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姓名 兰中伍 性别:
职称 副研究员 学位 博士
电话 010-82998485 传真: 010-62010846
Email: lzw1981@126.com 邮编: 100029
地址 北京市朝阳区北土城西路19号,中科院地质与地球物理研究所
更多信息:

English岩石圈演化国家重点实验室 化学地球动力学学科组
 
简历:

  兰中伍,副研究员,硕士生导师。1981年6月出生于吉林省长春市,地质学专业。2004年毕业于中国地质大学(北京)获地质学学士学位,2007年毕业于中国科学院地质与地球物理研究所获地球化学硕士学位,2011年毕业于西澳大利亚大学获地质学博士学位。2011至2013年在中国科学院地质与地球物理研究所开展博士后研究,2014起任副研究员。曾在澳大利亚国立大学,东京大学和印度比巴尔萨赫勒古生物研究所等高校和研究机构进行学术交流和访问。

学术期刊服务:
Geological Journal执行编辑,2020-2022;
Earth-Science Reviews客座编辑,2022-2023;
Precambrian Research客座编辑,2021-2022;
《地球科学》双刊副主编,2022-现在;
《地质科学》第一届青年编委会编委,2022-现在;
《沉积学报》第一届青年编委会编委,2019-现在。

主要学术成就:
  本人以地质学和地球化学为切入窗口,对前寒武纪重大地质事件、生物事件和环境事件进行了详细研究,取得了以下阶段性重要研究成果:
(1)“雪球地球”假说研究。通过夹层火山灰定年,把成冰系底界年龄限定在了ca. 720 Ma 并写入了新版国际地层年表,为雪球地球假说提供了关键年代学证据。提出南秦岭岩浆作用(641-635 Ma)促使Marinoan冰期提前2-5 Myr终结。Sturtian冰期(720-660 Ma)相对于Marinoan冰期持续时间较长,是由于缺少同冰期大规模火山活动的结果。提出小行星撞击造成了Sturtian冰期冰川的短暂融化(ca. 690-670 Ma)。把埃迪卡拉纪盖帽碳酸盐岩内方解石填充物的沉积时代限定在了ca. 636 Ma,证实了甲烷水合物释放促进了马力诺冰期的终结。
(2)自生磷酸盐矿物限定沉积时代。通过成岩磷钇矿年代学研究,重新厘定了华北地台南缘地层的沉积时代,把大型复杂单细胞真核生物的起源和演化推到了中元古代以前(ca. 1400 Ma)。通过自生独居石年代学研究,把淮南生物群的产出时代限定在ca. 1086 Ma,证实了冠群真核生物在1.0 Ga以前就已经高度演化分异了。通过磷灰石年代学和矿物化学研究,提出前人从加拿大努瓦吉图克地区报道的>3.7 Ga的微体化石可能于2.5 Ga的热液环境下,通过化学反应扩散机制形成,进而否定了其生物成因。
(3)碳酸盐岩定年限定沉积时代。通过方解石年代学研究,从华北地台东南缘淮北群内识别出了中-新元古代的界线,年龄ca. 1010 Ma。通过对塔里木盆地寒武纪白云岩内的方解石填充物定年,限定其形成时代为ca. 290 Ma,证实和塔里木大火成岩省岩浆热液事件有成因上的联系。
截至目前为止,共发表论文57篇,其中第一作者/通讯作者国际SCI论文33篇,主要发表在Earth and Planetary Science Letters, Geophysical Research Letters和Earth-Science Reviews等国际地学期刊上。主持国家自然科学基金面上项目3项、中国博士后科学基金1项。

学习经历:
2000.09-2004.07 中国地质大学(北京),地质学专业,学士学位
2004.09-2007.07 中国科学院地质与地球物理研究所,地球化学专业,硕士学位
2007.09-2011.07 西澳大利亚大学,地质学专业,博士学位

