نوع مقاله : مقاله پژوهشی
نویسندگان
- نسیم عسکری 1
- رضا زارعی سهامیه 2
- جعفر عمرانی 3
- محمد هاشم امامی 4
- کارملا واکارو 5
- خوزه فرانسیسکو سانتوس 6
1 دانشجوی دکترا، گروه زمینشناسی، دانشکده علوم پایه، دانشگاه لرستان، خرمآباد، ایران
2 استاد، گروه زمینشناسی، دانشکده علوم پایه، دانشگاه لرستان، خرمآباد، ایران
3 دکترا، سازمان زمینشناسی و اکتشافات معدنی کشور، تهران، ایران
4 دانشیار، گروه زمینشناسی، دانشکده علوم پایه، دانشگاه آزاد اسلامی واحد اسلامشهر، اسلامشهر، ایران
5 استادیار، دانشکده علوم فیزیک و زمین، دانشگاه فرارا، فرارا، ایتالیا
6 استادیار، دانشکده علوم زمین، دانشگاه آویرو، آویرو، پرتغال
چکیده
دایکهای مافیک منطقه زرین با روند شمال باختر- جنوب خاور در توده گرانیتوییدی زرین واقع در باختر بلوک یزد، ایران مرکزی را جایگرفتهاند. این دایکها از نوع گابروهای سابآلکالن، دارای بافت اینترگرانولار و در برخی موارد میلونیتی میباشند. دادههای ژئوشیمیایی نشان دادهاندکه آنها حاصل ذوب بخشی خاستگاه گوشتهای اسپینل پریدوتیتی بوده و مقادیر نسبتهای ایزوتوپی 87Sr/86Sr (7028/0-7044/0) و 144Nd/143Nd (5122/0- 5123/0) نیز خاستگاه گوشته لیتوسفری دایکهای مافیک منطقه زرین را تأیید میکند. الگوی پراکندگی عناصر فرعی بهنجار شده نسبت به گوشته اولیه از لحاظ غنیشدگی از LILEs نسبت به HFSEs و آنومالی مثبت
Rb, Ba و آنومالی منفی Nb, Ta, Zr, Th نشاندهنده ماگماتیسم وابسته به فرورانش و متاسوماتیزم شدن خاستگاه آنها توسط سیالات حاصل از فرورانش است. تشکیل دایکهای منطقه زرین را میتوان به ذوب گوشته لیتوسفری در اثر بالاآمدگی استنوسفر در یک محیط کششی وابسته به فرورانش نسبت داد.
کلیدواژهها
موضوعات
کتابنگاری
آقانباتی، ع.، 1383- زمینشناسی ایران، سازمان زمین شناسی واکتشافات معدنی کشور،606 ص.
تاجبخش، غ. ر، 1399- سنگنگاری، زمینشیمی و جایگاه زمینساختی فوج دایکهای مافیک گرانیتوئید زریگان، شمال بافق (ایران مرکزی). فصلنامه علمی علوم زمین، دوره 30، شماره 117، صفحه 175-188، doi: 10.22071/gsj.2020.222632.1768.
شاکر اردکانی، ف.، ١٣٨٥- پترولوژی و بررسی فابریک سنگهای دگرگونی منطقه زرین، اردکان، پایان نامه کارشناسی ارشد, دانشگاه تربیت معلم، تهران، ایران.
عمرانی، ج.، ١٣٧١- پترولوژی و ژئوشیمی سنگهای نفوذی ناحیه زرین (اردکان یزد)، پایاننامه کارشناسی ارشد، دانشگاه تهران، ایران.
یوسفی، م. و حسینی، ک.، 1383- نقشه زمینشناسی 1:100000 زرین، سازمان زمینشناسی و اکتشافات معدنی کشور، تهران، ایران.
آقانباتی، ع.، 1383- زمینشناسی ایران، سازمان زمین شناسی واکتشافات معدنی کشور،606 ص.
