2022年:
Chen, Z.Y.*, Zhang, D., Zhen, Y.Y., Li, W.J., Wu, R.C., Chen, Q., Zhao, A.K., Zhang, Y.D., 2022. Uppermost Katian (Ka4, Upper Ordovician) conodonts in South China: Biostratigraphy, biofacies, and paleobiogeography. Marine Micropaleontology, 175: 102154.
Chen, Z.Y.*, Guo, W., Fang, X., Li, W.J., Song, J.J., Qie, W.K., Zhang, Y.C., 2022. Silurian conodonts from the Nyalam region, southern Xizang (Tibet), China, and their biostratigraphical and palaeobiogeographical implications. Palaeogeography, Palaeoclimatology, Palaeoecology, 588: 110838.
Jeon, J., Li, Y., Kershaw, S., Chen, Z.Y., Ma, J.Y., Lee, J.H., Liang, K., Yu, S.Y., Huang, B., Zhang, Y.D.*, 2022. Nearshore warm-water biota development in the aftermath of the Late Ordovician Mass Extinction in South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 603: 111182.
Song, J.J.*, Guo, W., Huang, J.Y., Zhang, Y.C., Chen, Z.Y., Sun, Y.C., Ma, J., Qie, W.K., 2022. Silurian ostracods from the Nyalam region, southern Tibet, China and their implications on palaeoenvironment and palaeobiogeography. Journal of Palaeogeography, 11(1): 85–96.
Fang, X., Mao, Y.Y., Liu, Q., Yuan, W.W., Chen, Z.Y., Wu, R.C., Li, L.X., Zhang, Y.C., Ma, J.Y., Wang, W.H., Zhan, R.B., Peng, S.C., Zhang, Y.D., Huang, D.Y.*, 2022. The Liexi fauna: a new Lagerst?tte from the Lower Ordovician of South China. Proceedings of the Royal Society B, Biological Sciences, 289(1978): 20221027.
Guo, Qimei, Li, Baohua*, 2022. Intermediate water variability of the subtropical Northeastern Atlantic during 490-424 ka (late MIS 13 and MIS 12). Marine Geology 444: 106730.
郭启梅,徐烨,刘静,李保华,2022. 有孔虫稳定氧碳同位素实验处理、测试与应用. 微体古生物学报,39(3):276–283.
Li, S.*, Grasby, S.E., Zhao, X., Chen, J., Zheng, D., Wang, H., Fang, Y., Zhang, Q., Yu, T., Tian, J., Du, S., Jarzembowski, E.A., Wang, Q., Zhang, H., Wan, X. and Wang, B., 2022. Mercury evidence of Deccan volcanism driving the Latest Maastrichtian warming event. Geology, 50(10): 1140–1144.
Cao, W.#, Li, S.#*, Li, Q., Stidham, T.A., Wan, X. and Ni, X., 2022. Asian Paleocene charophyte records demonstrate Eocene dispersals from Asia to Europe. Journal of Paleontology, 96(3): 706–714.
Yu, T., Wang, H., Fang, Y., Salvador, R.B., Li, S.*, Jarzembowski, E.A., Yu, H. and Zhang, H., 2022. Non-marine gastropods from the Cretaceous–Paleogene transition in the Pingyi Basin, eastern China. Proceedings of the Geologists' Association, 133(1): 40–46.
Wang, H., Du, S., Yu, T., Li, S., Lu, H., Zhang, H., Cao, M. and Horne, D.J., 2022a. Ostracods from the Pingyi Basin (eastern China) and their significance for the K/Pg boundary. Geological Society Special Publication, 125–137.
Wang, H., Han, W.C., Zhang, G.Q., Zhang, Y.M., Wang, M.Z., Li, S., Cao, M.Z. and Zhang, H.C., 2022b. Paleogene ostracodes from the Dawenkou Basin, East China and their biostratigraphic significance for the age of mineral resources. Palaeoworld, 31(1): 131–139.
Fang, Y., Olsen, P., Zheng, D., Xue, N., Wang, H., Xu, C., Li, S., Wang, B. and Zhang, H., 2022. A new astronomical time scale for the early Jehol Biota in the Luanping Basin, northeastern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 607: 111273.
李玮, 屈海英, 李莎, 周淑敏, 宋先腾, 王晓楠, 2022. 柴达木盆地诺木洪贝壳堤水体演变的介形类证据. 现代地质,36(1): 14–26.
Wu C., Pang K., Chen Z., Wang X., Zhou C., Wan B., Yuan X., Xiao S., 2022. The rangeomorph fossil Charnia from the Ediacaran Shibantan biota in the Yangtze Gorges area, South China. Journal of Paleontology, in press.
Liang, Y., N?lvak, J., Xu, H., Chen, Y., Hints, O., 2022. Revision of Ordovician chitinozoan Lagenochitina esthonica sensu lato: morphometrics, biostratigraphy and paleobiogeography. Journal of Paleontology, 96: 46–60.
N?lvak, J., Liang, Y., Hints, O., 2022. Early and early Middle Ordovician chitinozoans from the Baldone drill core, central Latvia. Estonian Journal of Earth Sciences, 71: 25–43.
王光旭, 梁艳, 魏鑫, 吴荣昌, 唐鹏, 栾晓聪, 崔雨浓, 2022a. 扬子台地西缘奥陶纪岩石地层单位命名问题:回顾与澄清. 地层学杂志, 45: 514–531.
王光旭, 梁艳, 龚方怡, 吴荣昌, 崔雨浓, 张一驰, 魏鑫, 栾晓聪, 詹仁斌, 2022b. 扬子台地西南缘奥陶纪达瑞威尔期—桑比期地层划分对比与古地理. 地层学杂志, 46: 118–137.
Ouyang, Q., Zhou, C.M., Pang, K., Chen, Z., 2022. Silicified Polybessurus from the Ediacaran Doushantuo Formation records microbial activities within marine sediments. Palaeoworld, 31(1), 1–13. https://doi.org/10.1016/j.palwor.2021.03.001
Shi, H., Ouyang, Q., Zhou, C., Xiao, S., Chen, Z., Guan, C., 2022. Integrated study of the Doushantuo Formation in northwestern Hunan Province: Implications for Ediacaran chemostratigraphy and biostratigraphy in South China. Precambrian Research, 377, 106699. https://doi.org/10.1016/j.precamres.2022.106699.
盛青怡*, 2022. 古盘虫类有孔虫起源及其壳壁发育证据. 古生物学报, 61(03),10p.
Song, J. J. *, Guo, W., Huang, J.Y., Zhang, Y.C., Chen, Z.Y., Sun, Y.C., Ma, J., Qie, W.K., 2022. Silurian ostracods from the Nyalam region, southern Tibet, China and their implications on palaeoenvironment and palaeobiogeography. Journal of Palaeogeography,11(1):85–96.
