دوره 27، شماره 4 - ( 10-1398 )                   جلد 27 شماره 4 صفحات 925-940 | برگشت به فهرست نسخه ها


XML English Abstract Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Gholizadeh, Rasa I, Yazdi M, Boni M. Mineralogy and geochemistry of Zincian-dolomite in Bahramtaj deposit, Yazd, Central Iran. www.ijcm.ir. 2019; 27 (4) :925-940
URL: http://ijcm.ir/article-1-1373-fa.html
قلی زاده کاظم، رسا ایرج، یزدی محمد، بونی ماریا. کانی‌شناسی و زمین شیمی زینسین‌دولومیت در کانسار سرب و روی بهرامتاج یزد، ایران مرکزی. مجله بلورشناسی و کانی شناسی ایران. 1398; 27 (4) :925-940

URL: http://ijcm.ir/article-1-1373-fa.html


دانشگاه شهید بهشتی
چکیده:   (161 مشاهده)
کانسار سرب و روی بهرامتاج در 90 کیلومتری شمال غرب شهر یزد و در پهنه زمین­شناسی ایران مرکزی واقع است.
کانی­سازی سرب- روی در سنگ میزبان آهک­های دولومیتی پالئوزوئیک تشکیل شده است.
در این پژوهش، زینسین­­دولومیت به عنوان یکی از آثار مهم فرایند دگرسانی همراه با کانی­سازی بررسی شده­ است. زینسین­دولومیت بوسیله مقادیر متفاوتی از عنصر روی و مقادیر کمتری از عناصر سرب، مس و کادمیوم در شبکه آن مشخص شده است. بررسی زینسین­دولومیت بوسیله دستگاه تجزیه تفریق گرمایی نشان می­دهد که با افزایش روی در شبکه دولومیت، یک کاهش قابل توجه در نخستین دمای واکنشی گرماگیر دولومیت رخ می­دهد. جانشینی دولومیت بوسیله زینسین­­دولومیت برونزاد به عنوان قسمتی از فرآیند چندمرحله­ای کانی­سازی در معدن بهرامتاج شناخته شده است که با پیشرفت فرآیند تشکیل زینسین­دولومیت شروع و با دولومیت­زدایی مراحل ابتدایی ادامه یافته و سرانجام منجر به تشکیل کانی­های غیرسولفیدی روی مانند اسمیت­زونیت و همی­مورفیت شده است.     
متن کامل [PDF 2833 kb]   (58 دریافت)    
نوع مطالعه: پژوهشي | موضوع مقاله: تخصصي
دریافت: ۱۳۹۸/۱۰/۸ | پذیرش: ۱۳۹۸/۱۰/۸ | انتشار: ۱۳۹۸/۱۰/۸