تاجبخش، غ. ر، 1399- سنگنگاری، زمینشیمی و جایگاه زمینساختی فوج دایکهای مافیک گرانیتوئید زریگان، شمال بافق (ایران مرکزی). فصلنامه علمی علوم زمین، دوره 30، شماره 117، صفحه 175-188، doi: 10.22071/gsj.2020.222632.1768.
شاکر اردکانی، ف.، ١٣٨٥- پترولوژی و بررسی فابریک سنگهای دگرگونی منطقه زرین، اردکان، پایان نامه کارشناسی ارشد, دانشگاه تربیت معلم، تهران، ایران.
عمرانی، ج.، ١٣٧١- پترولوژی و ژئوشیمی سنگهای نفوذی ناحیه زرین (اردکان یزد)، پایاننامه کارشناسی ارشد، دانشگاه تهران، ایران.
یوسفی، م. و حسینی، ک.، 1383- نقشه زمینشناسی 1:100000 زرین، سازمان زمینشناسی و اکتشافات معدنی کشور، تهران، ایران.
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Fettes, D. and Desmons, J., eds., 2007- Metamorphic Rocks: A Classification and Glossary of Terms. Cambridge, UK, Cambridge University Press. doi:10.1017/cbo9780511628917.004.
Frey, F. A., Green, D. H. and Roy, S. D., 1978- Integrated models of basalt petrogenesis: a study of quartz tholeiites to olivine melilitites from south eastern Australia utilizing geochemical and experimental petrological data. J. Petrol. 19, 463–513. doi: 10.1093/petrology/19.3.463.
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Aghazadeh, M., Castro, A., Omran, N. R., Emami, M. H., Moinvaziri, H. and Badrzadeh, Z., 2010- The gabbro (shoshonitic)-monzonite- granodiorite association of Khankandi pluton, Alborz Mountains, NW Iran. Journal of Asian Earth Sciences, 38(5), 199–219. doi: 10.1016/j.jseaes.2010.01.002.
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Ernst, R. E. and Buchan, K. L., 2001- The use of mafic dike swarms in identifying and locating mantle plumes. In: Ernst, R.E., Buchan, K.L. (Eds.), Mantle Plumes: Their Identification through Time, vol. 352. Special Paper, Geological Society of America, pp. 247–265. . doi:10.1130/0-8137-2352-3.247.
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Fettes, D. and Desmons, J., eds., 2007- Metamorphic Rocks: A Classification and Glossary of Terms. Cambridge, UK, Cambridge University Press. doi:10.1017/cbo9780511628917.004.
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Kargaranbafghi, F., Foeken, J., Guest, B. and Stuart, F., 2012- Cooling history of the Chapedony metamorphic core complex, Central Iran: Implications for the Eurasia–Arabia collision: Tectonophysics, v. 524–525, p. 100–107. doi: 10.1016/j.tecto.2011.12.022.
Kargaranbafghi, F., Neubauer, F. and Genser, J., 2015- Rapid Eocene extension in the Chapedony metamorphic core complex, Central Iran: Constraints from 40Ar/39Ar dating. Journal of Asian Earth Sciences, 106, 156–168. doi: 10.1016/j.jseaes.2015.03.010.
Kargaranbafghi, F., Neubauer, F., Genser, J., Houshmandzadeh, A., 2007- 40Ar/39Ar constraints on the tectonothermal evolution of the Chapedony metamorphic core complex, Central Iran. Geophys. Res. Abstracts 9 EGU07-A-07387.
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Liao, F., Wang, Q., Chen, N., Santosh, M., Xu, Y. and Mustafa, H. A., 2018- Geochemistry and geochronology of the ∼0.82 Ga high–Mg gabbroic dykes from the Quanji Massif, southeast Tarim Block, NW China: Implications for the Rodinia supercontinent assembly. Journal of Asian Earth Sciences, 157, 3–21. doi:10.1016/j.jseaes.2017.06.021.
