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Possibilities and restrictions of heavy-mineral analysis for the reconstruction of sedimentary environments and source areas

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The possible reconstruction of ancient sedimentary environments on the basis of heavy-minerals assemblages is presented by means of discriminant lithogeodynamic diagrams that compare modern and ancient sedimentary environments. This is exemplified by Mesozoic-Cenozoic deposits recovered from ODP cores obtained from the Philippine and Japan Seas, the Japan Trench and the North Atlantic, as well as by deposits from folded areas onshore. On the basis of the comparative analysis, it can be deduced that the main tendencies in mineral assemblages of modern deposits that depend on the structural-tectonic conditions, are fairly well preserved in Cenozoic deposits (including the deposits recovered by ODP drilling). On the other hand, the environmental reconstruction of folded and faulted pre-Cenozoic continental areas on the basis of their heavy-mineral assemblages, by comparing them with supposed modern analogs, is not always possible with much certainty. The main reasons may be either a considerable change in the composition of the initial (primary) mineral assemblages as a result of intralayer solution or the absence, at the time of deposition, of geodynamic environments that closely resembled modern ones.
Czasopismo
Rocznik
Strony
147--158
Opis fizyczny
Bibliogr. 50 poz.
Twórcy
  • V.I. Il’ichev Pacific Oceanological Institute, Far Eastern Branch, Russian Academy of Sciences (POI FEB RAS), Vladivostok, Russia
  • V.I. Il’ichev Pacific Oceanological Institute, Far Eastern Branch, Russian Academy of Sciences (POI FEB RAS), Vladivostok, Russia
Bibliografia
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  • Bateman, R.M., Catt, J.A., 2007. Provenance and palaeoenvironmental interpretation of superficial deposits, with particular reference to post-depositional modification of heavy mineral assemblages. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 151-188.
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  • Boggs, S.J., Seyedolali, A., 1992. Provenance of Miocene sandstones from sites 796, 797 and 799, Japan Sea. Proceedings of the Ocean Drilling Program, Scientific Results 127/128 1, 99-113.
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  • Derkachev, A.N., Nikolaeva, N.A., 2007. Multivariate analysis of heavy mineral assemblages of deposits from the marginal seas of the Western Pacific. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 439-464.
  • Derkachev, A.N., Nikolaeva, N.A., 2010. Environmental mineralogical indicators of near-continental sediment formation within Pacific Ocean western part. Dal’nauka, Vladivostok, 321 pp. (in Russian).
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  • Filippov, A.N., 1990. Formational analysis of Mesozoic deposits in the Western Sikhote-Alin. Far Eastern Branch, Academy of Sciences of the USSR, Vladivostok, 144 pp. (in Russian).
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  • Ludwikowska-Kędzia, M., 2013. The composition of transparent heavy minerals in Quaternary deposits of the Kielce-Łagów valley (Holy Cross Mountains, Poland). Geologos 19 (this issue), 95-129
  • Mange, M.A., Maurer, H.F.W., 1992. Heavy minerals in colour. Chapman and Hall, London, 147 pp.
  • Marcinkowski, B. & Mycielska-Dowgiałło, E., 2013. Heavy-mineral analysis in Polish investigations of Quaternary deposits: a review. Geologos 19 (this issue), 5-23.
  • Markevich, P.V., Filippov, A.N., Malinovsky, A.I., Mikhaylik, E.V., Kitaev, I.V., Tikhonova, V.I., Trushkova, N.V., 1987. Phanerozoic geosynclinal sedimentation in both Sikhote-Alin and Koryakiya-Kamchatka regions. [In:] E.V. Krasnov (Ed.): Geosynclinal lithogenesis on the boundary between continent and ocean. Nauka, Moscow, 10-134 (in Russian).
  • Markevich, P.V., Filippov, A.N., Malinovsky, A.I., Zyabrev, S.V., Nechaev, V.P., Vysotsky, S.V., 1997. Cretaceous volcanogenic-sedimentary formations of Lower Priamurye. Dal’nauka, Vladivostok, 300 pp. (in Russian).
  • Markevich, P.V., Konovalov, V.P., Malinovsky, A.N., Filippov, A.N., 2000. Lower Cretaceous deposits of Sikhote Alin. Dal’nauka, Vladivostok, 283 pp. (in Russian).
  • Markevich, P.V., Malinovsky, A.I., Tuchkova, M.I., Sokolov, S.D., Grigoryev, V.N., 2007. The use of heavy minerals in determining the provenance and tectonic evolution of Mesozoic and Cenozoic sedimentary basins in the continent-Pacific ocean transition zone: examples from Sikhote-Alin and Koryak-Kamchatka regions (Russian Far East) and western Pacific. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 789-822.
  • Morton, A.C., 1984. Stability of detrital heavy minerals in Tertiary sandstones of the North Sea Basin. Clay Minerals 19, 287-308.