فهرست منابع
1. [1] Rezaeian K., Rasa I., Jafari M., Amiri A., Khosrotehrani K., "Epigenetic dolomitization, Exploration guide of zinc and lead Non-Sulfide minerals with Carbonate -Hosted", Lahijan geoscience magazine, (2010) 31-40.
2. [2] Mondillo N., Boni M., Balassone G., Villa I., "The Yanque Prospect (Peru): From Polymetallic Zn-Pb Mineralization to a Nonsulfide Deposit", Economic Geology 109 (2014) 1735-1763. [DOI:10.2113/econgeo.109.6.1735]
3. [3] Slezak P.R., Olivo G.R., Oliveira G.D., Dardenne M.A., "Geology, mineralogy, and geochemistry of the Vazante Northern Extension zinc silicate deposit, Minas Gerais, Brazil", Ore Geology Reviews 56 (2014) 234-257. [DOI:10.1016/j.oregeorev.2013.06.014]
4. [4] Heyl A.V., Boizon C.N., "Oxidized zinc deposits of the United States, part 1. General geology", U.S. Geology Survey 1135-A (1962) 52p.
5. [5] Hitzman M.W., Reynolds N.A., Sangster D.F., Allen C.R., Carman C.E., "Classification, genesis, and exploration guides for nonsulfide Zinc deposits", Economic Geology and the Bulletin of the Society of Economic Geologists 98 (2003) 685-714. [DOI:10.2113/gsecongeo.98.4.685]
6. [6] Boni M., Mondillo N., "The "calamine" and the "others": the great family of supergene nonsulfide zinc ores", Ore Geology Reviews 67 (2015) 208-233. [DOI:10.1016/j.oregeorev.2014.10.025]
7. [7] Reichert J., Borg G., "Numerical simulation and a geochemical model of supergene carbonate-hosted nonsulphide zinc deposits", Ore Geology Reviews 33 (2008) 117-133. [DOI:10.1016/j.oregeorev.2007.02.006]
8. [8] Choulet F., Charles N., Barbanson L., Branquet Y., Sizaret S., Ennaciri A., Badra L., Chen Y., "Non-sulfide zinc deposits of the Moroccan High Atlas: Multi-scale characterization and origin", Ore Geology Reviews 56 (2014) 115-140. [DOI:10.1016/j.oregeorev.2013.08.015]
9. [9] Paradis S., Keevil H., Simandl G., Raudsepp M., "Carbonate-hosted nonsulphide Zn-Pb mineralization of southern British Columbia, Canada", Mineralium Deposita , 2015, 50, pp 923-951. [DOI:10.1007/s00126-014-0565-9]
10. [10] Rajabi A., Rastad E., Canet C., "Metallogeny of Permian-Triassic carbonate-hosted Zn-Pb and F deposits of Iran: A review for future mineral exploration", Australian Journal of Earth Sciences 60 (2013) 197-216. [DOI:10.1080/08120099.2012.754792]
11. [11] Amiri A., "Mineralogical evolutions of carbonate-hosted Zn-Pb-(F-Mo) deposits in Kuhbanan-Bahabad area, Central Iran, metal source approach", Journal of Tethys 5 (2017) 001-032.
12. [12] Rajabi A., Rastad E., Alfonso P., Canet C., "Geology, ore facies and sulfur isotopes of the Koushk ventproximal sedimentary-exhalative deposit, Posht-e-Badam Block, Central Iran", International Geology Review 54 (2012a) 1635-1648. [DOI:10.1080/00206814.2012.659106]
13. [13] Rajabi A., Rastad E., Canet C., "An introduction to metallogeny of Permo-Triassic Carbonate-hosted Zn-Pb and F deposits of Iran: Application for future mineral exploration", Australian Journal of Earth Science 60 (2012b) 197-216. [DOI:10.1080/08120099.2012.754792]
14. [14] Maghfouri S., Hosseinzadeh M.R., Rajabi A., "A review of major non-sulfide zinc deposits in Iran", Geoscience Frontiers 9 (2018) 349-472. [DOI:10.1016/j.gsf.2017.04.003]
15. [15] Parsa M., Maghsoudi A., "Controls on Mississipi Valley-Type Zn-Pb mineralization in Behabad distric, Central Iran: Constraints from spatial and numerical analyses", Journal of African Earth Sciences, 140, (2018) 189-198. [DOI:10.1016/j.jafrearsci.2018.01.012]
16. [16] Qasemi M., Momenzadeh M., Yaghoubpour A., Mirshokraee A., "Textural and mineralogical study of Zn-Pb Mehdi Abad deposit", Iranian Journal of Crystallography and Mineralogy 3 (2008) 389-404 in Persian.
17. [17] Boveiri Konari M., Rastad E., "Nature and origin of dolomitization associated with sulphide mineralization: new insights from the Tappehsorkh Zn-Pb (-Ag-Ba) deposit, Irankuh Mining District, Iran", Geological Journal, 53 (2017) 1-211. [DOI:10.1002/gj.2875]
18. [18] Boveiri Konari M., Rastad E., Mohajjel M., Nakini A., Haghdoost M., "Structure, Texture, Mineralogy and Genesis of Sulphide Ore Facies in Tappehsorkh Detrital-Carbonate-Hosted Zn-Pb-(Ag) Deposit, South of Esfahan" Scientific Quarterly Journal Geosciences, 25 (2016) 221-236 In Persian with English abstract.