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McKenzie, D. and Bickle, M. J., 1988- The Volume and Composition of Melt Generated by Extension of the Lithosphere. Journal of Petrology, 29(3), 625–679. doi:10.1093/petrology/29.3.625.
Moghadam, H. S., Khademi, M., Hu, Z. C., Stern, R. J., Santos, J. F. and Wu, Y. B., 2015- Cadomian (Ediacaran–Cambrian) arc magmatism in the ChahJam–Biarjmand metamorphic complex (Iran): magmatism along the northern active margin of Gondwana, Gondwana Research 27, 439–452.doi: 10.1016/j.gr.2013.10.014.
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Johnson, J. S., Gibson, S. A., Thompson, R. N. and Nowell, G. M., 2005- Volcanism in the Vitim Volcanic Field, Siberia: geochemical evidence for a mantle plume beneath the Baikal rift zone. Journal of Petrology 46, 1309–1344. doi: 10.1093/petrology/egi016.
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Kargaranbafghi, F., Neubauer, F. and Genser, J., 2015- Rapid Eocene extension in the Chapedony metamorphic core complex, Central Iran: Constraints from 40Ar/39Ar dating. Journal of Asian Earth Sciences, 106, 156–168. doi: 10.1016/j.jseaes.2015.03.010.
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Lee, C. T., Luffi, P. and Chin, E. J., 2011- Building and destroying continental mantle. Annu. Rev. Earth Planet. Sci. 39, 59–90.doi: 10.1146/annurev-earth-040610-133505.
Liao, F., Wang, Q., Chen, N., Santosh, M., Xu, Y. and Mustafa, H. A., 2018- Geochemistry and geochronology of the ∼0.82 Ga high–Mg gabbroic dykes from the Quanji Massif, southeast Tarim Block, NW China: Implications for the Rodinia supercontinent assembly. Journal of Asian Earth Sciences, 157, 3–21. doi:10.1016/j.jseaes.2017.06.021.
Ma, G. S.-K., Malpas, J., Suzuki, K., Lo, C. H., Wang, K. L., Iizuka, Y. and Xenophontos, C., 2013- Evolution and origin of the Miocene intraplatebasalts on the Aleppo Plateau, NW Syria.Chemical Geology,335, 149–171. doi: 10 .1016/j.chemgeo.2012.11.001.
Ma, G. S.-K., Malpas, J., Xenophontos, C. and Chan, G. H.-N., 2011- Petrogenesis of latest Miocene-Quaternary continental intraplate volcanism along the northern Dead Sea Fault System (Al Ghab-Homs volcanicfield), western Syria: Evidence for lithosphere- asthenosphere inter-action. Journal of Petrology, 52(2), 401–430. doi.org/10.1093/petrology/egq085.
Martin, H., 1987- Petrogenesis of Archaean trondhjemites, tonalites, and granodiorites from eastern Finland: major and trace element geochemistry. J Petrol, 28: 921-953. doi: 0.1093/petrology/28.5.921.
McKenzie, D. and Bickle, M. J., 1988- The Volume and Composition of Melt Generated by Extension of the Lithosphere. Journal of Petrology, 29(3), 625–679. doi:10.1093/petrology/29.3.625.
Moghadam, H. S., Khademi, M., Hu, Z. C., Stern, R. J., Santos, J. F. and Wu, Y. B., 2015- Cadomian (Ediacaran–Cambrian) arc magmatism in the ChahJam–Biarjmand metamorphic complex (Iran): magmatism along the northern active margin of Gondwana, Gondwana Research 27, 439–452.doi: 10.1016/j.gr.2013.10.014.
Muttoni, G., Mattei, M., Balini, M., Zanchi, A., Gaetani, M. and Berra, F., 2009- The drift history of Iran from the Ordovician to the Triassic. In M.-F. Brunet, M. Wilmsen and J.W. Granath (Eds.), South Caspian to Central Iran Basins. Geological Society of London Special Publication no. 312. doi:10.1144/SP312.2.
