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[1]罗 勇,李 丹,姜玉航,等.河南南阳独山角闪辉长岩地球化学特征及对独山玉成因的制约[J].地球化学,2015,44(04):402-412.
 LUO Yong,LI Dan,JIANG Yu-hang,et al.Geochemistry of evjite in Dushan (Nanyang, Henan Province): Implication for genesis of Dushan Yu[J].Geochimica,2015,44(04):402-412.



[1] 江富建. 南阳黄山新石器时代玉器的玉质研究[J]. 中国宝玉石, 2007 (5): 106–108.
Jiang Fu-jian. The quality of the jade for the Neolithic from Huangshan in Nanyang [J]. China Gems Jades, 2007 (5): 106–108 (in Chinese).
[2] 李学清. 河南南阳独山之玉石[J]. 地质论评, 1936, 1(1): 55–60.
Li Xue-qing. The stone of Dushan in Nanyang, Henan province [J]. Geol Rev, 1936, 1(1): 55–60 (in Chinese).
[3] 李劲松, 蒋祥明, 钱宽红. 独玉及其矿床特征[J]. 河南地质, 1984 (1): 1–8.
Li Jin-song, Jiang Xiang-ming, Qian Kuan-hong. The ore geology of Dushan Jade [J]. Geol Henan, 1984 (1): 1–8 (in Chinese).
[4] 张建洪, 李朝晖, 汪雪芳. 南阳独山玉的矿物学研究[J].岩石矿物学杂志, 1989, 8(1): 53–64.
Zhang Jian-hong, Li Zhao-hui, Wang Xue-fang. Mineralogical studies of jade from Dushan, Nanyang [J]. Acta Petrol Mineral, 1989, 8(1): 53–64 (in Chinese with English abstract).
[5] 邓燕华, 缪秉魁. 独玉成因及成岩成玉模式[J]. 桂林冶金地质学院学报, 1991, 11(S1): 8–16.
Deng Yan-hua, Miao Bing-kui. The genetic model for rocks and jade and the range of reconnaissance in dushan, Nanyang, Henan [J]. J Gulin Colleg Geol, 1991, 11(S1): 8–16 (in Chinese with English abstract).
[6] 廖宗廷, 赵娟, 周祖翼, 朱静昌. 南阳独山玉矿的成矿构造背景及成因[J]. 同济大学学报(自然科学版), 2000, 28(6):702–706.
Liao Zong-ting, Zhao Juan, Zhou Zu-yi, Zhu Jing-chang. On the tectonic setting and origin of Dushan jade deposit in Nanyang [J]. J Tongji Univ (Nat Sci ed), 2000, 28(6):702–706 (in Chinese with English abstract).
[7] 肖启云. 河南南阳独山玉的宝石学及其成因研究[D]. 北京:中国地质大学, 2007.
Xiao Qi-yun. A study on gemology and genesis of Dushan jade in Nanyang, Henan Province, China [D]. Beijing: China University of Geosciences, 2007 (in Chinese with English abstract).
[8] 肖启云, 蔡克勤, 江富建. 河南南阳独山玉矿物碎裂成玉过程研究[J]. 地球学报, 2009, 30(5): 607–615.
Xiao Qi-yun, Cai Ke-qin, Jiang Fu-jian. Tentative discussion on the mineral cataclasis jade-forming process of Dushan Jade in Nanyang City, Henan Province [J]. Acta Geosci Sinica, 2009, 30(5): 607–615 (in Chinese with English abstract).
[9] 刘少峰, 王平, 胡明卿, 郜瑭郡, 王凯. 中、上扬子北部盆-山系统演化与动力学机制[J]. 地学前缘, 2010, 17(3):14–26.
Liu Shao-feng, Wang Ping, Hu Ming-qing, Gao Tang-jun,Wang Kai. Evolution and geodynamic mechanism of basin-mountain systems in the north-ern margin of the Middle-Upper Yangtze [J]. Earth Sci Front, 2010, 17(3): 14–26(in Chinese with English abstract).
[10] 杨东晓. 南阳独山玉矿床地质特征及成因探讨[J]. 中国非金属矿工业导刊, 2012, 94(1): 38–42.
Yang Dong-xiao. Discussion on the geological characteristics and genesis of Dushan chalchiguite deposit in Nanyang [J].China Non-Metall Mineral Ind, 2012, 94(1): 38–42 (in Chinese with English abstract).