Song, J. J. *, Guo, W., Sun, Y.C., Ma, J., Huang, J.Y., Zhang, Y.C., Qie, W.K., 2022. First record of the Latest Devonian ostracods from the Xainza region, Tibet, China: implications on palaeoenvironment and palaeobiogeography. Palaeoworld, https://doi.org/10.1016/j.palwor.2022.01.002
Song, J. J. *, Huang, B., Qie, W.K.,2022. Allometry in Late Devonian Podocopa ostracods (Crustacea) and its implications for Ostracoda ontogeny. Paper in Palaeontology (in press).
宋俊俊*,郭文,张以春,马娟,孙语聪,郄文昆, 2022. 西藏南部聂拉木地区晚泥盆世-早石炭世的介形类.微体古生物学报,39(1):40–56.
Zhang, Shuai, Yu, Zhoufei*, Wang, Yue, Gong, Xun, Holbourn, Ann, Chang, Fengming, Liu, Heng, Cheng, Xuhua, Li, Tiegang*, 2022. Thermal coupling of the Indo-Pacific warm pool and Southern Ocean over the past 30,000 years. Nature communications, 13 (5457): https://doi.org/10.1038/s41467-022-33206-y.
Yu Zhoufei*, Li, Baohua, Li, Hongliang, Zhang, Jingjing, Chen, Jianfang, 2022. The influence of seasonal calcification depth change on the planktonic foraminiferal stable oxygen isotope signal. Geochimica et Cosmochimica Acta, 327: 34–52.
Ju, Qi, Zhang, Yi-chun*, Qiao, Feng, Xu, Hai-peng, 2022. First discovery of Wuchiapingian (Late Permian) foraminiferal fauna from the Zhari Namco area, central Lhasa Block, Tibet, and their palaeogeographic implications. Geological Journal, 57 (7): 2564–2580.
Ju, Qi, Zhang, Yi-chun*, Yuan, Dong-xun, Qiao, Feng, Xu, Hai-peng, Zhang, Hua, Zheng, Quan-feng, Luo, Mao, Qie, Wen-kun, Zhai, Qing-guo, Zhang, Yu-jie, Shen, Shu-zhong, 2022. Permian foraminifers from the exotic limestone blocks within the central Qiangtang Metamorphic Belt, Tibet and their geological implications. Journal of Asian Earth Sciences, 239: 105426.
Xu, Hai-peng, Zhang, Yi-chun, Yuan, Dong-xun, Shen, Shu-zhong*, 2022. Quantitative palaeobiogeography of the Kungurian–Roadian brachiopod faunas in the Tethys: Implications of allometric drifting of Cimmerian blocks and opening of the Meso-Tethys Ocean. Palaeogeography, Palaeoclimatology, Palaeoecology, 601: 111078.
Wang, Wen-qian, Zhang, Feifei*, Shen, Shu-zhong, Bizzarro, Martin, Garbelli, Claudio, Zheng, Quan-feng, Zhang, Yi-chun, Yuan, Dong-xun, Shi, Yu-kun, Cao, Mengchun, Dahl, Tais W., 2022. Constraining marine anoxia under the extremely oxygenated Permian atmosphere using uranium isotopes in calcitic brachiopods and marine carbonates. Earth and Planetary Science Letters, 594: 117714
Shen, Shu-zhong*, Yuan, Dong-xun, Henderson, Charles M., Lambert, Lance L., Zhang, Yi-chun, Erwin, Douglas H., Ramezani, Jahandar, Wang, Xiang-dong, Zhang, Hua, Wu, Qiong, Wang, Wen-qian, Hearst, Jonena M., Chen, Jun, Wang, Yue, Qie, Wen-kun, Qi, Yu-ping, Wardlaw, Bruce R., 2022. The Global Stratotype Section and Point (GSSP) for the base of the Capitanian Stage (Guadalupian, Middle Permian). Episodes
Zhang, Yi-chun*, Zhai, Qing-guo, Fan, Jian-jun, Song, Pei-ping, Qie, Wen-kun, 2022. Editorial preface to special issue: From Prototethys to Neotethys: Deep time paleobiogeographic and paleogeographic evolution of blocks in the Qinghai-Tibet Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 599: 111046.
Qiao, Li*, Zhang, Yi-Chun, Liu, Cong-Ying, 2022. Palaeobiogeographical analysis of the Mississippian (early Carboniferous) brachiopod fauna in the Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 596:110999.
Li, Xiao-ming, Wang, Xiang-dong*, Yao, Le*, Zhang, Yi-chun, Wang, Xiao-juan, 2022. Permian rugose coral Thomasiphyllum as a paleogeographical indicator of the Gondwana-derived Cimmerian Continent. Journal of Asian Earth Sciences, 288: 105146.
Yuan, Dong-xun*, Zhang, Yi-chun*, Qiao, Feng, Xu, Hai-peng, Ju, Qi, Shen, Shu-zhong, 2022. A new late Kungurian (Cisuralian, Permian) conodont and fusuline fauna from the South Qiangtang Block in Tibet and their implications for correlation and paleobiogeography. Palaeogeography, Palaeoclimatology, Palaeoecology, 589: 110822.
2021年:
Chen, Z.Y.*, M?nnik, P., Fan, J.X., Wang, C.Y., Chen, Q., Sun, Z.Y., Chen, D.Y., Li, C., 2021. Age of the Silurian Lower Red Beds in South China: Stratigraphical evidence from the Sanbaiti section. Journal of Earth Science, 32(3): 524–533.
Chen, Z.Y.*, M?nnik, P., Tang, P., Wang, J., Ma, J.Y., Luan, X.C., 2021. Age of the Silurian Wuxiahe Formation in Langao, Northwest China: New conodont data. Palaeoworld, 30(4): 649–658.
马冬晨, 陈中阳*, 张虹瑞, 成俊峰, 2021. 新疆顺北油田和塔河油田中?上奥陶统牙形刺生物地层. 微体古生物学报, 38(2): 149–163.
Deng, Y.Y., Fan, J.X.*, Zhang, S.H., Fang, X., Chen, Z.Y., Shi, Y.K., Wang, H.W., Wang, X.B., Yang, J., Hou, X.D., Wang, Y., Zhang, Y.D., Chen, Q., Yang, A.H., Fan, R., Dong, S.C., Xu, H.Q., Shen, S.Z., 2021. Timing and patterns of the Great Ordovician Biodiversification Event and Late Ordovician mass extinction: Perspectives from South China. Earth-Science Reviews, 220: 103743.
薛春玲, 戴霜*, 陈中阳, 汪卫国, 2021. 亚洲奥陶系牙形刺生物地层研究进展. 地球科学进展, 36(1): 29–44.
Guo Qimei, Kim Jin-Kyoung, Singh Arun D., Yu Jing, Li Baohua*, 2021. Benthic foraminiferal response to orbital-scale variability in primary productivity off the Portuguese margin over the last 1.3 Myr. Palaeogeography, Palaeoclimatology, Palaeoecology, 577: 110532.