Omrani, J., Agard, P., Whitechurch, H., Benoit, M., Proteau, G. and Jolivrt, L., 2008- Arc-magmatism and subduction history beneath the Zagros Mountains, Iran: A new report of adakites and geodynamic consequences. Lithos 106, 380–98.doi: 10.1016/j.lithos.2008.09.008 .
Pearce, J. A. and Stern, R. J., 2006- Origin of back-arc basin magmas: Trace element and isotope perspectives. Geophysical Monograph Series, 63–86. doi:10.1029/166gm06.
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Peng, P., 2015- Precambrian mafic dyke swarms in the North China Craton and their geological implications. Sci. China (Seris D: Earth Sci.) 58, 649–675.doi: 10.1007/s11430-014-5026-x.
Pichavant, M., Mysen, B. O. and Macdonald, R., 2002- Source and H2O content of high-MgO magmas in island arc settings: an experimental study of primitive calc- alkaline basalt from St. Vincent, Lesser Antilles arc. Geochim. Cosmochim. Acta 66, 2193–2209. doi: 10.1016/s0016-7037(01)00891-2.
Piper, J. D.A., Zhang, J. S., Huang, B. C. and Roberts, A. P., 2011- Palaeomagnetism of Precambrian dyke swarms in the North China Shield: the ∼1.8 Ga LIP event and crustal consolidation in late Palaeoproterozoic times. J. Asian Earth Sci. 41, 504–524. doi: 10.1016/j.jseaes.2011.03.010.
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Regard, V., Bellier, O., Thomas, J.-C., Abbassi, M. R., Mercier, J., Shabanian, E., Feghhi, K. and Soleymani, S., 2004- Accommodation of Arabia-Eurasia convergence in the Zagros-Makran transfer zone, SE Iran: A transition between collision and subduction through a young deforming system. Tectonics 23, TC4007.doi: 10.1029/2003tc001599.
Rossetti, F., Nozaem, R., Lucci, F., Vignaroli, G., Gerdes, A., Nasrabadi, M. and Theye, T., 2014- Tectonic setting and geochronology of the Cadomian (Ediacaran-Cambrian) magmatism in Central Iran, Kuh-e-Sarhangi region (NW Lut Block): Journal of Asian Earth Sciences, v. 102, p. 24–44. doi: 10.1016/j.jseaes.2014.07.034.
Sengör, A. M. C., 1979- Mid-Mesozoic closure of Permo-Triassic Tethys and its implications. Nature 279, 590–593.doi: 10.1038/279590a0.
Shakerardakani, F., Neubauer, F., Bernroider, A.V.Q., Peytcheva, I., Liu, X., Genser, J., Monfaredi, B. and Masoudi, F., 2017- Geochemical and isotopic evidence for Carboniferous rifting: mafic dykes in the central Sanandaj-Sirjan zone (Dorud-Azna, West Iran), GEOLOGICA CARPATHICA, 68, 3, 229 – 247. 10.1515/geoca-2017-0017.
Shervais, J. W., 1982- Ti–V plots and the petrogenesis of modern and ophiolitic lavas". Earth and Planetary Science Letters 59, 101–118. doi: 10.1016/0012-821x(82)90120-0.
Shinjo, R., Chung, S. L., Kato, Y. and Kimura, M., 1999- Geochemical and Sr–Nd isotopic characteristics of volcanic rocks from the Okinawa Trough and Ryukyu Arc: implications for the evolution of a young, intracontinental back arc basin. J. Geophys. Res. 104 (B5), 10591–10608. doi: 10.1029/1999jb900040.
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Stocklin, J., 1968- Structural history and tectonics of Iran: a review: American Association of Petroleum Geologists Bulletin, v. 52, p. 1229–1258.