工作经历:
2011.09-2013.12 中国科学院地质与地球物理研究所,博士后
2014.01-至今 中国科学院地质与地球物理研究所,副研究员

国际交流访问:
2015.06-2015.07 澳大利亚国立大学,访问学者
2015.11-2017.11 东京大学,访问学者
2017.12-2018.01 印度比巴尔萨赫勒古生物研究所,访问学者
2019.08-2020.07 英国地质调查局,访问学者
 
学科类别:
地质学
 
研究方向:

前寒武纪地质学;同位素年代学和地球化学
 
职务:
 
社会任职:
 
承担科研项目情况:

主持项目:

  1. 国家自然科学基金面上项目(华南江口冰期沉积年代的厘定:成岩磷钇矿 U-Pb 年龄证据,2013/01-2016/12)
  2. 国家自然科学基金面上项目(华南埃迪卡拉系年代地层学,2017/01-2020/12)
  3. 国家自然科学基金面上项目(华北克拉通东南缘徐淮群/淮南群年代地层学,2023/01-2026/12)

参与项目:

  1. 国家自然科学基金重大项目(大陆地壳演化与早期板块构造,2019/01-2023/12)
  2. 国家重点基础研究发展计划(973计划)(新元古代-古生代高精度地质年代学,2013/08-2017/11)
 
获奖及荣誉:
  1. 国家留学基金委员会(CSC)奖学金(2007年)
  2. 日本学术振兴会(JSPS)外国人特别研究员(2015)
 
代表论著:

代表论著(第一作者/通讯作者)