Xu, Ye, Chang, FM, Li, TG, Li, Baohua*, 2021. High-resolution sea surface temperature and salinity dynamics in the northern Okinawa Trough over the last 24 kyr. Palaeooworld, 30: 770–785.
王晓燕,李保华*,黄宝琦,2021. 晚更新世南海不同海区的浮游有孔虫群落特征差异及环境控制因素。微体古生物学报,38(1): 63–71.
Du, S.X., Wang, H., Liu, F.C., Lu, H.N., Song, X.S., Li, S. and Zhang, H.C., 2021. Ostracods from the Upper Cretaceous–Paleocene Jiaozhou Formation of Jiaozhou, Shandong, China and their biostratigraphic significance. Palaeoworld, 30(2): 323–336.
Li, S.*, Sanjuan, J., Wang, Q., Zhang, H. and Wan, X., 2021. Response of the lacustrine flora in East Asia to global climate changes across the K/Pg boundary. Global and Planetary Change, 197: 103400.
Song, B., Zhang, K., Han, F., Liu, Z., Ai, K., Li, S., Xu, Y. and Yang, T., 2021. Reconstruction of the latest Eocene-early Oligocene paleoenvironment in the Hoh Xil Basin (Central Tibet) based on palynological and ostracod records. Journal of Asian Earth Sciences, 217: 104860.
Tian, J.X., Chen, J., Lu, H.N., Chen, C., Wang, H., Li, T., Li, S.*, Wang, Q.F., Zhang, H.C. and Wan, X.Q., 2021. Discovery of charophyte flora across the Cretaceous–Paleocene transition in the Jiaolai Basin. Palaeoworld, 30(3): 538–550.
Yu, T., Salvador, R.B., Wang, H., Fang, Y., Neubauer, T.A., Li, S.*, Zhang, H. and Wan, X., 2021. A latest Cretaceous gastropod fauna from the Jiaolai Basin of East Asia. Cretaceous Research, 121: 104736.
Zheng, D., Wang, H., Li, S.*, Wang, B., Jarzembowski, E.A., Dong, C., Fang, Y., Teng, X., Yu, T., Yang, L., Li, Y., Zhao, X., Xue, N., Chang, S.C. and Zhang, H., 2021. Synthesis of a chrono- and biostratigraphical framework for the Lower Cretaceous of Jiuquan, NW China: Implications for major evolutionary events. Earth-Science Reviews, 213: 103474.
Liang, Y., Tang, P., Wang, G.X., Yan, G.Z., Wang, Q., 2021. Middle-Upper Ordovician chitinozoans from Songliang of Qiaojia, western South China, and their biostratigraphic implications. Palaeoworld, doi: 10.1016/j.palwor.2021.11.003
Hints, O., Liang, Y., N?lvak, J., 2021. Possible metazoan egg fossils from the Darriwilian (Middle Ordovician) of Baltoscandia. Estonian Journal of Earth Sciences, 70: 240–252.
Wang, W.H., Liang, Y., Lyu, Q., Hints, O., Chen, S.F., N?lvak, J., 2021. Chitinozoans with “skirt”: Ultrastructure and palaeoecological implications of carina in Cyathochitina Eisenack, 1955. Palaeogeography Palaeoclimatology Palaeoecology, 570, doi: 10.1016/j.palaeo.2021.110348
张元动, 詹仁斌, 王志浩, 袁文伟, 方翔, 梁艳, 燕夔, 王玉净, 梁昆, 张俊鹏, 陈挺恩, 周志强, 陈清, 全胄完, 马譞, 李文杰, 武学进, 魏鑫, 2021. 中国奥陶纪地层及标志化石图集. 浙江大学出版社, 杭州. 575 pp.
梁艳, 谭超. 2021. 地球46亿年:人类出现之前的故事. 科普译书. 北京联合出版公司.
Ouyang, Q., Zhou, C., Xiao, S., Guan, C., Chen, Z., Yuan, X., & Sun, Y. (2021). Distribution of Ediacaran acanthomorphic acritarchs in the lower Doushantuo Formation of the Yangtze Gorges area, South China: Evolutionary and stratigraphic implications. Precambrian Research, 353: 106005. https://doi.org/10.1016/j.precamres.2020.106005
Pang, K.*, Wu, C., Sun, Y., Ouyang, Q., Yuan, X., Shen, B., Lang, X., Wang, R., Chen, Z.*, Zhou, C.* 2021. New Ediacara-type fossils and late Ediacaran stratigraphy from the northern Qaidam Basin (China): paleogeographic implications. Geology, 49(10): 1160–1164 (*共同通讯作者)
Gan, T., Luo, T.*, Pang, K.*, Zhou, C., Zhou, G., Wan, B., Li, G., Yi, Q., Czaja, A.D., Xiao, S.* 2021. Cryptic terrestrial fungus-like fossils in the early Ediacaran Period. Nature Communications, 12: 641. (*共同通讯作者)
庞科*, 唐卿,; 万斌, 李光金, 陈雷, 袁训来, 周传明*. 2021. 华北地台胶辽徐淮地区中-新元古代地层研究进展. 地层学杂志, 45(4): 467–492. (*共同通讯作者)
李光金#, 王霄鹏#, 孙云鹏, 庞科*, 万斌, 周传明. 2021. 淮南地区中-新元古界LA-ICP-MS碎屑锆石U-Pb年龄及地质意义. 地层学杂志, 45(2): 115–141. (#共同第一作者;*通讯作者)
吴承羲, 陈哲, 庞科*, 王霄鹏, 万斌, 周传明, 袁训来. 2021. 三峡地区埃迪卡拉纪石板滩生物群定量古生物学和生态空间分析. 古生物学报, 60(1): 42–68.
盛青怡*, 王秋来, 祁玉平, 廖卓庭. 2021. 贵州罗甸纳饶剖面石炭系维宪阶-谢尔普霍夫阶界线附近的有孔虫. 地层学杂志, 45(01): 1–10.
祁玉平, 王秋来, 黄玉泽, 胡科毅, 王志浩, 盛青怡, 林巍, 要乐, 陈吉涛, 王向东. 2021. 石炭系“金钉子”. 詹仁斌, 张元动主编. 地层“金钉子”:地球演化历史的关键节点. 南京: 江苏凤凰科学技术出版社. 279–326.
俞宙菲*,李保华,王晓燕,郭启梅,张楷, 2021. 江苏、浙江潮间带中活体底栖有孔虫的垂向分布。微体古生物学报,38(4): 358–365.
张予杰*, 张以春, 王冬兵, 苟正彬, 2021. 青藏高原中南部前寒武系及古生界岩石地层组成和时代特征, 地质通报,40(11): 1814–1835.
申博恒, 沈树忠*, 侯章帅, 吴琼, 张水昌, 张斌, 张以春, 袁东勋, 2021. 中国二叠纪岩石地层划分和对比, 地层学杂志, 45(3): 319–339.
