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  • 姓名: 卢静
  • 性别: 女
  • 职称: 研究员
  • 职务: 
  • 学历: 博士
  • 电话: 
  • 传真: 
  • 电子邮件: lujing@ivpp.ac.cn
  • 通讯地址: 北京市西城区西直门外大街142号
    简  历:

  • 教育经历 

    2011.1 中国科学院古脊椎动物与古人类研究所 博士 

    2007.1 中国科学院古脊椎动物与古人类研究所 硕士 

    2002.7 四川师范学院 生物系 学士 

      

    研究工作经历 

    2021.12-今    中国科学院古脊椎动物与古人类研究所 研究员 

    2016.12-2021.12中国科学院古脊椎动物与古人类研究所 副研究员 

    2011.1-2016.11 中国科学院古脊椎动物与古人类研究所 助理研究员 

    2016.6-2017.6  The Australian National University,博士后 

      

     

    社会任职:
  •  
    研究方向:

  • 硬骨鱼类关键特征演化;硬骨鱼类起源与早期演化;肉鳍鱼类起源与早期辐射;四足动物起源;三维重建与渲染可视化研究。

    研究内容: 

    主要利用高精度CT、同步辐射相衬成像和计算机三维重建、三维打印等技术手段,聚焦早期硬骨鱼类关键特征演化,综合开展有颌类各大类群形态学与比较解剖学工作,建立完整的有颌类特征演化序列,为深刻理解硬骨鱼类各大类群在志留纪-早泥盆世这一关键时期的演化、适应和登陆等重要演化事件提供关键证据。此外,基于CT扫描数据,主导开发了用于古生物三维重建与渲染软件,对于高效、精准的重建和渲染化石及其他生物材料扫描数据具有重要意义。 

    承担科研项目情况:

  • 1) 国家自然科学基金优秀青年科学基金项目,肉鳍鱼类起源与早期演化,2021/01-2023/12,在研,主持

    2) 中国科学院战略先导科技专项(B类)关键地史时期生物与环境演变,志留纪-泥盆纪鱼类演化与登陆(子课题),2019/06-2023/06,在研,主持

    3)国家自然科学基金面上项目,华南早-中泥盆世四足形类形态学与古动物地理研究, 2019/01-2022/12,在研,主持

    4) 国家自然科学基金面上项目,云南昭通早泥盆世布拉格期肉鳍鱼类形态学与系统学研究,2015/01-2018/12,已结题,主持

    5) 国家自然科学基金青年基金,云南早泥盆世四足形类形态学与系统学研究,2012/01-2014/12,已结题,主持
    代表论著:

  • 三维可视化软件下载地址:

    http://admorph.ivpp.ac.cn/download.html

     

     

    代表论著(J. Lu = Jing Lu; * = 通讯作者):

    1J. Lu* (2022) Vayu 1.0, a new set of tools for visualizing surface meshes. Vertebrata Palasiatica, DOI: 10.19615/j.cnki.2096-9899.221020.

    2Y.-A. Zhu, Q. Li, J. Lu, Y. Chen, J. H. Wang, Z. K. Gai, W. J. Zhao, G. B. Wei, Y. L. Yu, P. E. Ahlberg*, M. Zhu*. (2022) The oldest complete jawed vertebrates from the early Silurian of China. Nature 609, 954–958.

    3Y.-A. Zhu*, Y.-J. Wang, Q.-M.Qu, J. Lu, M. Zhu*. The pelvic morphology of Parayunnanolepis (Placodermi, Antiarcha) revealed by tomographic data. Vertebrata Palasiatica, DOI: 10.19615/j.cnki.2096-9899.221126.

    4Y.-A. Zhu, S. Giles, G. C. Young, Y.-Z. Hu, M. Bazzi, P. E. Ahlberg, M. Zhu, and J. Lu* (2021) Endocast and bony labyrinth of a Devonian ‘‘Placoderm’’ challenges stem gnathostome phylogeny. Current Biology, 31: 1112–1118.e4.

    5Y.-Z. Hu, Ajay Limaye, and J. Lu*. (2021). A 3D Segmentation & Reconstruction Method in Paleontology Using Drishti. Bio-101: e1010668. DOI: 10.21769/BioProtoc.1010668. (in Chinese)

    6Z.-H. Li, W. Wang, H. Hu, M. Wang*, H.-Y. Yi*, and J. Lu*. (2021) Reanalysis of Oculudentavis shows it is a lizard. Vertebrata Palasiatica, 59: 95–105.