  1. Lan, Z.W., Wu, S.T., Wang, F.Y., Liu, B., Shi, K.B., Sun, J., Cao, R., Li, X.H., 2023. A ca. 290 Ma hydrothermal calcite in Cambrian dolostone. Marine and Petroleum Geology, 147, 106011.
  2. Lan, Z.W., Zhang, G.Y., Cao, R., Li, F., Cao, H.W., Zou, H., 2023. Apatite U-Pb geochronological and geochemical constraints on the Mazhala Au-Sb deposit in South Tibet, China. Ore Geology Reviews, 158, 105503.
  3. Cao, R., Zhao, H.Q., Lan, Z.W.*, 2023. Calcite U-Pb Geochronology Revealing Late Ediacaran–Early Paleozoic Hydrothermal Alteration in the Stenian-Tonian Carbonate of Northeastern North China Craton. Journal of Earth Science, DOI: 10.1007/s12583-023-1859-6, 1–8.
  4. Lan, Z.W., 2022. Authigenic monazite and xenotime Pb-Pb/U-Pb dating of siliciclastic sedimentary rocks. Earth-Science Reviews, 234, 104217.
  5. Lan, Z.W., Mitchell, R.N., Gernon, T.M., Nordsvan, A.R., 2022. Did an asteroid impact cause temporary warming during snowball Earth? Earth and Planetary Science Letters, 581, 117407.
  6. Lan, Z.W., Huyskens, M.H., Le Hir, G., Mitchell, R.N., Yin, Q.Z., Zhang, G.Y., Li, X.H., 2022. Massive volcanism may have foreshortened the Marinoan snowball Earth. Geophysical Research Letters, 49, e2021GL097156.
  7. Lan, Z.W., 2022. WANCE: A possibly volcanism-induced Ediacaran carbon isotope excursion. Journal of Earth Science, 33, 778–788.
  8. Lan, Z.W., Wu, S.T., Roberts, N.M.W., Zhang, S.J., Cao, R., Wang, H., Yang, Y.H., 2022. Geochronological and geochemical constraints on the origin of highly 13Ccarb-depleted calcite in basal Ediacaran cap carbonate. Geological Magazine, 159, 1323–1334. 
  9. Lan, Z.W., Roberts, N.M.W., Zhou, Y., Zhang, S.J., Li, Z.S., Zhao, T.P., 2022. Application of in situ U-Pb carbonate geochronology to Stenian-Tonian successions of North China. Precambrian Research, 370, 106551.
  10. Lan, Z.W., Kamo, S.L., Roberts, N.M.W., Sano, Y., Li, X.H., 2022. A Neoarchean (ca. 2500 Ma) age for jaspilite-carbonate BIF hosting purported micro-fossils from the Eoarchean (≥3750 Ma) Nuvvuagittuq supracrustal belt (Québec, Canada). Precambrian Research, 377, 106728.
  11. Zhang, S.J., Cao, R., Lan, Z.W.*, Li, Z.S., Zhao, Z.Y., Wan, B., Guan, C.G., Yuan, X.L., 2022. SIMS Pb-Pb dating of phosphates in the Proterozoic strata of SE North China Craton: Constraints on eukaryote evolution. Precambrian Research, 371, 106562.
  12. Lan, Z.W., Zhang, S.J., Chen, Z.Q., Mitchell, R.N., 2021. Locomotion and feeding trails produced by crabs. Geological Journal, 10.1002/gj.4190.
  13. Lan, Z.W., Pandey, S.K., Zhang, S.J., Sharma, M., Gao, Y.Y., Wu, S.T., 2021. Precambrian crustal evolution in Northern Indian Block: Evidence from detrital zircon U-Pb ages and Hf-isotopes. Precambrian Research, 361, 106238.
  14. Lan, Z.W., Zhang, S.J., Li, X.H., Pandey, S.K., Sharma, M., Shukla, Y., Ahmad, S., Sarkar, S., Zhai, M.G., 2020. Towards resolving the ‘jigsaw puzzle’ and age-fossil inconsistency within East Gondwana. Precambrian Research, 345, 105775.
  15. Lan, Z.W., Zhang, S.J., Tucker, M., Li, Z.S., Zhao, Z.Y., 2020. Evidence for microbes in early Neoproterozoic stromatolites. Sedimentary Geology, 398, 105589.
  16. Lan, Z.W., Huyskens, M.H., Lu, K., Li, X.H., Zhang, G.Y., Lu, D.B., Yin, Q.Z., 2020. Towards refining the onset age of Sturtian glaciation in South China. Precambrian Research, 338, 105555.
  17. Lan, Z.W., Sano, Y., Yahagi, T., Tanaka, T., Shirai, T., Papineau, D., Sawaki, Y., Ohno, T., Abe, M., Yang, H.W., Liu, H., Jiang, T., Wang, T., 2019. An integrated chemostratigraphic (δ13C-δ18O-87Sr/86Sr-δ15N) study of the Doushantuo Formation in western Hubei Province, South China. Precambrian Research, 320, 232–252.
  18. Lan, Z.W., Li, X.H., Sano, Y., Takahata, N., Kagoshima, T., Zhang, S.J., Zhang, G.Y., Liao, X., Tang, X., Gu, L.X., Mao, Q., 2019. Two kinds of authigenic xenotime overgrowths in response to an Early Paleozoic tectonothermal event in South China. Journal of Asian Earth Sciences, 172, 423–442.