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Verdel, C., Wernicke, B. P., Hassanzadeh, J. and Guest, B., 2011- A Paleogene extensional arc flare-up in Iran. Tectonics 30, TC3008.doi:1 0.1130/b26102.1.
Verdel, C., Wernicke, B. P., Ramezani, J., Hassanzadeh, J., Renne, P. R. and Spell, T. L., 2007- Geology and thermochronology of Tertiary Cordilleran style metamorphic core complexes in the Saghand region of central Iran. GSA Bull. 119, 961–977. doi:10.1029/2010tc002809.
Vincent, S. J., Morton, A. C., Carter, A., Gibbs, S. and Barabadze, T. G., 2007- Oligocene uplift of the Western Greater Caucasus: an effect of initial Arabia–Eurasia collision. Terra Nova 19, 160–166.doi: 10.1111/j.1365-3121.2007.00731.x.
Weinstein, Y., Navon, O., Altherr, R. and Stein, M., 2006- The role of lithospheric mantle heterogeneity in the generation of Plio-Pleistocene alkali basaltic suites from NW Harrat Ash Shaam (Israel). Journal of Petrology, 47(5), 1017–1050.doi: 10.1093/petrology/egl003.
White, R. S. and Mckenzie, D.P., 1989- Magmatism at rift zones: the generation of volcanic continental margins and flood basalts. Journal of Geophysical Research 94, 7685-7729.doi: 10.1029/jb094ib06p07685.
Wilson, M., 1989- Igneous Petrogenesis, Unwin Hyman London, 466p. ISBN 978-94-010-9388-0.
Winter, J. D., 2001- An Introduction to Igneous and Metamorphic Petrology, Prentice Hall, 697p. ISBN-10: 0132403420
Wood, D. A., 1980- The application of a Th, Hf, Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British tertiary volcanic province. Earth and Planetary Science Letters, 50, 11–30.doi: 10.1016/0012-821X (80)90116-8.
Yang, J. H., Sun, J. F., Chen, F. K., Wilde, S. and Wu, F. Y., 2007- Sources and petrogenesis of Late Triassic dolerite dikes in the Liaodong peninsula: implications for post–collisional lithosphere thinning of the Eastern North China Craton. J. Petrol. 48 (10), 1973–1997.doi: 10.1093/petrology/egm046.
Zhang, C. L., Li, Z. X., Li, X. H. and Ye, H. M., 2009- Neoproterozoic mafic dyke swarms at the northern margin of the Tarim Block, NW China: age, geochemistry, petrogenesis and tectonic implications. J. Asian Earth Sci. 35, 167–179. doi:10.1016/j.jseaes.2009.02.003.
Zhao, J. H., Hu, R. Z., Zhou, M. F. and Liu, S., 2007- Elemental and Sr–Nd–Pb isotopic geochemistry of Mesozoic mafic intrusions in southern Fujian Province, SE China: implications for lithospheric mantle evolution. Geol. Mag. 144, 937–952. doi: 10.1017/S0016756807003834.
Zheng, Y. F., 2012- Metamorphic chemical geodynamics in continental subduction zones, Chemical Geology, 328, 5–48. doi:10.1016/j.chemgeo.2012.02.005.
Zhu, X., Chen, F., Liu, B., Zhang, H. and Zhai, M., 2015- Geochemistry and zircon ages of mafic dikes in the South Qinling, central China: evidence for late Neoproterozoic continental rifting in the northern Yangtze block, Int J Earth Sci (Geol Rundsch) 104:27–44. doi: 10.1007/s00531-014-1056-z.
Pearce, J. A. and Norry, M. J., 1979- Petrogenetic implications of Ti, Zr, Y, and Nb variations in volcanic rocks. Contributions to Mineralogy and Petrology 69, 33–47.doi: 10.1007/bf00375192.