    7Y.-X. Li, X. Liao, K. Bi, T. Han, J.-Y. Chen, J. Lu*, C.-P. He*, and Z.-H. Lu* (2021). Micro-CT reconstruction reveals the colony pattern regulations of four dominant reef-building corals. Ecology and Evolution, 11, 16266-16279. doi.org/10.1002/ece3.8308

    8Q. Li, Y.-A. Zhu*, J. Lu, Y. Chen, J.-H. Wang, L.-J. Peng, G.-B. Wei, and M. Zhu* (2021) A new Silurian fish close to the common ancestor of modern gnathostomes. Current Biology, 31: 3613–3620.e2

    9A. M. Bailleul*, J. Lu, and Z.-H. Li*. (2021). DiceCT applied to fossilized hard tissues: a preliminary case study using a Miocene bird. Journal of Experimental Zoology Part B: Molecular and Developmental Evolution, 336: 364–375.

    10Y.-Z. Hu, Ajay Limaye, and J. Lu* (2020). Three-dimensional segmentation of computed tomography data using Drishti Paint: new tools and developments. Royal Society Open Science 7: 201033.

    11Y.-X. Li, T.-Y. Han, K. Liang, J.-Y. Chen, J. Lu*, C.-P. He*, and Z.-H. Lu*. (2020) The 3D reconstruction of Pocillopora colony sheds light on the growth pattern of this reef-building coral. iScience, 23.

    12Y.-Z. Hu, Ajay Limaye, and J. Lu*. (2020). A spark of 3D revisualization: new method for re-exploring segmented data. doi: https://doi.org/10.1101/2020.08.01.222869, Preprint.

    13G. C. Young*, and J. Lu. (2020). Asia–Gondwana connections indicated by Devonian fishes from Australia: palaeogeographic considerations. Journal of Palaeogeography, 9: 8.

    14J. Lu*, G. C. Young, Y.-Z. Hu, T. Qiao, and M. Zhu*. (2019) The posterior cranial portion of the earliest known Tetrapodomorph Tungsenia paradoxa and the early evolution of tetrapodomorph endocrania. Vertebrata Palasiatica, 57: 93–104. doi: 10.19615/j.cnki.1000-3118.181031

    15J. Lu*, and M. Zhu*. (2019) The postparietal shield of the Pragian dipnomorph Arquatichthys and its implications for the rhipidistian cranial anatomy. Palaeoworld, 28: 543–549. doi: https://doi.org/10.1016/j.palwor.2019.07.004

    16Z.-J. Yin*, and J. Lu*. (2019) Virtual Palaeontology: when fossils reconstructed by X-ray tomography. Palaeoworld, 28: 425–428.

    17Y.-Z. Hu, G. C. Young, J. Lu*. (2019) The Upper Devonian tetrapodomorph Gogonasus andrewsae from Western Australia: Reconstruction of the shoulder girdle and opercular series using X-ray Micro-Computed Tomography. Palaeoworld, 28: 535–542. doi: https://doi.org/10.1016/j.palwor.2019.07.008.

    18Y.-A. Zhu, J. Lu, and M. Zhu*. (2019) Reappraisal of the Silurian placoderm Silurolepis and insights into the dermal neck joint evolution. Royal Society Open Science, 6: 191181.

    19G. C. Young, R. L. Dunstone, P. J. Ollerenshaw, J. Lu, and B. Crook. (2019) New information on the giant Devonian lobe-finned fish Edenopteron from the New South Wales south coast. Australian Journal of Earth Sciences, 67221–242.

    20Y.-Z. Hu, G. Young, C. Burrow, Y.-A. Zhu*, and J. Lu. (2019) High resolution XCT scanning reveals complex morphology of gnathal elements in an Early Devonian arthrodire. Palaeoworld, 28: 525–534.

    21B. Choo, J. Lu, S. Giles, K. Trinajstic, and J. A. Long*. (2019) A new actinopterygian from the Late Devonian Gogo Formation, Western Australia. Papers in Palaeontology, 5: 343–363.