  19. Lan, Z.W., Li, X.H., Chu, X.L., Tang, G.Q., Yang, S.H., Liu, H., Jiang, T., 2017. SIMS U-Pb zircon ages and Ni-Mo-PGE geochemistry of the Lower Cambrian Niutitang Formation in South China: Constraints on Ni-Mo-PGE mineralization and stratigraphic correlations. Journal of Asian Earth Sciences, 137, 141–162.
  20. Gao, Y.M., Lan, Z.W.*, Chen, Y.C., Tang, J.X., 2017. Geochronological and geochemical constraints on the origin of Yaguila Cretaceous and Palaeogene ore-bearing quartz porphyries, Central Lhasa Terrane, Tibet. Geological Journal, 52, 45–66.
  21. Lan, Z.W., Li, X.H., Zhu, M.Y., Zhang, Q.R., Li, Q.L., 2015. Revisiting the Liantuo Formation in Yangtze Block, South China: SIMSU–Pb zircon age constraints and regional and global significance. Precambrian Research, 263, 123–141.
  22. Lan, Z.W., Li, X.H., Zhang, Q.R., Li, Q.L., 2015. Global synchronous initiation of the 2nd episode of Sturtian glaciation: SIMS zircon U–Pb and O isotope evidence from the Jiangkou Group, South China. Precambrian Research, 267, 28–38.
  23. Lan, Z.W., 2015. Paleoproterozoic microbially induced sedimentary structures from lagoonal depositional settings in northern China. Sedimentary Geology, 328, 87–95.
  24. Lan, Z.W., Li, X.H., Zhu, M.Y., Chen, Z.Q., Zhang, Q.R., Li, Q.L., Lu, D.B., Liu, Y., Tang, G.Q., 2014. A rapid and synchronous initiation of the wide spread Cryogenian glaciations. Precambrian Research, 255, 401–411.
  25. Lan, Z.W., Li, X.H., Chen, Z.Q., Li, Q.L., Hofmann, A., Zhang, Y.B., Zhong, Y., Liu, Y., Tang, G.Q., Ling, X.X., Li, J., 2014. Diagenetic xenotime age constraints on the Sanjiaotang Formation, Luoyu Group, southern margin of the North China Craton: Implications for regional stratigraphic correlation and early evolution of eukaryotes. Precambrian Research, 251, 21–32.
  26. Lan, Z.W., Chen, Z.Q., Kaiho, K., Li, X.H., 2013. Microbially induced sedimentary structures from the Mesoproterozoic Huangqikou Formation, Helan Mountain Region, northern China. Precambrian Research, 233, 73–92.
  27. Lan, Z.W., Chen, Z.Q., 2013. Proliferation of MISS-forming microbial mats after the late Neoproterozoic glaciations: Evidence from the Kimberley region, NW Australia. Precambrian Research, 224, 529–550.
  28. Lan, Z.W., Chen, Z.Q., Li, X.H., Li, B., Adams, D., 2013. Hydrothermal origin of the Paleoproterozoic xenotimes from the King Leopold Sandstone of the Kimberley Group, Kimberley, NW Australia: Implications for a ca 1.7 Ga far-field hydrothermal event. Australian Journal of Earth Sciences, 60, 497–508.
  29. Lan, Z.W., Chen, Z.Q., 2012. Exceptionally preserved microbially induced sedimentary structures from the Ediacaran post-glacial successions in the Kimberley region, northwestern Australia. Precambrian Research, 200-203, 1–25.
  30. Lan, Z.W., Chen, Z.Q., 2012. Possible animal body fossils from the Late Neoproterozoic interglacial successions in the Kimberley region, northwestern Australia. Gondwana Research, 21, 293–301.
  31. Lan, Z.W., Chen, Z.Q., 2012. Megaripples from the Mesoproterozoic of the Kimberley region, northwestern Australia and its geological implications. Journal of Palaeogeography, 1, 15–25.
  32. Lan, Z.W., Chen, Z.Q., 2012. New xenotime ages obtained from the Paleoproterozoic Kimberley Group, northwestern Australia: Implications for regional hydrothermal events. Australian Journal of Earth Sciences, 59, 119–133.
  33. Lan, Z.W., Chen, Z.Q., 2012. SEM and NanoSIMS observations of bacteria-like nannoball structures recorded in the oncoids from the Ediacaran Boonall Dolomite in Kimberley, Northwest Australia: testing their biogenicity. Carbonates and Evaporates, 26, 1–9.
  34. Lan, Z.W., Chen, Z.Q., 2010. Paleodictyon from a nearshore paleoenvironmental setting in the Guadalupian (Middle Permian) of the Carnarvon Basin, Western Australia. Australian Journal of Earth Sciences, 57, 453–467.
  35. Lan, Z.W., Chen, Y.L., Su, B.X., Liu, F., Zhang, H.F., 2006. The origin of sandstones from the Songpan-Ganze Basin, Sichuan, China: Evidence from SHRIMP U-Pb dating of detrital zircons. Acta Sedimentologica Sinica, 24, 321–332 (in Chinese with English Abstract).