郭兴伟*, 卢辉楠, 张训华, 徐洪河, 朱晓青, 唐鹏, 张以春, 季兴开, 2021. 大陆架科学钻探CSDP-2井揭示的南黄海中-古生代古生物地层框架, 海洋地质前沿, 37(11): 85–88.
Qiao Feng, Zhang, Yi-chun*, Wang, Yue, Yuan, Dong-xun, Ju, Qi, Xu, Hai-peng, Zhang, Hua, Zheng, Quan-feng, Cai, Yao-feng, Hou, Zhang-shuai, Shen, Shu-zhong, 2021. An updated age of Permian strata in the Raggyorcaka and Qamdo areas, Tibet and their paleogeographic implications, Palaeogeography, Palaeoclimatology, Palaeoecology, 582: 110660.
Xu, Hai-peng, Aung, Kyi Pyar, Zhang, Yi-chun, Shi, G. R., Cai, Fu-long, Zaw, Than, Ding, Lin, Sein, Kyaing, Shen, Shu-zhong*, 2021. A late Cisuralian (early Permian) brachiopod fauna from the Taungnyo Group in the Zwekabin Range, eastern Myanmar and its biostratigraphic, paleobiogeographic, and tectonic implications. Journal of Paleontology, 95: 1158–1188.
Wu, Qiong, Ramezani, Jahandar, Zhang, Hua, Wang, Jun, Zeng, Fangui, Zhang, Yichun, Liu, Feng, Chen, Jun, Cai, Yaofeng, Hou, Zhangshuai, Liu, Chao, Yang, Wan, Henderson, Charles M., Shen, Shu-zhong, 2021. High-precision U-Pb age constraints on the Permian floral turnovers, paleoclimate change, and tectonics of the North China block. Geology, 49(6): 677–681.
Yuan, Dong-xun, Shen, Shu-zhong, Henderson, Charles M, Lambert, Lance L, Hearst, Jonena M, Zhang, Yi-chun, Chen, Jun, Qie, Wen-kun, Zhang, Hua, Wang, Xiang-dong, Qi, Yu-ping, Wu, Qiong, 2021. Reinvestigation of the Wordian-base GSSP section, West Texas, USA, Newsletters on Stratigraphy, 54(3):301–315.
乔枫, 张以春*, 徐海鹏, 琚琦, 2021. 西藏拉萨地块申扎地区晚二叠世有孔虫动物群及其古生物地理意义, 微体古生物学报, 38(1): 1–17.
Ju, Qi, Zhang, Yi-chun*,*, Qiao, Feng, Xu, Hai-peng, 2021. A Middle Permian assemblage of smaller foraminifera (Shanita-Hemigordiopsis assemblage) from the central Lhasa Block and its paleobiogeographic implications, Palaeogeography, Palaeoclimatology, Palaeoecology, 572: 110417
Wang, Xiang-dong, Hu, Ke-Yi, Shi, Yu-Kun, Chen, Ji-Tao, Yang, Sun-Rong, Ye, Xun-Yan,Li, Xiao-Ming, Song, Ying-Fan, Chen, Bo, Chang, Xiao-Lin, Yao, Le, Zhang, Yi-Chun, Fan, Jun-Xuan, Shen, Shu-Zhong, 2021. The missing upper Carboniferous in the Cimmerian continent: A critical review, Earth-Science Reviews, 217: 103627
2020年:
Jin, Xiaobo, Xu, J, Li, Y, Qiao, P, Wu, L, Ling, C, Li, Baohua*, Liu, C, 2020. Origin of the rhythmic reddish-brown and greenish-gray sediments in the abyssal South China Sea:Implications for oceanic circulation in the late Miocene. Marine Geology, 430: 106378.
张楷,李保华*,王晓燕,俞宙菲,郭启梅,徐烨,2020. 沉积物中底栖有孔虫的染色方法比较研究。微体古生物学报,37(3): 294–302.
Liang, Y., Hints, O., Tang, P., Cai, C.Y., Goldman, D., N?lvak, J., Tihelka, E., Pang, K., Bernardo, J., Wang, W.H., 2020. Fossilized reproductive modes reveal a protistan affinity of Chitinozoa. Geology, 48: 1200–1204.
Guo Qimei, Li Baohua*, Voelker Antje H.L., Kim Jin-Kyoung, 2020. Mediterranean Outflow Water dynamics across the middle Pleistocene transition based on a 1.3 million-year benthic foraminiferal record off the Portuguese margin. Quaternary Science Reviews, 247: 106567.
郭启梅,李保华,王晓燕,俞宙菲,徐烨,张楷,2020. 深海底栖有孔虫在古海洋学研究中的应用. 古生物学报,59(3):347–361.
Zhang, Yi-chun, Aung, Kyi-Pyar, Shen, Shu-zhong, Zhang, Hua, Zaw, Than, Ding, Lin, Cai, Fu-long, Sein, Kyaing, 2020. Middle Permian fusulines from the Thitsipin Formation of Shan State, Myanmar and their palaeobiogeographical and palaeogeographical implications. Papers in Palaeontology, 6(2): 293–327.
Wang, Yue, Zhang, Yi-chun, Zheng, Quan-feng, Tian, Xuesong, Huang, Xing, Luo, Mao, 2020. The early Wuchiapingian (late Permian) fusuline fauna from the Penglaitan Section, South China. Papers in Palaeontology, in press.
Hou, Zhang-shuai, Fan, Jun-xuan, Henderson, Charles M., Yuan, Dong-xun, Shen, Bo-heng, Wu, Jie, Wang, Yue, Zheng, Quan-feng, Zhang, Yi-chun, Wu, Qiong, Shen, Shu-zhong, 2020. Dynamic palaeogeographic reconstructions of the Wuchiapingian Stage (Lopingian, Late Permian) for the South China Block. Palaeogeography, Palaeoclimatology, Palaeoecology, 546: 109667.
Wu, Qiong, Ramezani, Jahandar, Zhang, Hua, Yuan, Dong-xun, Erwin, Douglass H., Henderson, Charles M., Lambert, Lance L., Zhang, Yi-chun, Shen, Shu-zhong, 2020. High-precision U-Pb zircon age constraints on the Guadalupian in West Texas, USA. Palaeogeography, Palaeoclimatology, Palaeoecology, 548: 109668.
Wang, Wen-qian, Garbelli, Claudio, Zhang, Fei-fei, Zheng, Quan-feng, Zhang, Yi-chun, Yuan, Dong-xun, Shi, Yu-kun, Chen, Bo, Shen, Shu-zhong, 2020. A high-resolution Middle to Late Permian paleotemperature curve reconstructed using oxygen isotopes of well-preserved brachiopod shells. Earth and Planetary Science Letters, 540: 116245.