    22J. Lu*, S. Giles, M. Friedman, J. L. Den Blaauwen, and M. Zhu*. (2017) A new stem sarcopterygian illuminates patterns of character evolution in early bony fishes, Nature Communications, 8(1932)

    23Y.-Z. Hu, G. Young, J. Lu. (2017) New findings in a 400 million-year old Devonian placoderm shed light on jaw structure and function in basal gnathostomes, Scientific Reports, 7(7813). (co-first author)

    24J. Lu*, M. Zhu*, P. E. Ahlberg, T. Qiao, Y-A Zhu, W.-J. Zhao, and L.-T. Jia. (2016) A Devonian predatory fish provides insights into early evolution of modern sarcopterygians. Science Advances. 2, e1600154.

    25J. Lu, S. Giles, M. Friedman, J. L. Den Blaauwen, and M. Zhu* (2016). The oldest actinopterygain highlights the cryptic early history of the hyperdiverse ray-finned fishes. Current Biology 26, 1602–1608.

    26J. Lu, Y.-A. Zhu, and M. Zhu*. (2016) From fish to human: Origin and early evolution of osteichthyans. Chinese Journal of Nature 38, 391–398. (doi:10.3969/j.issn.0253-9608.2016.06.001) (in Chinese with English absetract)

    27M. Zhu*, P. E. Ahlberg*, Z.-H. Pan, Y.-A. Zhu, T. Qiao, W.-J. Zhao, L.-T. Jia, and J. Lu (2016). A Silurian maxillate placoderm illuminates jaw evolution. Science.

    28M. Zhu*, X.-B. Yu, P. E. Ahlberg, B. Choo, J. Lu, T. Qiao, Q.-M. Qu, W.-J. Zhao, L.-T. Jia, H. Blom, and Y.-A. Zhu (2013). A Silurian placoderm with osteichthyan-like marginal jaw bones. Nature, 502: 188–193.

    29J. Lu*, M. Zhu*, J. A. Long, W.-J. Zhao, T. J. Senden, L.-T. Jia, and T. Qiao (2012). The earliest known stem-tetrapod from the Lower Devonian of China. Nature Communications, 3:1160.

    30M. Zhu*, X.-B. Yu, J. Lu, T. Qiao, W.-J. Zhao, and L.-T. Jia (2012). Earliest known coelacanth skull extends the range of anatomically modern coelacanths to the Early Devonian. Nature Communications, 3:772.

    31M. Zhu*, X.-B. Yu, Choo, B., Q.-M. Qu, L.-T. Jia, W.-J. Zhao, T. Qiao, and J. Lu (2012). Fossil fishes from China provide first evidence of dermal pelvic girdles in osteichthyans. PLos ONE, 7:e35103.

    32J. Lu* and M. Zhu (2010). An onychodont fish (Osteichthyes, Sarcopterygii) from the Early Devonian of China, and the evolution of the Onychodontiformes. Proceedings of the Royal Society B, 277: 293–299.

    33M. Zhu*, W.-J. Zhao, L.-T. Jia, J. Lu, T. Qiao, and Q.-M. Qu, (2009). The oldest articulated osteichthyan reveals mosaic gnathostome characters. Nature, 458: 469–474.

    34J. Lu* and M. Zhu (2008). An Early Devonian (Pragian) sarcopterygian from Zhaotong, Yunnan, China. Vertebrata PalAsiatica, 46: 161–170.

     

     软件著作:

    1)卢静,2020:三维空间数据编辑渲染装置系统V1.0, 国家版权局计算机软件著作权登记号2021SR1804747,证书号软著登字第8527373号”

    2)卢静,2020:脊椎动物演化VR软件, 国家版权局计算机软件著作权登记号2021SR1524838,证书号软著登字第6325810号”

    3)卢静,2021:三维数据渲染软件[简称Vayu] V1.0, 国家版权局计算机软件著作权登记号2021SR1026219,证书号软著登字第7748845号”

    4)卢静,2021:三维表面数据编辑渲染控制软件V1.0,国家版权局计算机软件著作权登记号2021SR1804748,证书号软著登字第8527374号”

    获奖及荣誉:

  • 1) 朱敏、赵文金、贾连涛、卢静、乔妥,中华人民共和国国务院,硬骨鱼纲起源与早期演化研究,国家自然科学奖,二等奖,2013

    2) 卢静、朱敏、赵文金、贾连涛、乔妥,中国地质学会,最古老的基干四足动物——奇异东生鱼的发现,中国地质学会2012年度十大地质科技进展,2013