代表论著(合作者和其它)

  1. Huang, C.C., Zou, H., Chen, H.F., Pirajno, F., Lan, Z.W., Yu, H.D., Xiao, B., Liu, C.M., Wu, J.H., Zhong, Y.J., Hou, M.C., 2023. The last Neoproterozoic rift magmatism on the western margin of Yangtze block, South China: New insights of Marinoan onset from low-δ18O magmatic events. Precambrian Research, 390, 107037.
  2. Li, F., Zhang, G.Y., Deng, Z., Zhang, J.F., Qin, Z.P., Chen, X., Lan, Z.W., 2023. Mineralization process of the Mazhala Au–Sb deposit, South Tibet: Constraints from fluid inclusions, H-O-S isotopes, and trace elements. Ore Geology Reviews, 160, 105595.
  3. Li, Z.S., Ma, X.T., An, W., Mitchell, R.N., Li, Q.Z., Lan, Z.W., Dong, Y.X., Zhang, Y., Li, J.X., 2023. Provenance transition of the Mesoproterozoic–Neoproterozoic Xuhuai Basin: Constraining the accretion of the Northern Qinling Terrane with the North China Craton. Journal of Asian Earth Sciences, 251, 105675.
  4. Wu, S.T., Wang, H., Yang, Y.H., Niu, J.L., Lan, Z.W., Zhang, L.L., Huang, C., Xie, L.W., Xu, L., Yang, J.H., Wu, F.Y., 2023. In situ Lu-Hf geochronology with LA-ICP-MS/MS. Journal of Analytical Atomic Spectrometry, doi: https://doi.org/10.1039/D2JA00407K.
  5. Wu, S.T., Yang, Y.H., Roberts, N.M.W., Yang, M., Wang, H., Lan, Z.W., Xie, B.H., Li, T.Y., Xu, L., Huang, C., Xie, L.W., Yang, J.H., Wu, F.Y., 2022. In situ calcite U-Pb geochronology by high-sensitivity single-collector LA-SF-ICP-MS. Science China Earth Sciences, doi: 10.1007/s11430-021-9907-1.
  6. Wang, Y.N., Shi, X., Li, X.B., Li, N., Lan, Z.W., 2022. Thought of Individualized Teaching in Ideological Education in Curriculum of Geology: Pluralistic Integration of Ideological and Political Elements in Paleontology. Chinese Geological Education, 31, 63–66 (in Chinese).
  7. Zou, H., Li, Y., Huang, C.C., Said, N., Jiang, X.W., Liu, H., Li, M., Chen, H.F., Liu, C.M., Lan, Z.W., 2022. Ca. 815 Ma intra-plate granitoids and mafic dykes from Emeishan pluton in the western Yangtze Block, SW China: A record of rifting during the breakup of Rodinia. Precambrian Research, 371, 106569.
  8. Feng, X.Q., Chen, Z.Q., Zhao, L.S., Lan, Z.W., 2021. Middle Permian trace fossil assemblages from the Carnarvon Basin of Western Australia: Implications for the evolution of ichnofaunas in wave-dominated siliciclastic shoreface settings across the Permian-Triassic boundary. Global and Planetary Change, 197, DOI: 10.1016/j.gloplacha.2020.103392.
  9. Zhou, Y.Y., Zhao, T.P., Sun, Q.Y., Zhai, M.G., Lan, Z.W., Hofmann, A., 2018. Petrogenesis of the Neoarchean diorite-granite association in the Wangwushan area, southern North China Craton: Implications for continental crust evolution. Precambrian Research, 326, 84–104.
  10. Cai, J.J., Cui, X.Z., Lan, Z.W., Wang, J., Jiang, Z.F., Deng, Q., Zhuo, J.W., Chen, F.L., Jiang, X.S., 2018. Onset time and global correlation of the Cryogenian glaciations in Yangtze Block, South China. Journal of Palaeogeography, 20, 65–86 (in Chinese with English Abstract).