Peng, P., 2015- Precambrian mafic dyke swarms in the North China Craton and their geological implications. Sci. China (Seris D: Earth Sci.) 58, 649–675.doi: 10.1007/s11430-014-5026-x.
Pichavant, M., Mysen, B. O. and Macdonald, R., 2002- Source and H2O content of high-MgO magmas in island arc settings: an experimental study of primitive calc- alkaline basalt from St. Vincent, Lesser Antilles arc. Geochim. Cosmochim. Acta 66, 2193–2209. doi: 10.1016/s0016-7037(01)00891-2.
Piper, J. D.A., Zhang, J. S., Huang, B. C. and Roberts, A. P., 2011- Palaeomagnetism of Precambrian dyke swarms in the North China Shield: the ∼1.8 Ga LIP event and crustal consolidation in late Palaeoproterozoic times. J. Asian Earth Sci. 41, 504–524. doi: 10.1016/j.jseaes.2011.03.010.
Ramezani, J. and Tucker, R., 2003- The Saghand region, Central Iran: U–Pb geochronology, petrogenesis and implication for Gondwana tectonics. Am. J. Sci. 303, 622–665. doi: 10.2475/ajs.303.7.622.
Regard, V., Bellier, O., Thomas, J.-C., Abbassi, M. R., Mercier, J., Shabanian, E., Feghhi, K. and Soleymani, S., 2004- Accommodation of Arabia-Eurasia convergence in the Zagros-Makran transfer zone, SE Iran: A transition between collision and subduction through a young deforming system. Tectonics 23, TC4007.doi: 10.1029/2003tc001599.
Rossetti, F., Nozaem, R., Lucci, F., Vignaroli, G., Gerdes, A., Nasrabadi, M. and Theye, T., 2014- Tectonic setting and geochronology of the Cadomian (Ediacaran-Cambrian) magmatism in Central Iran, Kuh-e-Sarhangi region (NW Lut Block): Journal of Asian Earth Sciences, v. 102, p. 24–44. doi: 10.1016/j.jseaes.2014.07.034.
Sengör, A. M. C., 1979- Mid-Mesozoic closure of Permo-Triassic Tethys and its implications. Nature 279, 590–593.doi: 10.1038/279590a0.
Shakerardakani, F., Neubauer, F., Bernroider, A.V.Q., Peytcheva, I., Liu, X., Genser, J., Monfaredi, B. and Masoudi, F., 2017- Geochemical and isotopic evidence for Carboniferous rifting: mafic dykes in the central Sanandaj-Sirjan zone (Dorud-Azna, West Iran), GEOLOGICA CARPATHICA, 68, 3, 229 – 247. 10.1515/geoca-2017-0017.
Shervais, J. W., 1982- Ti–V plots and the petrogenesis of modern and ophiolitic lavas". Earth and Planetary Science Letters 59, 101–118. doi: 10.1016/0012-821x(82)90120-0.
Shinjo, R., Chung, S. L., Kato, Y. and Kimura, M., 1999- Geochemical and Sr–Nd isotopic characteristics of volcanic rocks from the Okinawa Trough and Ryukyu Arc: implications for the evolution of a young, intracontinental back arc basin. J. Geophys. Res. 104 (B5), 10591–10608. doi: 10.1029/1999jb900040.
Sklyarov, E. V., Gladkochub, D. P., Mazukabzov, A. M., Menshagin, Y. V., Watanabe, T. and Pisarevsky, S. A., 2003- Neoproterozoic mafic dike swarms of the Sharyzhalgai metamorphic massif, southern Siberian craton. Precambr. Res. 122, 359–376. doi: 10.1016/s0301-9268(02)00219-x.
Stocklin, J., 1968- Structural history and tectonics of Iran: a review: American Association of Petroleum Geologists Bulletin, v. 52, p. 1229–1258.
