姓 名:
史恭乐 性 别:
男
职 务:
职 称:
研究员
通讯地址:
南京市北京东路39号
邮政编码:
210008 电子邮件:
glshi@nigpas.ac.cn


简历：
　　2000-2004 南京大学，生命科学学院，生物科学专业/理学学士
　　2004-2007 中国科学院南京地质古生物研究所，古生物学与地层学/理学硕士
　　2007-2011 中国科学院南京地质古生物研究所，古生物学与地层学/理学博士　
　　2011-2021 中国科学院南京地质古生物研究所，助理研究员，副研究员
　　2021-至今中国科学院南京地质古生物研究所，研究员

　　2013-2014 耶鲁大学，博士后
　　2014-2015 耶鲁大学，Associate Research Scientist

研究领域：
　　种子植物大类群系统发育
　　分支系统分析重建植物演化历史
　　亚洲热带雨林的起源和演化

社会任职：

获奖及荣誉：

承担科研项目情况：

代表论著：
(44) Spicer, R.A., Su, T., Valdes, P.J., Farnsworth, A, Wu, F., Shi, G., Spicer, T.E.V., Zhou, Z., 2020. Why the 'Uplift of the Tibetan Plateau' is a myth. National Science Review, nwaa091.
(43) Song B., Spicer R.A., Zhang K., Ji J., Farnsworth A., Hughes A.C., Yang Y., Han F., Xu Y., Spicer T., Shen T., Lunt D.J., Shi G., 2020. Qaidam Basin leaf fossils show northeastern Tibet was high, wet and cool in the early Oligocene. Earth and Planetary Science Letters 537, 116175.
(42) Herrera F., Shi G., Mays C., Ichinnorov N., Takahashi M., Bevitt J.J., Herendeen P.S., Crane P.R., 2020. Reconstructing Krassilovia mongolica supports recognition of a new and unusual group of Mesozoic conifers. PLOS ONE 15(1), e**.
(41) Shi G., Li H., Leslie A.B., Zhou Z., 2020. Araucaria bract-scale complex and associated foliage from the early-middle Eocene of Antarctica and their implications for Gondwanan biogeography. Historical Biology 32, 164–173.
(40) Li Q., Shi G., Liu C.Y., Fu Q., Jin J., Quan C., 2019. The early history of Annonaceae (Magnoliales) in southeast asia suggests floristic exchange between india and pan-indochina by the late Oligocene. Papers in Palaeontology 5, 601–612.
(39) Shi G., Ai K., Song B., Zhang K., 2019. A brief review of Populus fossils from the Tibetan Plateau. Acta Palaeontologica Sinica 58, 415–423.
(38) Dong C., Zhou Z., Zhang B., Wang Y., Shi G., 2019. Umaltolepis and associated Pseudotorellia leaves from the Middle Jurassic of Yima in Henan Province, Central China. Review of Palaeobotany and Palynology 271, 104111.
(37) Wang Z., Shi G., Sun B., Yin S., 2019. A new species of Ormosia (Leguminosae) from the middle Miocene of Fujian, Southeast China and its biogeography. Review of Palaeobotany and Palynology 270, 40–47.
(36) Shi G., Crane P.R., Herendeen P.S., Ichinnorov N., Takahashi M., Herrera F., 2019. Diversity and homologies of corystosperm seed-bearing structures from the Early Cretaceous of Mongolia. Journal of Systematic Palaeontology 17, 997–1029.
(35) Jiang H., Su T., Wong W.O. Wu F., Huang J., Shi G., 2019. Oligocene Koelreuteria (Sapindaceae) from the Lunpola Basin in central Tibet and its implication for early diversification of the genus. Journal of Asian Earth Sciences 175, 99–108.
(34) Zheng D., Shi G., Hemming S.R., Zhang H., Wang W., Wang B., Chang S.C., 2019. Age constraints on a Neogene tropical rainforest in China and its relation to the Middle Miocene Climatic Optimum. Palaeogeography, Palaeoclimatology, Palaeoecology 518, 82–88.
(33) Ai K., Shi G., Zhang K., Ji J., Song B., Shen T., Guo S., 2019. The uppermost Oligocene Kailas flora from southern Tibetan Plateau and its implications for the uplift history of the southern Lhasa terrane. Palaeogeography, Palaeoclimatology, Palaeoecology 515, 143–151.
(32) Herrera F., Shi G., Tsolmon, G., Ichinnorov N., Takahashi M., Crane P.R., Herendeen P.S., 2018. Exceptionally well-preserved Early Cretaceous leaves of Nilssoniopteris from central Mongolia. Acta Palaeobotanica 58, 135–157.