  11. Zhou, C.M., Li, X.H., Xiao, S.H., Lan, Z.W., Ouyang, Q., Guan, C.G., Chen, Z., 2017. A new SIMS zircon U-Pb date from the Ediacaran Doushantuo Formation: Age constraint on the Weng’an biota. Geological Magazine, 154, 1193–1201.
  12. Zhang, Q.R., Lan, Z.W., 2016. An update on the chronostratigraphy of the Nanhuan System. Journal of Stratigraphy, 40, 297–301.
  13. Liu, P.J., Li, X.H., Chen, S.M., Lan, Z.W., Yang, B., Shang, X.D., 2015. New SIMS U–Pb zircon age and its constraint on the beginning of the Nantuo glaciation. Chinese Science Bulletin, 60, 958–963.
  14. Yang, C., Li, X.H., Wang, X.C., Lan, Z.W., 2015. Mid-Neoproterozoic angular unconformity in the Yangtze Block revisited: Insights from detrital zircon U–Pb age and Hf–O isotopes. Precambrian Research, 266, 165–178.
  15. Zhang, Y.B., Li, Q.L., Lan, Z.W., Wu, F.Y., Li, X.H., Yang, J.H., Zhai, M.G., 2015. Diagenetic xenotime dating to constrain the initial depositional time of the Yan-Liao Rift. Precambrian Research, 271, 20–32.
  16. Zhou, Y.Y., Zhao, T.P., Zhai, M.G., Gao, J.F., Lan, Z.W., Sun, Q.Y., 2015. Petrogenesis of the 2.1 Ga Lushan garnet-bearing quartz monzonite on the southern margin of the North China Craton and its tectonic implications. Precambrian Research, 256, 241–255.
  17. Zhou, Y.Y., Zhai, M.G., Zhao, T.P., Lan, Z.W., Sun, Q.Y., 2014. Geochronological and geochemical constraints on the petrogenesis of the early Paleoproterozoic potassic granite in the Lushan area, southern margin of the North China Craton. Journal of Asian Earth Sciences, 94, 190–204.
  18. Li, Q.L., Li, X.H., Lan, Z.W., Guo, C.L., Yang, Y.N., Liu, Y., Tang, G.Q., 2013. Monazite and xenotime U-Th-Pb geochronology by ion microprobe: Dating highly fractionated granites at Xihuashan tungsten mine, SE China. Contributions to Mineralogy and Petrology, 166, 65–80.
  19. Ye, H.M., Li, X.H., Lan, Z.W., 2013. Geochemical and Sr-Nd-Hf-O-C isotopic constraints on the origin of the Neoproterozoic Qieganbulake ultramafic-carbonate complex from the Tarim Block, Northwest China. Lithos, 182-183, 150–164.
  20. Liu, F., Chen, Y.L., Su, B.X., Lan, Z.W., Jiang, L.T., 2006. Geochemistry and zircon ages of Triassic detrital sedimentary rocks from the Ganze-Songpan block. Acta Geoscientica Sinica, 27, 289–296 (in Chinese with English Abstract).
  21. Su, B.X., Chen, Y.L., Liu, F., Wang, Q.Y., Zhang, H.F., Lan, Z.W., 2006. Geochemical characteristics and significance of Triassic sandstones of Songpan-Ganze block. Acta Petrologica Sinica, 22, 961–970 (in Chinese with English Abstract).
  22. Su, B.X., Chen, Y.L., Lan, Z.W., Liu, F., Zhang, H.F., 2005. The Permian-Triassic sedimentary geochemical study of the Songpan-Ganze block. Acta Sedimentologica Sinica, 23, 487–497 (in Chinese with English Abstract).
 

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