu, G., Danisik, Martin

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Tectonic and Lithological Influences on Fracturing in a Cenozoic Carbonate System: Implications for Reservoir Quality Development by Munroe, Mary K.

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Diagenesis of a SE Asian Cenozoic carbonate platform margin and its adjacent basinal deposits by Wilson, Moyra

Subjects: “…Cenozoic…”
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Cenozoic uplift, exhumation and deformation in the north Kuqa Depression, China as constrained by (U–Th)/He thermochronometry by Yu, S., Chen, W., Evans, Noreen, McInnes, Brent, Yin, J., Sun, J., Li, J., Zhang, B.

“…The data support sequential southward propagating deformation and uplift (inferred exhumation) in the north Kuqa Depression during the Cenozoic, probably as a result of the collision of India with Asia far to the south of the Tianshan.…”
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DEM analysis of mountainous relief in a crystalline basement block: Cenozoic relief generations in Corsica (France). by Kuhlemann, J., Szekely, B., Frisch, W., Danisik, Martin, Dunkl, I., Molnar, G., Timar, G.

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Timing and kinematics of Mesozoic-Cenozoic mountain building and lithospheric thinning in the eastern North China: Constraints from geochronology and thermochronology by Liu, Liping

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Multiple low-temperature thermochronology constraints on exhumation of the Tatra Mountains: New implication for the complex evolution of the Western Carpathians in the Cenozoic by Anczkiewicz, A., Danisik, Martin, Srodon, J.

“…Our data prove that the Tatra Mountains shared Cenozoic evolution of other crystalline core mountains in the Western Carpathians. …”
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Fission track data from the Mesohellenic Trough and the Pelagonian zone in NW Greece: Cenozoic tectonics and exhumation of source areas. by Vamvaka, A., Spiegel, C., Frisch, W., Danisik, Martin, Kilias, A.

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Petroleum source rock potential of submarine fan and deltaic cenozoic sequences of Western Sabah and Sarawak, Malaysia / Togunwa Serifat Olayinka by Togunwa Serifat, Olayinka

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Low-Temperature Thermochronology of the Chatkal-Kurama Terrane (Uzbekistan-Tajikistan): Insights Into the Meso-Cenozoic Thermal History of the Western Tian Shan by Jepson, G., Glorie, S., Konopelko, D., Gillespie, J., Danišík, Martin, Mirkamalov, R., Mamadjanov, Y., Collins, A.

“…Finally, the Chatkal-Kurama terrane experienced renewed tectonic activity since ca. 30 Ma, related with the distant India-Eurasia collision and Pamir indentation. The Cenozoic reactivation induced crustal tilting of the Chatkal-Kurama terrane, progressively exposing deeper rocks to the southwest.…”
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Delamination of lithospheric mantle evidenced by Cenozoic potassic rocks in Yunnan, SW China: A contribution to uplift of the Eastern Tibetan Plateau by Chen, B., Long, X., Wilde, Simon, Yuan, C., Wang, Q., Xia, X., Zhang, Z.

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Meso-Cenozoic tectonic evolution of the Talas-Fergana region of the Kyrgyz Tien Shan revealed by low-temperature basement and detrital thermochronology by Nachtergaele, S., De Pelsmaeker, E., Glorie, S., Zhimulev, F., Jolivet, M., Danišík, Martin, Buslov, M., De Grave, J.

“…In the second place, we also present new detrital apatite fission track data on the Meso-Cenozoic sediments from fault related basins and surrounding intramontane basins. …”
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Contrasting styles of (U)HP rock exhumation along the Cenozoic Adria-Europe plate boundary (Western Alps, Calabria, Corsica) by Malusà, M., Faccenna, C., Baldwin, S., Fitzgerald, P., Rossetti, F., Balestrieri, M., Danisik, Martin, Ellero, A., Ottria, G., Piromallo, C.

“…These mechanisms, i.e., (i) the motion of the upper plate away from the trench and (ii) the rollback of the lower plate, are discussed in detail with particular reference to the Cenozoic Adria-Europe plate boundary, and along three different transects (Western Alps, Calabria-Sardinia, and Corsica-Northern Apennines). …”
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Carbonate grain associations: their use and environmental significance, a brief review by Kindler, P., Wilson, Moyra

Subjects: “…Cenozoic…”
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