(31) Liu X., Shi G., Xia F., Lu X., Wang B., Engel M.S., 2018. Liverwort mimesis in a Cretaceous Lacewing Larva. Current Biology 28, 1475–1481.
(30) Shi G., Herrera F., Herendeen P.S., Leslie A.B., Ichinnorov N., Takahashi M., Crane P.R., 2018. Leaves of Podozamites and Pseudotorellia from the Early Cretaceous of Mongolia: stomatal patterns and implications for relationships. Journal of Systematic Palaeontology 16, 111–137.
(29) Herrera F., Moran R.C., Shi G., Ichinnorov N., Takahashi M., Crane P.R., Herendeen P.S., 2017. An exquisitely preserved filmy fern (Hymenophyllaceae) from the Early Cretaceous of Mongolia. American Journal of Botany 104, 1370–1381.
(28) Wu F., Miao D., Chang M., Shi G., Wang N., 2017. Fossil climbing perch and associated plant megafossils indicate a warm and wet central Tibet during the late Oligocene. Scientific Report 7, 878.
(27) Herrera F., Shi G., Ichinnorov N., Takahashi M., Bugdaeva E., Herendeen P.S., Crane P.R., 2017. The presumed ginkgophyte Umaltolepis has seed-bearing structures resembling those of Peltaspermales and Umkomasiales. Proceedings of the National Academy of Sciences USA 114, E2385–E2391.
(26) Huang J., Shi G., Su T., Zhou Z., 2017. Miocene Exbucklandia (Hamamelidaceae) from Yunnan, China: Revelation of its biogeography and palaeoecology. Review of Palaeobotany and Palynology 244, 96–106.
(25) Herrera F., Shi G., Knopf P., Leslie A.B., Ichinnorov N., Takahashi M., Crane P.R., Herendeen P.S., 2017. Cupressaceae Conifers from the Early Cretaceous of Mongolia. International Journal of Plant Sciences 178, 19–41.
(24) Herrera F., Leslie A.B., Shi G., Knopf P., Ichinnorov N., Takahashi M., Crane P.R., Herendeen P.S., 2016. New fossil Pinaceae from the Early Cretaceous of Mongolia. Botany 94, 885–915.
(23) Wang B., Xia F., Engel M.S., Perrichot V., Shi G., Zhang H., Chen J., Jarzembowski E.A., Wappler T., Rust J., 2016. Debris-carrying camouflage among diverse lineages of Cretaceous insects. Science Advances 2, e**.
(22) Quan C., Fu Q., Shi G., Liu Y., Li L., Liu X., Jin J., 2016. First Oligocene mummified plant Lagerst？tte at the low latitudes of East Asia. Science China Earth Science 59, 445–448.
(21) Shi G., Leslie A.B., Herendeen P.S., Herrera F., Ichinnorov N., Takahashi M., Knopf P., Crane P.R., 2016. Early Cretaceous Umkomasia from Mongolia: Implication for homology of corystosperm cupules. New Phytologist 210, 1418–1429.
(20) Lin Y., Wong W.O., Shi G., Shen S., Li Z., 2015. Bilobate leaves of Bauhnia (Leguminosae, Caesalpinioideae, Cercideae) from the middle Miocene of Fujian Province, southeastern China, and their biogeographic implications. BMC Evolutionary Biology 15, 252.
(19) Herrera F., Shi G., Leslie A.B., Knopf P., Ichinnorov N., Takahashi M., Crane P.R., Herendeen P.S., 2015. A new Voltzian seed cone from the Early Cretaceous of Mongolia and its implications for the evolution of ancient conifers. International Journal of Plant Sciences 176, 791–809.
(18) Jacques F.M.B., Shi G., Su T., Zhou Z., 2015. A tropical forest of the middle Miocene of Fujian (SE China) reveal Sino-Indian biogeographic affinities. Review of Palaeobotany and Palynology 216, 76–91.
(17) Shi G., Xie Z., Li H., 2014. High diversity of Lauraceae from the Oligocene of Ningming, South China. Palaeoworld 23, 336–356.