Yuan, Dong-xun, Aung, Kyi-pyar, Henderson, Charles M., Zhang, Yi-chun, Zaw, Than, Cai, Fu-long, Ding, Lin, Shen, Shu-zhong, 2020. First records of Early Permian conodonts from eastern Myanmar and implications of paleobiogeographic links to the Lhasa Block and northwestern Australia. Palaeogeography, Palaeoclimatology, Palaeoecology, 549: 109363.
Fan, Jun-xuan, Shen, Shu-zhong, Erwin, D.H., Sadler, P.M., MacLeod, N., Cheng, Qiu-ming, Hou, Xu-dong, Yang, Jiao, Wang, Xiang-dong, Wang, Yue, Zhang, Hua, Chen, Xu, Li, Guo-xiang, Zhang, Yi-chun, Shi, Yu-kun, Yuan, Dong-xun, Chen, Qin, Zhang, Lin-na, Li, Chao, Zhao, Ying-ying, 2020. A high-resolution summary of Cambrian to Early Triassic marine invertebrate biodiversity. Science, 367: 272–277.
Tang, Q., Pang, K., Yuan, X., Xiao, S. , 2020. A one-billion-year-old multicellular chlorophyte. Nature Ecology & Evolution, 4: 543–549.
Pang, K. #*, Tang, Q. #, Wan, B., Yuan, X.L.* , 2020. New insights on the palaeobiology and biostratigraphy of the acritarch Trachyhystrichosphaera aimika: a potential late Mesoproterozoic to Tonian index fossil. Palaeoworld. in press. doi: 10.1016/j.palwor.2020.1002.1003. (#共同第一作者;*共同通讯作者)
李光金, 陈雷*, 庞科*, 汉春梅, 阳乐, 万斌, 杨锋杰, 2020. 鲁西地区寒武系李官组LA-ICP-MS碎屑锆石U-Pb年龄谱特征及其地质意义. 地层学杂志, in press. doi: 10.19839/j.cnki.dcxzz.2020.0014. (*共同通讯作者)
Li, G#., Chen, L.#*, Pang, K.*, Zhou, G., Han, C., Yang, L., Lv, W., Wu, C., Wang, W., Yang, F. , 2020. An assemblage of macroscopic and diversified carbonaceous compression fossils from the Tonian Shiwangzhuang Formation in western Shandong, North China. Precambrian Research, 346: 105801. (#共同第一作者;*共同通讯作者)
Wan, B., Chen, Z., Yuan, X., Pang, K., Tang, Q., Guan, C., Wang, X., Pandey, S.K., Droser, M.L., Xiao, S, 2020. A tale of three taphonomic modes: the Ediacaran fossil Flabellophyton preserved in limestone, black shale, and sandstone. Gondwana Research, 84: 296–314.
Wang, X., Pang, K.*, Chen, Z.*, Wan, B., Xiao, S., Zhou, C., Yuan, X, 2020. The Ediacaran frondose fossil Arborea from the Shibantan limestone of South China. Journal of Paleontology. in press. (*共同通讯作者)
阳乐, 庞科, 陈雷, 钟振华, 2020. 杨锋杰-湖北保康白竹磷矿埃迪卡拉系陡山沱组微体化石新材料. 微体古生物学报, 37(1): 1–20.
Ye, Q., Tong, J., Pang, K., Tian, L., Hu, J., An, Z, 2020. Fossils or sedimentary structures? Carbonaceous spheroids from the shale of the Cryogenian Nantuo Formation in Shengnongjia area, South China. Precambrian Research, 345: 105759.
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Chen, Zhong-yang, M?nnik, Peep, Wang, Cheng-yuan*, Fang, Xiang, Chen, Ting-en, Ma, Xuan, Zhang, Yuan-dong, 2020. Silurian conodont biostratigraphy of the Laojianshan section, Baoshan, Yunnan Province, SW China. Geological Journal. https://doi.org/10.1002/gj.3813
Liu Jiguo, Cheng Jinhui*, Zhang Guangya, Mao Fengjun, Yang Ning, 2020. Cretaceous dinoflagellate cyst biostratigraphy in the Facai-1 well of the Tenere Graben in eastern Niger, Africa. Journal of African Earth Sciences. DOI: 10.1016/j.jafrearsci.2020.103888.
Li, Baohua. Saren, G., Li, T. ,2020.Planktonic foraminiferal Molecular study from the West Pacific Ocean: taxonomy and paleoceanographic implication. Journal of Oceanology and Limnology, in press.
俞宙菲,李保华*,李宏亮,张静静,陈建芳,2020.现代浮游有孔虫对南海西南部上升流的响应.第四纪研究,40(3): 801-810.
Ladigbolu, I., Li, Hongliang, Li, Baohua, Wiesner, M., Zhang, Jingjing, Sun, Lin, Ran, Lihua, Lu, Shaolei, Ye, Ying, Chen, Jianfang, 2020. Calcification depths and temperatures of planktonic foraminifera off southwest Hainan Island and their paleoceanographic implications. Marine Micropaleontology, in press. doi.org/10.1016/j.marmicro.2020.101878.
Liang, Y., Wang, G.X., Servais, T., Wu, R.C., N?lvak, J., Hints, O., Wei, X., Gong, F.Y., Yan, G.Z. 2020. Age constraints of the Hungshiyhen Formation (Early to Middle Ordovician) on the western margin of the Yangtze Platform, South China: New insights from chitinozoans. Palaeoworld. https://doi.org/10.1016/j.palwor.2019.05.008
Lu, Jian-feng, K?nigshof, Peter, 2020. Eifelian (Middle Devonian) species of Bipennatus from the Beiliu Formation at Nalai, South China. Palaeoworld, in press, https://doi.org/10.1016/j.palwor.2019.12.002.
Lu, Jian-feng, K?nigshof, Peter, 2020. Morphogenetic patterns of the shelf-like protuberance in the late Emsian-early Eifelian polygnathid conodonts. Lethaia, in press, https://doi.org/10.1111/let.12361.
Song, Jun-jun,Shen, Y. X., Tang, P., Zhang, X. L., Li, Q. J., Luo, Z. J., 2020.First record of ostracods from the Upper Ordovician red-coloured marine sandstones of the Tierekeawati Formation in Tarim Basin, NW China: implications on palaeoenvironment and palaeobiogeography. Journal of Palaeogeography, in press. https://doi.org/10.1186/s42501-020-00064-y.
Li, Sha, Wang, Qi-Fei, Zhang, Hai-Chun, Wang, He, Wan, Xiao-Qiao, 2020. Latest Campanian to Maastrichtian charophytes in the Jiaolai Basin (Eastern China). Cretaceous Research,106: 104266.
Li, Sha, Wang, Qifei, Zhang, Haichun, 2020. Charophytes from the Lower Cretaceous Xiagou Formation in the Jiuquan Basin (northwestern China) and their palaeogeographical significance. Cretaceous Research,105: 103940.
Li, Sha, Wang, Qifei, Zhang, Haichun, Zhang, Yiyi, Wan, Xiaoqiao, Martín-Closas, Carles, 2020. Filling a gap in the evolution of charophytes during the Turonian to Santonian: Implications for modern physiognomy. Review of Palaeobotany and Palynology,274: 104154.