Sun, S. S. and McDonough, W. F., 1989- Chemical and isotopic systematics of oceanic basalts: implications for mantle composition andprocesses. In: Saunders A. D. and Norry M. J. (Eds), magmatism in ocean basins. Geological Society of London, Special Publications, 42,313–345.doi: 10.1144/gsl.sp.1989.042.01.19.
Verdel, C., Wernicke, B. P., Hassanzadeh, J. and Guest, B., 2011- A Paleogene extensional arc flare-up in Iran. Tectonics 30, TC3008.doi:1 0.1130/b26102.1.
Verdel, C., Wernicke, B. P., Ramezani, J., Hassanzadeh, J., Renne, P. R. and Spell, T. L., 2007- Geology and thermochronology of Tertiary Cordilleran style metamorphic core complexes in the Saghand region of central Iran. GSA Bull. 119, 961–977. doi:10.1029/2010tc002809.
Vincent, S. J., Morton, A. C., Carter, A., Gibbs, S. and Barabadze, T. G., 2007- Oligocene uplift of the Western Greater Caucasus: an effect of initial Arabia–Eurasia collision. Terra Nova 19, 160–166.doi: 10.1111/j.1365-3121.2007.00731.x.
Weinstein, Y., Navon, O., Altherr, R. and Stein, M., 2006- The role of lithospheric mantle heterogeneity in the generation of Plio-Pleistocene alkali basaltic suites from NW Harrat Ash Shaam (Israel). Journal of Petrology, 47(5), 1017–1050.doi: 10.1093/petrology/egl003.
White, R. S. and Mckenzie, D.P., 1989- Magmatism at rift zones: the generation of volcanic continental margins and flood basalts. Journal of Geophysical Research 94, 7685-7729.doi: 10.1029/jb094ib06p07685.
Wilson, M., 1989- Igneous Petrogenesis, Unwin Hyman London, 466p. ISBN 978-94-010-9388-0.
Winter, J. D., 2001- An Introduction to Igneous and Metamorphic Petrology, Prentice Hall, 697p. ISBN-10: 0132403420
Wood, D. A., 1980- The application of a Th, Hf, Ta diagram to problems of tectonomagmatic classification and to establishing the nature of crustal contamination of basaltic lavas of the British tertiary volcanic province. Earth and Planetary Science Letters, 50, 11–30.doi: 10.1016/0012-821X (80)90116-8.
Yang, J. H., Sun, J. F., Chen, F. K., Wilde, S. and Wu, F. Y., 2007- Sources and petrogenesis of Late Triassic dolerite dikes in the Liaodong peninsula: implications for post–collisional lithosphere thinning of the Eastern North China Craton. J. Petrol. 48 (10), 1973–1997.doi: 10.1093/petrology/egm046.
Zhang, C. L., Li, Z. X., Li, X. H. and Ye, H. M., 2009- Neoproterozoic mafic dyke swarms at the northern margin of the Tarim Block, NW China: age, geochemistry, petrogenesis and tectonic implications. J. Asian Earth Sci. 35, 167–179. doi:10.1016/j.jseaes.2009.02.003.
Zhao, J. H., Hu, R. Z., Zhou, M. F. and Liu, S., 2007- Elemental and Sr–Nd–Pb isotopic geochemistry of Mesozoic mafic intrusions in southern Fujian Province, SE China: implications for lithospheric mantle evolution. Geol. Mag. 144, 937–952. doi: 10.1017/S0016756807003834.
Zheng, Y. F., 2012- Metamorphic chemical geodynamics in continental subduction zones, Chemical Geology, 328, 5–48. doi:10.1016/j.chemgeo.2012.02.005.
Zhu, X., Chen, F., Liu, B., Zhang, H. and Zhai, M., 2015- Geochemistry and zircon ages of mafic dikes in the South Qinling, central China: evidence for late Neoproterozoic continental rifting in the northern Yangtze block, Int J Earth Sci (Geol Rundsch) 104:27–44. doi: 10.1007/s00531-014-1056-z.
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