(16) Wang B., Rust J., Engel M.S., Szwedo J., Dutta S., Nel A., Fan Y., Meng F., Shi G., Jarzembowski E.A., Wappler T., Stebner F., Fang Y., Mao L., Zheng D., Zhang H., 2014. A diverse paleobiota in early Eocene Fushun amber from China. Current Biology 24, 1606–1610.
(15) Shi G., Dutta S., Paul S., Wang B., Jacques F.M.B., 2014. Terpenoid compositions and botanical origin of Late Cretaceous and Miocene amber from China. PLoS ONE 9(10), e111303.
(14) Shi G., Leslie A.B., Herendeen P.S., Ichinnorov N., Takahashi M., Knopf P., Crane P.R., 2014. Whole-plant reconstruction and phylogenetic relationship of Elatides zhoui sp. nov. (Cupressaceae) from the Early Cretaceous of Mongolia. International Journal of Plant Sciences 175, 911–930.
(13) Song Z., Shi G., Chen Y., Wang Q., 2014. Winged fruits of Ailanthus (Simaroubaceae) from the Oligocene Ningming Formation of Guangxi, and their taxonomic and biogeographic implications. Acta Palaeontologica Sinica 53, 191–200.
(12) Shi G., Jacques F.M.B., Li H., 2014. Winged fruits of Shorea (Dipterocarpaceae) from the Miocene of Southeast China: Evidence for the northward extension of dipterocarps during the Mid-Miocene Climatic Optimum. Review of Palaeobotany and Palynology 200, 97–107.
(11) Jacques F.M.B., Shi G., Li H., Wang W., 2014. An early–middle Eocene Antarctic summer monsoon: Evidence of ‘fossil climates’. Gondwana Research 25, 1422–1428.
(10) Jacques F.M.B., Shi G., Wang W., 2013. Neogene zonal vegetation of China and the evolution of the winter monsoon. Bulletin of Geosciences 88, 175–193.
(9) Shi G., Zhou Z., Xie Z., 2012. A new Oligocene Calocedrus from South China and its implications for transpacific floristic exchanges. American Journal of Botany 99, 108–120.
(8) El-Soughier M.I., Mehrotra R.C., Zhou Z., Shi G., 2011. Nypa fruits and seeds from the Maastrichtian-Danian sediments of Bir Abu Minqar, South Western Desert, Egypt. Palaeoworld 20, 75–83.
(7) Jacques F.M.B., Shi G., Wang W., 2011. Reconstruction of Neogene zonal vegetation in South China using the Integrated Plant Record (IPR) analysis. Palaeogeography, Palaeoclimatology, Palaeoecology 307, 272–284.
(6) Shi G., Zhou Z., Xie Z., 2011. Cupressus foliage shoots and associated seed cones from the Oligocene Ningming Formation of Guangxi, South China. Review of Palaeobotany and Palynology 166, 325–334.
(5) Shi G., Li H., 2010. A fossil fruit wing of Dipterocarpus from the middle Miocene of Fujian, China and its palaeoclimatic significance. Review of Palaeobotany and Palynology 162, 599–606.
(4) Shi G., Zhou Z., Xie Z., 2010. A new Cephalotaxus and associated epiphyllous fungi from the Oligocene of Guangxi, South China. Review of Palaeobotany and Palynology 161, 179–195.
(3) Li L., Zhu C., Li L, Zhao Q., Shi G., Zheng C., Fan C., 2009. Evidence for marine transgression between 7500-5400 BC at the Luotuodun Site in Yixing, Jiangsu Province. Journal of Geographical Sciences 19, 671–680.
(2) Shi G., Zhang B.L., Leng Q., Wang L., Jiang Q., 2008. A Holocene plant fossil l？gerstatten discovered from Qingdao, China. Quaternary Sciences 28, 762–768.
(1) Leng Q., Fan S., Wang L., Yang H., Lai X., Cheng D., Ge J., Shi G., Jiang Q., Liu X., 2007. Database of native Metasequoia glyptostroboides trees in China based on new census surveys and expeditions. Bulletin of the Peabody Museum of Nautural History 48, 185–233.