Yan, Kui, Servais, T., Shan, Long-long, Li, Jun, 2020. Acritarch assemblages from the Middle– Upper Ordovician in the Aksu area, northwestern margin of the Tarim Basin, Xinjiang, China. Neues Jahrbuch für Geologie und Pal?ontologie, Abhandlungen, 295(2): 169-183.
Navidi-Izad, N., Hashemi, H., Régnier, S., Kroeck, D., Yan, Kui, Servais, T., 2020. Revision of the Middle–Upper Ordovician acritarch genus Orthosphaeridium Eisenack 1968 nov. emend. Review of Palaeobotany and Palynology, 273: 104127.
Mingzhen Zhang,Youhua Zhu*, 2020. Liming Ji, Longhui Dou,Abduljan Zhumahun, Bochao Yuan. Cretaceous Research, 105:1–12.
Pei-Yue Fang, Bo Xu, Lin Mu, You-Hua Zhu, Hui Luo*, 2020. New latest Coniacian to middle Campanian foraminiferal data from thelower Zongshan Formation in the Chaqiela section, Gamba, southern Tibet. Palaeoworld, 29:151–160.
Peiyue Fang, Bo Xu, Brian T. Huber, Shijia Liu, Youhua Zhu, Hui Luo*, 2020.Late Campanian to early Maastrichtian planktonic foraminiferal assemblages from Cretaceous oceanic red beds (CORBs) in the Yongla section, Gyangze, southern Tibet. Micropaleontology, 66(2): 85–102.
Yuan Dong-xun, Kyi Pyar Aung, Henderson C.M., Zhang Yi-chun, Than Zaw, Cai Fulong, Ding Lin, Shen Shu-zhong, 2020. First records of Early Permian conodonts from eastern Myanmar and implications of paleobiogeographic links to the Lhasa Block and northwestern Australia. Palaeogeography, Palaeoclimatology, Palaeoecology, 549: 109363.
2019年:
Yuan Dong-xun, Shen Shu-zhong, Henderson C.M., Chen Jun, Zhang Hua, Zheng Quan-feng, Wu Huaichun, 2019. Integrative timescale for the Lopingian (Late Permian): A review and update from Shangsi, South China. Earth-Science Reviews, 188: 190–209.
Zhang, Yi-chun, Shen, Shu-zhong, Zhang, Yu-jie, Zhu, Tong-xing, An, Xian-yin, Huang, Bo-xin, Ye, Chun-lin, Qiao, Feng, Xu, Hai-peng, 2019. Middle Permian foraminifers from the Zhabuye and Xiadong areas in the central Lhasa Block and their paleobiogeographic implications. Journal of Asian Earth Sciences, 175: 109–120.
张以春,张予杰,袁东勋,徐海鹏,乔枫,2019. 班公湖-怒江洋打开时间的地层古生物约束. 岩石学报,35(10): 3083–3096. (SCI)
张以春,王玥,2019. 西藏普兰县姜叶玛地区中二叠统西兰塔组中的有孔虫及其地质意义. 古生物学报,58(3): 311–323.
琚琦,张以春*,乔枫,徐海鹏,2019. 西藏拉萨地块中部扎布耶茶卡一带中二叠世蜓类动物群及其古生物地理意义. 古生物学报,58(3): 324–341.
张以春,2019. 青藏高原及其邻区古生物学与地层学研究新进展-序言. 古生物学报,58(3): 293–295.
Qiao, Feng, Xu, Hai-peng, Zhang, Yi-chun*, 2019. Changhsingian (Late Permian) foraminifers from the topmost part of the Xiala Formation in the Tsochen area, central Lhasa Block, Tibet and their geological implications. Palaeoworld, 28(3): 303–319.
Rao, Xin, Skelton, Peter W., Sano, Shin-ichi, Zhang, Yi-qiang, Zhang, Yichun, Pan, Yan-hong, Cai, Hua-wei, Peng, Bo, Zhang, Tong, Ma, Zhao-xiong, 2020. Shajia, a new genus of polyconitid rudist from the Langshan formation of the Lhasa block, Tibet, and its palaeogeographical implications. Cretaceous Research, 105:104151
宋俊俊,郭文,郄文昆,张以春,黄家园,王玉珏,2019. 西藏聂拉木晚奥陶世的介形类. 古生物学报,58(3): 296–310.
Shen Shu-zhong, Ramezani, J, Chen, J, Cao, Chang-qun, Erwin, D.H., Zhang, Hua, Xiang, Lei, Schoepfer, S.D., Henderson, C.M., Zheng, Quan-feng, Bowring, S.A., Wang, Yue, Li, X.H., Wang, Xiang-dong, Yuan, Dong-xun, Zhang, Yi-chun, Mu, Lin, Wang, Jun, Wu, Ya-Seng, 2019. A sudden end-Permian mass extinction in South China. GSA Bulletin, 131:205–223.
Wang, Xiao-juan, Wang, Xiang-dong, Zhang, Yi-chun, Cao, Chang-qun, Lee, Dongjin, 2019. Late Permian rugose corals from Gyanyima of Drhada, Tibet (Xizang), Southwest China. Journal of Paleontology, 93(5): 856–875.
Xu, Hai-peng, Zhang, Yi-chun, Qiao, Feng, Shen, Shu-zhong, 2019. A new Changhsingian brachiopod fauna from the Xiala Formation at Tsochen in the central Lhasa Block and its paleogeographical implications. Journal of Paleontology, 93(5): 876–898.
Shen, Shu-zhong, Zhang, Hua, Zhang, Yi-chun, Yuan, Dong-xun, Chen, Bo, He, Wei-hong, Mu, Lin, Lin, Wei, Wang, Wen-qian, Chen, Jun, Wu, Qiong, Cao, Chang-qun, Wang, Yue, Wang, Xiang-dong, 2019. Permian integrative stratigraphy and timescale of China. Science China Earth Sciences, 62(1): 154–188.
沈树忠,张华,张以春,袁东勋,陈波,何卫红,牟林,林巍,王文倩,陈军,吴琼,曹长群,王玥,王向东, 2019. 中国二叠纪综合地层和时间框架. 中国科学:地球科学,49(1): 160–193.
Chen Jitao,Sheng Qingyi, Hu Keyi, Yao Le, Lin Wei, Isabel P. Monta?ez, Tian Xiaoxu, Qi Yuping, Wang Xiangdong. 2019. Late Mississippian glacio-eustasy recorded in the eastern Paleo-Tethys Ocean (South China). Palaeogeography, Palaeoclimatology, Palaeoecology. 531, part B: 108873.
Wang Xiangdong, Hu Keyi, Qie Wenkun, Sheng Qingyi, Chen Bo, Lin Wei, Yao Le, Wang Qiulai, Qi Yuping, Chen Jitao, Liao Zhuoting, Song Junjun. 2019. Carboniferous integrative stratigraphy and time scale of China. Science China Earth Sciences, 62(1):135–153.