[11] Li X H, Liu Y, Li Q L, Guo C H. Precise determination of Phanerozoic zircon Pb/Pb age by multicollector SIMS without external standardization [J]. Geochem Geophys Geosyst, 2009, 10(4): 1525–2027.
[12] 李献华, 刘颖, 涂湘林, 胡光黔, 曾文. 硅酸盐岩石化学组成的ICP-AES 和ICP-MS 准确测定: 酸溶与碱溶分解样品方法的对比[J]. 地球化学, 2002, 31(3): 289–294.
Li Xian-hua, Liu Ying, Tu Xiang-lin, Hu Guang-qian, Zeng Wen. Precise determination of chemical compositions in silicate rocks using ICP-AES and ICP-MS: A comparative study of sample digestion techniques of alkali fusion and acid dissolution [J]. Geochimica, 2002, 31(3): 289–294 (in Chinese with English abstract).
[13] 刘颖, 刘海臣, 李献华. 用ICP-MS 准确测量岩石样品中的40 余种微量元素[J]. 地球化学, 1996, 25(6): 552–558.
Liu Ying, Liu Hai-chen, Li Xian-hua. Simulataneous and precise determination of 40 trace elements in rock samples using ICP-MS [J]. Geochimica, 1996, 25(6): 552–558 (in Chinese with English abstract).
[14] Wilson M. Igneous Petrogenesis: A Global Tectonic Approach [M]. London: Chapman, 2007: 1–466.
[15] Peccerillo A, Taylor S R. Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area, northern Turkey [J]. Contrib Mineral Petrol, 1976, 58(1): 63–81.
[16] Sun S-s, McDonough W F. Chemical and isotopic systematics of oceanic basalts: Implications for mantle composition and processes [M]//Saunders A D, Norry M J. Magmatism in the Ocean Basins. Geological Society, London, Special Publications, 1989, 42(1): 313–345.
[17] Altherr R, Topuz G, Siebel W, ?en C, Meyer H P, Satír M, Lahaye Y. Geochemical and Sr-Nd-Pb isotopic characteristics of Paleocene plagioleucitites from the eastern Pontides (NE Turkey) [J]. Lithos, 2008, 105(1/2): 149–161.
[18] Boari E, Avanzinelli R, Melluso L, Giordano G, Mattei M, De Benedetti A A, Morra V, Conticelli S. Isotope geochemistry (Sr-Nd-Pb) and petrogenesis of leucite-bearing volcanic rocks from “Colli Albani” volcano, Roman Magmatic Province, Central Italy: Inferences on volcano evolution and magma genesis [J]. Bull Volcanol, 2009, 71(9): 977–1005.
[19] Foley S F, Venturelli G, Green D H, Toscani L. The ultrapotassic rocks: Characteristics, classification, and constraints for petrogenetic models [J]. Earth Sci Rev, 1987, 24(2): 81–134.
[20] 周长勇, 吴福元, 葛文春, 孙德有, Rahman A A, 张吉衡,程瑞玉. 大兴安岭北部塔河堆晶辉长岩体的形成时代、地球化学特征及其成因[J]. 岩石学报, 2005, 21(3): 763–775.
Zhou Chang-yong, Wu Fu-yuan, Ge Wen-chun, Sun De-you, Rahman A A, Zhang Ji-heng, Cheng Rui-yu. Age, geochemistry and petrogenesis of the cumulate gabbro in Tahe, north ern Da Hinggan Mountain [J]. Acta Petrol Sinica, 2005, 21(3):763–775 (in Chinese with English abstract).
[21] Winchester J A, Floyd P A. Geochemical discrimination of different magma series and their differentiation products using immobile elements [J]. Chem Geol, 1977, 20: 325–343.
[22] Rollinson H R. Using Geochemical Data: Evaluation Presentation Interpretation [M]. London: Longman Group, 1993: 1–352.
[23] Hawkesworth C J, Turner S P, McDermott F, Peate D W, van Calsteren P. U-Th isotopes in arc magmas: Implications for element transfer from the subducted crust [J]. Science, 1997, 276(5312): 551–555.
[24] Polat A, Kerrich R, Wyman D A. Geochemical diversity in oceanic komatiites and basalts from the late Archean Wawa greenstone belts, Superior Province, Canada: Trace element and Nd isotope evidence for a heterogeneous mantle [J]. Precamb Res, 1999, 94(3/4): 139–173.