19. [19] Karimpour M.H., Malekzadeh Shafaroudi A., Esmaeili Sevieri A., Shabani S., Allaz J.M., Stern C.R., "Geology,mineralization, mineral chemistry, and orefluid conditions of Irankuh Pb-Zn mining district, south of Isfahan", Journal of Economic Geology 9 (2018b) 267-294 In Persian with English abstract.
20. [20] Karimpour M.H., Malekzadeh Shafaroudi A., Alaminia Z., Esmaeili Sevieri A., Stern C.R., "New hypothesis on time and thermal gradient of subducted slab with emphasis on dolomitic and shale host rocks in formation of Pb-Zn deposits of Irankuh-Ahangaran belt", Journal of Economic Geology 10 (2019) 677-706 In Persian with English abstract.
21. [21] Jazi M.A., Karimpour M.H., Malekzadeh Shafaroudi A., "Crystallography, mineralogy and geochemistry of galena in Nakhlak lead mine (Esfahan)", Iran Journal of Crystallography and Mineralogy 24 (2015) 3-18.
22. [22] Vaziri S.H., Fursich F.T., Kohan salghadimvand N., "Facies analysis and depositional environments of the Upper Cretaceous Sadr unit in the Nakhlak area, Central Iran", Revista Mexicana de Ciencias Geológicas 29 (2012) 384-397.
23. [23] Pourkaseb H., Taheri S., Zarasvandi A., Aliabadi M.A., "Geochemistry and Genesis of Robat paein Barite deposit, Khomein, Markazi", Iranian Journal of Crystallography and Mineralogy 4 (2016) 813-82.
24. [24] Yajam S., Aminin S., Ghalamghash J., "Petrogenesis of apatite-bearing granitic intrusion of Chah-e-Torsh", Iranian Journal of Crystallography and Mineralogy 3 (2008) 425-434 in Persian.
25. [25] Kuhjani V., Musivand F., Rajabi A., "Construction, texture, ore faces and the formation of Hafthar Zinc-Lead Deposit, Southwest of Aghda", 9th National economic Geology Conference of Iran (2017) in Persian.
26. [26] Motavali K., Behzadi M., Yazdi M., "Hydrogeochemistry of lead and zink Nodushan deposit ecpecially mineralography and sulfide minerals analysis", Iranian Journal of Crystallography and Mineralogy 4 (2018) 813-824.
27. [27] Yang Q., Liu W., Zhang J., Wang J., Zhang X., "Formation of Pb-Zn deposits in the Sichuan-Yunnan-Guizhou triangle linked to the Youjiang foreland basin: Evidence from Rb-Sr age and in situ sulfur isotope analysis of the Maoping Pb-Zn deposit in northeastern Yunnan Province, southeast China", Ore Geology Reviews 107 (2019) 780-800. [DOI:10.1016/j.oregeorev.2019.03.022]
28. [28] Zabinski W., "Zincian dolomite from the Warynski mine, Upper Silesia. Bulletin de l'Academie Polonaise des Sciences", S Sci Chim, GeoletGeogr 7 (1959) 355-358.
29. [29] Zabinski W., " Zincian dolomite: the present state of knowledge", Mineralogy Polonica 11 (1980) 19-32.
30. [30] Mondillo N., Boni M., Balassone G., Grist B., "In search of the lost zinc: a lesson from the Jabali (Yemen) nonsulfide zinc deposit", J Geoch Expl 108 (2011) 209-219. [DOI:10.1016/j.gexplo.2011.02.010]
31. [31] Stocklin J., "Structural history and tectonics of Iran: A review", American Association of Petroleum Geologists Bulletin, 52 (1968) 1229-1258. [DOI:10.1306/5D25C4A5-16C1-11D7-8645000102C1865D]
32. [32] Aghanabati A., "Iran's Geology", Geological Survey of Iran (2005), 622p.
33. [33] Alaei S., Fudazi M., "Geological Map of Aghda, Tehran, Geological Survey of Iran, scale 1:100,000", (2006).
34. [34] Amidi M., Nabavi M.H., "Geological Map of the Sarve bala. Tehran, Geological Survey of Iran, scale 1:100,000", (1988).
35. [35] Luke G., Nigel. J., Cook C., Ciobanu L., Benjamin P.W., "Trace and minor elements in galena: A reconnaissance LAICP-MS study", American Mineralogist, 100 (2015) 548-569. [DOI:10.2138/am-2015-4862]
36. [36] Newton T., "Geochemistry of the Timberville Zn-Pb District, Rockingham County", VA. Ph.D. thesis, University of Maryland, Maryland, USA, 2013.137 pp.
37. [37] Boni M., Large D., "Nonsulfide zinc mineralization in Europe: an overview", Economic Geology 98 (2003) 715-729. [DOI:10.2113/gsecongeo.98.4.715]
38. [38] Fazli S., Taghipour B., Lentz D., "The Zn-Pb sulfide and Pb-Zn-Ag non-sulfide Kuh-e-Surmeh ore deposit, Zagros Belt, Iran: Geologic, mineralogical, geochemical, and S isotopic constraints", Journal of Geochemical Exploration 194 (2018) 146-166. [DOI:10.1016/j.gexplo.2018.07.019]