王向东, 胡科毅, 郄文昆, 盛青怡, 陈波, 林巍, 要乐, 王秋来, 祁玉平, 陈吉涛, 廖卓庭, 宋俊俊. 2019. 中国石炭纪综合地层和时间框架. 中国科学, 49(1):139–159.
Wan, B., Wang, X., Pang, K., Niu, C., Guan, C., Chen, Z., Yuan, X, 2019. New morphological structures revealing the phylogenetic affinity of problematic fossil chuarids from the early Ediacaran Lantian biota. Acta Geologica Sinica (English Edition), 93: 276–277.
Wan, B., Tang, Q., Pang, K., Wang, X., Bao, Z., Meng, F., Zhou, C., Yuan, X., Hua, H., Xiao, S. , 2019. Repositioning the Great Unconformity at the southeastern margin of the North China Craton. Precambrian Research, 324: 1–17.
Li, G.#, Pang, K.#, Chen, L., Zhou, G., Han, C., Yang, L., Wang, W., Yang, F., Yin, L, 2019. Organic-walled microfossils from the Tonian Tongjiazhuang Formation of the Tumen Group in western Shandong, North China Craton and their biostratigraphic significance. Gondwana Research, 76: 260–289. (#共同第一作者)
周光照, 李光金, 庞科*, 汉春梅, 阳乐, 孙康, 陈雷*, 2019. LA-ICP-MS碎屑锆石U-Pb年龄与微体化石组合对佟家庄组沉积时代的约束. 地层学杂志, 43 (3): 229–242. (*共同通讯作者)
Pang, K.*, Li, G., Chen, L.* , 2019. Organic-walled microfossils from the Lower Neoproterozoic Tongjiazhuang Formation in western Shandong, North China and their biostratigraphic significance. Estudios Geologicos-Madrid, 75: p002 (030–031). (*共同通讯作者)
Wan, B., Tang, Q., Pang, K., Wang, X., Bao, Z., Meng, F., Zhou, C., Yuan, X., Hua, H., Xiao, S. , 2019. The Precambrian-Cambrian boundary at the southeastern margin of the North China Craton. Estudios Geologicos-Madrid, 75: p002 (045).
Ouyang, Q., Zhou, C., Xiao, S., Chen, Z., Shao, Y., 2019, Acanthomorphic acritarchs from the Ediacaran Doushantuo Formation at Zhangcunping in South China, with implications for the evolution of early Ediacaran eukaryotes. Precambrian Research, 320: 171-192.
Chen, Zhong-yang*, M?nnik, Peep, Wang, Xin, Li, Chao, Wang, Jian, 2019. First documentation of Llandovery (Silurian) conodont genus Astropentagnathus in China (Langao, Shaanxi Province) and the age of Baiyaya Formation. Palaeoworld. https://doi.org/10.1016/j.palwor.2019.11.002
Chen, Xu, Chen, Zhong-yang, Mitchell, Charles E., Chen, Qing, Zhang, Lin-na, 2019. A restudy of the Katian (Upper Ordovician) graptolites from the East Qilianshan (Chilianshan), Northwest China. Journal of Paleontology, 93(6): 1175–1209.
Sun, Zong-yuan, Fan, Jun-xuan, Wu, Lei, Chen, Qing, Chen, Zhong-yang, Li, Chao, 2019. Stratigraphy of the Lungmachi black shales from the Huaying drill core in southwestern China and its palaeogeographic implications. Palaeoworld, 28(3): 295–302.
邓怡颖, 汪小发, 张夏冬, 王敬朝, 孙俊杰, 樊隽轩, 史宇坤, 杨娇, 侯旭东, 陈中阳, 2019. 基于iOS的野外露头全景可视化软件GeoPano. 地层学杂志, 43(4): 401–410.
Cheng Jinhui, Zhao Yanjun, Meng Fanwei, 2019. Paleogene organic-walled dinoflagellate cysts in the Shulu Sag, Hebei Province, China. Carbonates and Evaporites, 34(3): 671–677. DOI: 10.1007/s13146-018-0456-8.
Sun Xiaoyan, Cheng Jinhui, 2019. Characterization of the complete mitochondrial genome of Chinese Triops granarius and implications for species delimitation. International Journal of Biological Macromolecules, 135: 734–744. DOI: 10.1016/j.ijbiomac.2019.05.208.
Ladigbolu, I., Li, Bao-Hua, Li, Hong-Liang, Yu, Zhou-Fei, Wiesner, M., Zhang, Jing-Jing, Sun, Lin, Ran, Li-Hua, Ye, Ying, Chen, Jian-fang, 2019. Fluxes and isotopic composition of planktonic foraminifera off HainanIsland, northern South China Sea: Implications for paleoceanographic studies. Palaeoworld. 2019,doi.org/10.1016/j.palwor.2019.07.006.
Jian, Zhimin, Jin, Haiyan, Kaminski, M.A., Ferreira, F., Li, Baohua, Yu, Pai-Sen, 2019. Discovery of the marine Eocene in the northern South China Sea. National Science Review, 6(5): 881–885, https://doi.org/10.1093/nsr/nwz084.
梁艳,栾晓聪. 2019. 湖北兴山古洞口下奥陶统几丁虫. 微体古生物学报36: 328-336.
Liang, Y., Bernardo, J., Goldman, D., N?lvak, J., Tang, P., Wang, W., Hints, O., 2019. Morphological variation suggests that chitinozoans may be fossils of individual microorganisms rather than metazoan eggs. Proceedings of the Royal Society B286, http://dx.doi.org/10.1098/rspb.2019.1270
Liang, Y., Hints, O., Luan, X.C., N?lvak, J., Tang, P., Wu, R.C. 2019. Palaeoenvironmental and biostratigraphical implications of selected Floian and Dapingian (Ordovician) chitinozoans of the South China Palaeoplate. Lethaia52: 220–231.
N?lvak J, Liang Y., Hints O., 2019. Early diversification of Ordovician chitinozoans on Baltica: New data from the J?gala waterfall section, northern Estonia. Palaeogeography, Palaeoclimatology, Palaeoecology 525:14–24.
Lu, Jian-feng, Valenzuela-Ríos, José Ignacio, Liao, Jau-Chyn, Wang, Yi. 2019. Polygnathids (Conodonta) around the Pragian/Emsian boundary from the Dacun-1 section (central Guangxi, South China). Journal of Palaeontology, 93(6): 1210–1220.
Lu, Jian-feng, Valenzuela-Ríos, José Ignacio, Wang, Cheng-yuan, Liao, Jau-Chyn, Wang, Yi. 2019. Emsian (Lower Devonian) conodonts from the Lufengshan section (Guangxi, South China). Palaeobiodiversity and Palaeoenvironments, 99(1): 45–62.