[25] Polat A, Hofmann A W, Rosing M T. Boninite-like volcanic rocks in the 3.7–3.8 Ga Isua greenstone belt, West Greenland: Geochemical evidence for intraoceanic subduction zone processes in the early Earth [J]. Chem Geol, 2002, 184(3/4): 231–254.
[26] Sun W D, Hu Y H, Kamenetsky V S, Eggins S M, Chen M, Arculus R J. Constancy of Nb/U in the mantle revisited [J]. Geochim Cosmochim Acta, 2008, 72(14): 3542–3549.
[27] Whitechurcha H, Omranib J, Agardc P, Humberta F, Montignya R, Jolivetd L. Evidence for Paleocene-Eocene evolution of the foot of the Eurasian margin (Kermanshah ophiolite, SW Iran) from back-arc to arc: Implications for regional geodynamics and obduction [J]. Lithos, 2013, 182–183: 11–32.
[28] Peng P, Zhai M G, Guo J H, Kusky T, Zhao T P. Nature of mantle source contributions and crystal differentiation in the petrogenesis of the 1.78 Ga mafic dykes in the central North China craton [J]. Gondw Res, 2007, 12(1/2): 29–46.
[29] Jiang Y H, Jiang S Y, Dai B Z, Liao S Y, Zhao K D, Ling H F. Middle to late Jurassic felsic and mafic magmatism in southern Hunan province, southeast China: Implications for a continental arc to rifting [J]. Lithos, 2009, 107(3): 185–204.
[30] Keskin M. Domal uplift and volcanism in a collision zone without a mantle plume: Evidence from eastern Anatolia [EB/OL].(2005-06-20). http://www.mantleplumes.org/Anatolia.html.
[31] Hoffer G, Eissen J P, Beate B, bourdon E, Fornari M, Cotton J. Geochemical and petrological constraints on rear-arc magma genesis processes in Ecuador: The Puyo cones and Mera lavas volcanic formations [J]. J Volcanol Geotherm Res, 2008, 176(1): 107–118.
[32] Genc S C, Tuysuz O. Tectonic setting of the Jurassic bimodal magmatism in the Sakarya Zone (Central and Western Pontides), Northern Turkey: A geochemical and isotopic approach [J]. Lithos, 2010, 118(1/2): 95–111.
[33] Cirrincione R, Fiannacca P, Lustrino M, Romano V, Tranchina A. Late Triassic tholeiitic magmatism in Western Sicily: A possible extension of the Central Atlantic Magmatic Province (CAMP) in the Central Mediterranean area? [J]. Lithos, 2014, 188: 60–71.
[34] Condomines M, Hemond C, Allègre C J. U-Th-Ra radioactive disequilibria and magmatic processes [J]. Earth Planet Sci Lett, 1988, 90(3): 243–262.
[35] Hawkesworth C J, Gallagher K, Hergt J M, Mcdermott F. Mantle and slab contributions in arc magmas [J]. Ann Rev Earth Planet Sci, 1993, 21: 175–204.
[36] Johnson M C, Plank T. Dehydration and melting experiments constrain the fate of subducted sediments [J]. Geochem Geophys Geosyst, 2000, 1(12): 1007.
[37] Plank T. Constraints from thorium/lanthanum on sediment recycling at subduction zones and the evolution of the continents [J]. J Petrol, 2005, 46(5): 921–944.
[38] Labanieh S, Chauvel C, Germa A, Quidelleur X. Martinique: A clear case for sediment melting and slab dehydration as a function of distance to the trench [J]. J Petrol, 2012, 53(12): 2441–2464.
[39] Woodhead J D, Eggins S M, Johnson R W. Magma genesis in the New Britain Island Arc: Further insights into melting and mass transfer processes [J]. J Petrol, 1998, 39(9): 1641–1668.
[40] Munteanu M, Wilson A, Yao Y, Harris C, Chunnett G, Luo Y. The Tongde dioritic pluton (Sichuan, SW China) and its geotectonic setting: Regional implications of a local-scale study [J]. Gondw Res, 2010, 18(2/3): 455–465.
[41] Ma L, Wang Q, Wyman D A, Jiang Z Q, Yang J H, Li Q L,Gou G N, Guo H F. Late Cretaceous crustal growth in the Gangdese area, southern Tibet: Petrological and Sr-Nd-Hf-O isotopic evidence from Zhengga diorite-gabbro [J]. Chem Geol, 2013, 349–350: 54–70.
[42] 闫全人, 王宗起, 向忠金, 闫臻, 王涛, 张宏远, 陈隽璐,覃小锋. 秦岭洋及其演化过程刍议[C]//2014 年中国地球科学联合学术年会——专题46: 中央造山带构造演化与成矿论文集. 2014, 4: 2248–2251.
