Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 1990, Cilt: 110 Sayı: 110, 39 - 60, 01.03.1990

Öz


Kaynakça

  • Bastin, E.S., 1933, The chalcocite and native copper types of ore deposits: Econ.Geol., 28, 407-446.
  • Dunham, K.C., 1964, Neptunist concepts in ore genesis: Econ.Geol., 59, 1-21.
  • Flint, S., 1986, Sedimentary and diagenetic controls on red-bed ore genesis: Econ.Geol., 81, 761-778.
  • Garlick, W.G., 1974, Depositional and diagenetic environments related to sulfide mineralization. Mufulira, Zambia- a discussion: Econ.Geol., 69, 1344-1351.
  • Garrels, R.M. and Christ, C.L., 1965, Solutions, minerals and equilibria: New York, Harper and Row, 450 p.
  • Gustafson, L.B. and Williams, N., 1981, Sediment-hosted stratiform deposits of copper, lead and zinc: Econ.Geol., 75th Anniv. vol., 139-178.
  • Hamilton, S.K., 1967, Copper mineralization in the upper part of the Copper Harbor Conglomerate at White Pine, Michigan: Econ.Geol., 62, 885-904.
  • Haranczyk, C., 1970, Zechstein lead-bearing shales in the Fore-Sudetian monocline in Poland: Econ.Geol., 65, 481-495.
  • Haynes, D.W., 1986 a, Stratiform copper deposits hosted by low-energy sediments. I. Timing of sulfide precipitation- An hypothesis: Econ.Geol., 81, 250-265.
  • — 1986 b, Stratiform copper deposits hosted by low-energy sediments. II. Nature of source rocks and composition of metal transporting water: Econ.Geol., 81, 266-280.
  • — and Bloom, M.S., 1987 a, Stratiform copper deposits hosted by low-energy sediments: III. Aspects of metal transport. Econ.Geol., 82, 635-648.
  • and , 1987 6, Stratiform copper deposits hosted by low-energy sediments: IV. Aspects of sulfide precipitation. Econ. Geol., 82, 875-893.
  • Ketin, İ., 1954, Yozgat bölgesinin jeolojik lövesi hakkında memuar:MTA Rep., 2141, 50 p., Ankara, Turkey.
  • Ljunggren, D.A. and Meyer, H.C., 1964, The copper mineralization in the Corocoro Basin: Econ.Geol., 59, 110-125.
  • Rose, A.W., 1976, The effect of cuprous chloride complexes in the origin of red-bed copper and related deposits: Econ.Geol., 71, 1036-1048.
  • Shockey, P.N.; Renfro, A.R., and Peterson, R.J., 1974, Copper-sulfide solution fronts at Paoli, Oklahoma: Econ.Geol., 69, 266- 268.
  • Teşrekli, M. and Pehlivanoğlu, H., 1982, Yozgat ili Sekili köyü civarı bakır zuhurları incelemesi hakkında rapor: MTA, Maden Etüt Arşiv no. ME-1812, 6 p., Ankara, Turkey.
  • Woodward, L.A.; Kaufman, W.H.; Schumacher, O.L. and Talbott, L.W., 1974, Strata-bound copper deposits in Triassic sandstones of Sierra Nacimiento, New Mexico: Econ.Geol., 69, 108-120.

The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia)

Yıl 1990, Cilt: 110 Sayı: 110, 39 - 60, 01.03.1990

Öz

 The stratigraphic position, sedimentologic characteristics and origin of the copper deposits of Oligocene (—Miocene?)
age are investigated in an area between Delice and Yerköy, on the northern side of Delice river. Copper mineralization is
observed mainly in three different stratigraphic positions in the region. The first type is the native copper ore, found in red and
gray colored continental sandstones and conglomerate which overlie marine fossiliferous (Middle Eocene) limestones. The second
type is the malachite ore, found in Oligocene (—Miocene?) units of the Toprakhk tepe formation which consists of red sandstones,
conglomerate and mudstones. This ore is restricted into the fine-grained, gray-colored sandstone and is rich in carbonized plant
remains. The third type is the primary native copper and malachite ore found at the upper parts of the Toprakhk tepe formation.
While the native copper mineralization is strictly associated with fault zones and slickensided surfaces, the malachite mineralization
occurs in the form of a cement, binding mostly the aetritic volcanic material. Malachite type mineralization represents point
bar and flood plain environmental condition of sedimentation. The local occurrence of malachite ore together with plant remains
in gray-colored sandstone of the red-bed series indicates that this type of ore was deposited primarily (probably as a sulfide or
native copper or malachite) during the deposition of the host rock material under chemically reducing conditions. On the other
hand, the native copper ore is supposedly an epigenetic type and related to the tenaonal and compressional forces. Cuprite and
malachite found with native copper was formed secondarily under surface conditions.