39. [39] Mondillo N., Wilkinson J., Boni M., Weiss D., Mathur M., "A global assessment of Zn isotope fractionation in secondary Zn minerals from sulfide and non-sulfide ore deposits and model for fractionation contro"l, Chemical Geology 500 ( 2018) 182-193. [DOI:10.1016/j.chemgeo.2018.09.033]
40. [40] Gholizadeh K., Rasa I., Yazdi M., Boni M., Mohamadi M., "Mineralogy of lead and zinc non-sulfide minerals in Bahramtaj mining distric"t, Geological Survey of Iran (2017) in Persian.
41. [41 Lecumberri-Sanchez P., Romer R. L., Luders V., Bodnar R., "Genetic relationships between silver-leadzinc mineralization in the Wutong deposit, Guangxi Province and Mesozoic granite magmatism in the Nanling belt, southeast China", Mineralium Deposita 49(2014), 353-369. [DOI:10.1007/s00126-013-0494-z]
42. [42] Wilkinson, J. J., "Sediment-hosted zinc-lead mineralization: Processes and perspectives. Treatise on Geochemistry", second Edition, Elsevier, (2014), 219-248. [DOI:10.1016/B978-0-08-095975-7.01109-8]
43. [43] Moore J. McM., "Supergene mineral deposits and physiographic development in southwest Sardinia, Italy: Transactions Institution Mining and Metallurgy Section B" Applied Earth Science, 71 (1972) 59-66.
44. [44] Boni M., Mondillo N., Balassone G., "Zincian dolomite: a peculiar dedolomitization case?" Geology 39 (2011) 183-186. [DOI:10.1130/G31486.1]
45. [45] Yazdi M., "Geochemical Sampling Methods", Jahad Daneshgahi press, (2018) 182p in Persian.
46. [46] Dini G., Enayati M.H., "Quantitative X-ray Diffraction Analysis by the Rietveld Method", Jahad daneshgahi, Esfahan, (2016) 181p in Persian.
47. [47] Birch W.D., "Zincian dolomite from Broken Hill, New South Wales Journal of the Geological Society of Australia", 30 (1983) 85-87. [DOI:10.1080/00167618308729238]
48. [48] Jaakko Siivola J., Schmid R., "List of Mineral Abbreviations", Recommendations by the IUGS Subcommission on the Systematics of Metamorphic Rocks: Web version 01.02.07
49. [49] Mandarino J.A., Back M.E., Fleischer's Glossary of Mineral Species, Ninth Edition, the Mineralogical Record Inc., and Tucson, Arizona, USA. (2004).
50. [50] Goldsmith R., Graf D.L., Northrup D.A., "Studies in the system CaCO,-MgC03- FeCO: (1) phase relations; (2) a method for major eiement spectrochemical analyses; (3) compositions of some ferroan dolomites", Journal Geology 70 (1962) 659-688. [DOI:10.1086/626865]
51. [51] Goldsmith R., Northrup D.A., "Subsolidus relations in the systems CaCO,-MgCO,-CoCOs and CaC03-M&O,-NiC03", Journal Geology 73 (1965) 817-829. [DOI:10.1086/627122]
52. [52] Rosenberg E., "Subsolidus relations in the system CaCOa-MgCOa-FeCO3, between 350 and 550°C", American Mineralogist 52 (1967) 787-796.
53. [53] Vandeginste V., John C.M., "Manning, Ch Interplay between depositional facies, diagenesis and early fracture in the Early Cretaceous Habshan Formation, Jebel Madar, Oman", Marine and Petroleum Geology 43 (2013) 489-503. [DOI:10.1016/j.marpetgeo.2012.11.006]
54. [54] Milliman J.D., "Marine Carbonates Part 1: Recent Sedimentary Carbonate", Springer-Verlag, Berlin, (1974) 375 p. [DOI:10.1007/978-3-642-65528-9]
55. [55] Rao C.P., Amini Z.Z., "Faunal relationship to grain-size, mineralogy and geochemistry in recent temperate shelf carbonate, Western Tasmania, Australia", Carbonates and Evaporites, 10 (1995) 114-123. [DOI:10.1007/BF03175247]
56. [56] Rao C.P., Adabi M.H., "Carbonate minerals, major and minor elements and oxygen and carbon isotopes and their variation with water depth in cool, temperate carbonates, western Tasmania, Australia", Marine Geology, 103 (1992) 249-272. [DOI:10.1016/0025-3227(92)90019-E]
57. [57] Kulp J.L., Kent P., Kerr P.F., "Thermal study of the Ca-Mg-Fe carbonate minerals", American Mineralogist 36 (1951) 643-670.

ارسال نظر درباره این مقاله : نام کاربری یا پست الکترونیک شما:
CAPTCHA

کلیه حقوق این وب سایت متعلق به مجله بلورشناسی و کانی شناسی ایران می باشد.

طراحی و برنامه نویسی : یکتاوب افزار شرق

© 2020 All Rights Reserved | Iranian Journal of Crystallography and Mineralogy

Designed & Developed by : Yektaweb