Yan Quan-ren, Wang Zong-qi, Xiang Zhong-jin, Yan Zhen, Wang Tao, Zhang Hong-yuan, Chen Jun-lu, Qin Xiao-feng.The evolution of Qinlin Ocean [C]//2014 Chinese Earth Science International Conference — Topic 46: Set of Tectonic Evolution and Mineralization of the Central Orogenic Belt.2014, 4: 2248–2251 (in Chinese).
[43] Ratschbacher L, Franz L, Enkelmann E, Jonckheere R, P?rschke A, Hacker B R, Dong S, Zhang Y. The Sino-Korean-Yangtze suture, the Huwan detachment, and the Paleozoic-Tertiary exhumation of (ultra) high-pressure rocks along the Tongbai-Xinxian-Dabie Mountains [C]//Hacker B R,Mcclelland W C, Liou J G. Ultrahigh-Pressure Metamorphism: Deep Continental Subduction. Geological Society of America Special Paper, 2006, 403: 45–75.
[44] Ames L, Tilton G R, Zhou G Z. Timing of collision of the Sino-Korean and Yangtze cratons: U-Pb zircon dating of coesite bearing eclogites [J]. Geology, 1993, 21(4): 339–342.
[45] Hacker B R, Ratschbacher L, Webb L, Ireland T, Walker D, Dong S. U-Pb zircon ages constrain the architecture of the ultrahigh pressure Qinling-Dabie Orogen, China [J]. Earth Planet Sci Lett, 1998, 161(1–4): 215–230.
[46] Liu X C, Jahn B M, Dong S W, Lou Y X, Cui J J.High-pressure metamorphic rocks from Tongbaishan, central China: U-Pb and 40Ar/39Ar age constraints on the provenance of protoliths and timing of metamorphism [J]. Lithos, 2008, 105(1–3): 301–318.
[47] 王浩. 东秦岭-桐柏造山带新元古代-早古生代不同阶段演化的变质和岩浆作用[D]. 武汉: 中国地质大学, 2014.
Wang Hao. Neoproterozoic-Early Paleozoic metamorphism and magmatism during the multistage evolution of the eastern Qinling-Tongbai Orogenic Belt [D]. Wuhan: China University of Geosciences, 2014 (in Chinese with English abstract).


 MAO Gui-peng,WEI Gang-jian*,MA Jin-long,et al.Mobilization and re-distribution of major and trace elements during the process of moderate weathering of carbonates in northern Guangdong, South China[J].Geochimica,2017,46(04):33.
 ZHAO Zhan-lun,WEN Xiao-hao*,LI Bao-sheng,et al.The characteristics of major elemental oxides and paleoclimate changes recorded by the major elements of the last deglaciation segment of the Tumen section on the southern edge of the Tengger Desert[J].Geochimica,2016,45(04):623.
[3]罗 勇,单 强*,曾乔松,等.阿吾拉勒山西段下二叠统钾质基性火山岩的地球化学特征[J].地球化学,2013,42(06):544.
 LUO Yong,SHAN Qiang*,ZENG Qiao-song,et al.Geochemistry of Permian potassic mafic volcanic rocks in western Awulale Mountains[J].Geochimica,2013,42(04):544.
[4]尹 锋*,陈 鸣.湘江入湖河段沉积物主元素组成对重金属污染的指示[J].地球化学,2012,41(06):545.
 BAO Zhi-cheng,PENG Bo*,XU Jing-zhe,et al.Geochemical study on the relation of chemical compositions to heavy metal contamination of sediments from the lowermost Xiangjiang River, Hunan Province, China[J].Geochimica,2012,41(04):545.


收稿日期(Received): 2015-03-27; 改回日期(Revised): 2015-05-04; 接受日期(Accepted): 2015-05-14
基金项目: 国家自然科学基金(41402068, 41301443); 河南省高等学校重点科研项目(15A170004); 南阳师范学院高层次人才科研启动项目(ZX201300970337); 南阳师范学院教学研究项目(2014-14)
作者简介: 罗勇(1983–), 男, 讲师, 主要从事岩石地球化学研究。E-mail: yongluo_geo@163.com
* 通讯作者(Corresponding author): SHAN Qiang, E-mail: qshan@gig.ac.cn, Tel: +86-20-85290243

更新日期/Last Update: 2015-07-30