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  • Morton, A.C., Hallsworth, C.R., 1999. Processes controlling the composition of heavy mineral assemblages in sandstones. Sedimentary Geology 124, 3-29.
  • Morton, A.C., Hallsworth, C.R., 2007. Stability of detrital heavy minerals during burial diagenesis. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 215-245.
  • Morton, A., Hounslow, M.W. & Frei, D., 2013. Heavy-mineral, mineral-chemical and zircon-age constraints on the provenance of Triassic sandstones from the Devon coast, southern Britain. Geologos 19 (this issue), 67-85.
  • Murdmaa, I., Kazakova, V., 1980. Course-silt fraction mineralogy of Japan Trench deposits. Deep Sea Drilling Project. Legs 56 and 57. Initial Reports DSDP 56-57, part 2, 1005-1009.
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  • Nechaev, V.P., 1987. Modern sedimentation and volcanism in the Philippine Sea. [In:] E.V. Krasnov (Ed.): Geosynclinal lithogenesis on the boundary between continent and ocean. Nauka, Moscow, 135-167 (in Russian).
  • Nechaev, V.P., 1990. Reconstruction of geological evolution for the Philippine and Japan seas on detrital components of deposits. Lithogenesis and ore formation in ancient and modern marine basins of the Far East. FEB RAS, Vladivostok, 112-149 (in Russian).
  • Nechaev, V.P., 1991. Evolution of the Philippine and Japan Sea from the clastic sediment record. Marine Geology 97, 167-190.
  • Nechaev, V.P., Markevich, P.V., Malinovsky, A.I., et al., 1996. Geodynamic environments at accumulation of Cretaceous deposits in Lower Priamurye on assemblages of heavy minerals. Pacific Geology 3, 14-24 (in Russian).
  • Nechaev, V.P., Musasino, M., Li, D.-U., 1997. Jurassic-Lower Cretaceous geodynamic evolution of east margin of Asia: reconstruction on change of heavy mineral assemblages from sedimentary rocks. Pacific Geology 16(6), 21-35 (in Russian).
  • Nesterova, M.P., Scherbakov, F.A., Shevchenko, A.J., Turanskaja, N.W., Kazakova, W.P., Samosudov, A.G., Kuzmina, T.G., Rudakova, A.N., 1978. Origin of the Late Cenozoic deposits of the Icelandic Basin, DSDP Site 348, Leg 38. Supplement volumes 38, 39, 40, 41. DSDP, 73-95.
  • Packer, B.M., Ingersoll, R.V., 1986. Provenance and petrology of Deep Sea Drilling Project sands and sandstones from the Japan and Mariana fore-arc and back-arc regions. Sedimentary Geology 51, 5-28.
  • Pettijohn, F.J., Potter, P.E., Siever, R., 1972. Sand and sandstones. Springer Verlag, New York and Berlin, 618 pp.
  • Sato, Y., 1980. Heavy mineral composition of Tertiary deposits at Deep-Sea Drilling Project Sites 225 and 446. Northeastern Philippine Sea. Initial Reports DSDP 58, 661-668.
  • Sibley, D.F., Pentony, K.J., 1978. Provenance variation in turbidite deposits, Sea of Japan. Journal of Sedimentary Petrology 48, 1241-1248.
  • Simanenko, V.P., 1991. Basalt-andesitic assemblages of Paleozoic and Mesozoic island arcs. [In:]: A.D. Shcheglov (Ed.): Pacific Asian margin. Magmatism. Nedra, Moscow, 58-72 (in Russian).
  • Uyeda, S., Ben-Avraham, Z., 1972. Origin and development of the Philippine Sea. Nature 240, 176-178.
  • Van Loon, A.J., 1972/1973. “Habitus” of some heavy minerals from the Tertiary of Southern Limburg (The Netherlands). Mededelingen van de Rijks Geologische Dienst, Nieuwe Serie 23, 39-67.
  • Van Loon, A.J., 2009. Unravelling the enigmas of the “silver sands” in the Dutch/German/Belgian border area. Netherlands Journal of Geosciences 88, 133-145.
  • Van Loon, A.J., Mange, M.A., 2007. “In situ” dissolution of heavy minerals through extreme weathering, and the application of the surviving assemblages and their dissolution characteristics to correlation of Dutch and German silver sands. [In:] M.A. Mange & D.T. Wright (Eds): Heavy minerals in use. Developments in Sedimentology 58, 189-213.
  • Wachecka-Kotkowska, L. & Ludwikowska-Kędzia, M., 2013. Heavy minerals of the fluvial Pleniglacial deposits of the Piotrków Plateau and the Holy Cross Mountains - a comparative study. Geologos 19 (this issue), 131-146.
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  • Zyabrev, S.V., 1994. Early Cretaceous cherts of Kisilevsky-Manominsky terrains - the youngest oceanic deposits in structure of the South of a continental part of the Far East of Russia. Pacific Geology 6, 74-82 (in Russian).
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-98e85f52-2913-4dbb-b171-35fd1f6ca8d5
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