Kaynakça

  • Bastin, E.S., 1933, The chalcocite and native copper types of ore deposits: Econ.Geol., 28, 407-446.
  • Dunham, K.C., 1964, Neptunist concepts in ore genesis: Econ.Geol., 59, 1-21.
  • Flint, S., 1986, Sedimentary and diagenetic controls on red-bed ore genesis: Econ.Geol., 81, 761-778.
  • Garlick, W.G., 1974, Depositional and diagenetic environments related to sulfide mineralization. Mufulira, Zambia- a discussion: Econ.Geol., 69, 1344-1351.
  • Garrels, R.M. and Christ, C.L., 1965, Solutions, minerals and equilibria: New York, Harper and Row, 450 p.
  • Gustafson, L.B. and Williams, N., 1981, Sediment-hosted stratiform deposits of copper, lead and zinc: Econ.Geol., 75th Anniv. vol., 139-178.
  • Hamilton, S.K., 1967, Copper mineralization in the upper part of the Copper Harbor Conglomerate at White Pine, Michigan: Econ.Geol., 62, 885-904.
  • Haranczyk, C., 1970, Zechstein lead-bearing shales in the Fore-Sudetian monocline in Poland: Econ.Geol., 65, 481-495.
  • Haynes, D.W., 1986 a, Stratiform copper deposits hosted by low-energy sediments. I. Timing of sulfide precipitation- An hypothesis: Econ.Geol., 81, 250-265.
  • — 1986 b, Stratiform copper deposits hosted by low-energy sediments. II. Nature of source rocks and composition of metal transporting water: Econ.Geol., 81, 266-280.
  • — and Bloom, M.S., 1987 a, Stratiform copper deposits hosted by low-energy sediments: III. Aspects of metal transport. Econ.Geol., 82, 635-648.
  • and , 1987 6, Stratiform copper deposits hosted by low-energy sediments: IV. Aspects of sulfide precipitation. Econ. Geol., 82, 875-893.
  • Ketin, İ., 1954, Yozgat bölgesinin jeolojik lövesi hakkında memuar:MTA Rep., 2141, 50 p., Ankara, Turkey.
  • Ljunggren, D.A. and Meyer, H.C., 1964, The copper mineralization in the Corocoro Basin: Econ.Geol., 59, 110-125.
  • Rose, A.W., 1976, The effect of cuprous chloride complexes in the origin of red-bed copper and related deposits: Econ.Geol., 71, 1036-1048.
  • Shockey, P.N.; Renfro, A.R., and Peterson, R.J., 1974, Copper-sulfide solution fronts at Paoli, Oklahoma: Econ.Geol., 69, 266- 268.
  • Teşrekli, M. and Pehlivanoğlu, H., 1982, Yozgat ili Sekili köyü civarı bakır zuhurları incelemesi hakkında rapor: MTA, Maden Etüt Arşiv no. ME-1812, 6 p., Ankara, Turkey.
  • Woodward, L.A.; Kaufman, W.H.; Schumacher, O.L. and Talbott, L.W., 1974, Strata-bound copper deposits in Triassic sandstones of Sierra Nacimiento, New Mexico: Econ.Geol., 69, 108-120.
Toplam 18 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Halil Aral Bu kişi benim

Yayımlanma Tarihi 1 Mart 1990
Yayımlandığı Sayı Yıl 1990 Cilt: 110 Sayı: 110

Kaynak Göster

APA Aral, H. (1990). The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia). Bulletin of the Mineral Research and Exploration, 110(110), 39-60.
AMA Aral H. The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia). Bull.Min.Res.Exp. Mart 1990;110(110):39-60.
Chicago Aral, Halil. “The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia)”. Bulletin of the Mineral Research and Exploration 110, sy. 110 (Mart 1990): 39-60.
EndNote Aral H (01 Mart 1990) The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia). Bulletin of the Mineral Research and Exploration 110 110 39–60.
IEEE H. Aral, “The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia)”, Bull.Min.Res.Exp., c. 110, sy. 110, ss. 39–60, 1990.
ISNAD Aral, Halil. “The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia)”. Bulletin of the Mineral Research and Exploration 110/110 (Mart 1990), 39-60.
JAMA Aral H. The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia). Bull.Min.Res.Exp. 1990;110:39–60.
MLA Aral, Halil. “The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia)”. Bulletin of the Mineral Research and Exploration, c. 110, sy. 110, 1990, ss. 39-60.
Vancouver Aral H. The Stratigraphy, Sedimentology and Origin of the Copper (Silver-Uranium) Deposits Found in An Area Between Delice and Yerköy (Middle Anatolia). Bull.Min.Res.Exp. 1990;110(110):39-60.

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