Song, Jun-jun, Crasquin, S., Gong, Y. M., 2019. Late Devonian benthic ostracods from western Junggar, NW China: Implications for palaeoenvironmental reconstruction. Geological Journal, , 54: 91–100.
Song, Jun-jun,Gong, Y. M. 2019.Ostracods from the Devonian-Carboniferous transition in Dushan of Guizhou, South China. Palaeobiodiversity and Palaeoenvironments, 99:117–127.
Song, Jun-jun, Huang, C., Gong, Y. M., 2019. Response of Ostracods (Crustacea) to the Devonian F—F event: Evidence from the Yangdi and Nandong sections in Guangxi, South China. Global and Planetary Change, 173: 109–120.
Song, Jun-jun, Gong, Y. M. 2019. The filter-feeders signal: response of ostracods to marine environmental changes in the Devonian F-F event. Palaeoworld, https://doi.org/10.1016/j.palwor.2019.08.003
Jun-ye Ma*, Paul D. Taylor, Caroline J. Buttler., 2019. Unusual compound zooecia in the trepostome bryozoan Eostenopora from the Devonian of Guizhou, China. Palaeoworld, 28(3): 289–294.
Jun-ye Ma*, Paul D. Taylor, Caroline J. Buttler. 2019. The last known cryptostome bryozoan? Tebitopora from the Tibetan Triassic. In Patrick N. Wyse Jackson & Kamil Zágor?ek (eds) Bryozoan studies 2019. Czech Geological Society, Prague 2019. 85–92.
Chen Dishu, Hui Luo*, Xueheng Wang, Bo Xu, Atsushi Matsuoka,2019. Late Anisian radiolarian assemblages from the Yarlung-Tsangpo Suture Zone in the Jinlu area, Zedong, southern Tibet: Implications for the evolution of Neotethys. Island Arc, 2019:1–10. (SCI, Corresponding author)
Xu, B., Luo, H., Wang, X.H, 2019. New discovery of Early Jurassic radiolarians from Luoqu, Xigaze, southern Tibet and its geological significance. Journal of Asian Earth Sciences, 49–67.
Li, Sha, Wang, Qi-Fei, Zhang, Hai-Chun, Wan, Xiao-Qiao, Martín-Closas, Carles, 2019. Charophytes from the Cretaceous–Paleocene boundary in the Songliao Basin (north-eastern china): A Chinese biozonation and its calibration to the Geomagnetic Polarity Time Scale. Papers in Palaeontology,5(1): 47–81.
单龙龙, 燕夔, 李军, 2019. 疑源类优势属丰度与相对海平面变化. 微体古生物学, 36 (1): 45–56.
Zhang, Yuan-dong, Zhang, Jun-peng, Yan Kui, Fang, Xiang, Li, Wen-jie, Ma, Xuan, Wu, Xue-jin, 2019. Early evolution of marine planktonic and nektonic ecosystems: questions and Chinese approaches. Acta Geologica Sinica (English Edition), 93(supp.1): 169–172.
陈清, 唐鹏, 燕夔, 李越, 2019. 华北板块西缘甘肃平凉上奥陶统平凉组灰岩微相和沉积环境. 微体古生物学报, 36(2): 130–139.
Ismail Adejare Ladigbolu, Bao-Hua Li, Hong-Liang Li, Martin G. Wiesner, Zhou-Fei Yu, Jing-Jing Zhang, Lin Sun, Li-Hua Ran, Ying Ye, Jian-Fang Chen, 2019. Fluxes and isotopic composition of planktonic foraminifera off Hainan Island, northern South China Sea: implications for paleoceanographic studies, Palaeoworld, https://doi.org/10.1016/j.palwor.2019.07.006.
Zhoufei Yu, Yanli Lei, Tiegang Li, Shuai Zhang, Zhifang Xiong, 2019. Mg and Sr uptake in benthic foraminifera Ammonia aomoriensis based on culture and field studies, Palaeogeography, Palaeoclimatology, Palaeoecology, 520: 229–239.
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2018年:
安显银,张予杰,朱同兴,张以春,袁东勋,2018. 西藏色龙西山二叠系-三叠系界线剖面稳定碳同位素特征. 地球科学,43(8): 2848–2857.
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Xu, Hai-peng, Cao, Chang-qun, Yuan, Dong-xun, Zhang, Yi-chun, Shen, Shu-zhong, 2018. Lopingian (Late Permian) brachiopod faunas from the Qubuerga Formation at Tulong and Kujianla in the Mt. Everest area of southern Tibet, China. Rivista Italiana di Paleontologia e Stratigrafia, 124(1): 139–162.
Zhang, Yi-chun, Wang, Yue, 2018. Permian fusuline biostratigraphy. Geological Society, London, Special Publication. 450: 253–288.
Pang, K., Tang, Q., Chen, L., Wan, B., Niu, C., Yuan, X., Xiao, S., 2018. Nitrogen-fixing heterocystous cyanobacteria in the Tonian Period. Current Biology, 28, 616–622.
Jian, Z., Larsen, H.C., Alvarez Zarikian, C.A., and the Expedition 368 Scientists, 2018. Expedition 368 Preliminary Report: South China Sea Rifted Margin. International Ocean Discovery Program. https://doi.org/10.14379/iodp.pr.368.2018.
H. C. Larsen, G. Mohn, M. Nirrengarten, Z. Sun, J. Stock, Z. Jian, A. Klaus, C. A. Alvarez-Zarikian, J. Boaga, S. A. Bowden, A. Briais, Y. Chen, D. Cukur, K. Dadd, W. Ding, M. Dorais, E. C. Ferré, F. Ferreira, A. Furusawa, A. Gewecke, J. Hinojosa, T. W. H?fig, K. H. Hsiung, B. Huang, E. Huang, X. L. Huang, S. Jiang, H. Jin, B. G. Johnson, R. M. Kurzawski, C. Lei, B. Li, L. Li, Y. Li, J. Lin, C. Liu, C. Liu, Z. Liu, A. J. Luna, C. Lupi, A. McCarthy, L. Ningthoujam, N. Osono, D. W. Peate, P. Persaud, N. Qiu, C. Robinson, S. Satolli, I. Sauermilch, J. C. Schindlbeck, S. Skinner, S. Straub, X. Su, C. Su, L. Tian, F. M. van der Zwan, S. Wan, H. Wu, R. Xiang, R. Yadav, L. Yi, P. S. Yu, C. Zhang, J. Zhang, Y. Zhang, N. Zhao, G. Zhong and L. Zhong. 2018. Rapid transition from continental breakup to igneous oceanic crust in the South China Sea. Nature Geoscience. DOI: https://doi.org/10.1038/s41561-018-0198-1.
王晓燕,李保华*,郭启梅,钟石兰,2018.宁波北仑中晚全新世有孔虫群落变化及古环境意义.古生物学报,57(1): 119–124.
Sheng Qingyi, Wang Xiangdong, Paul Brenckle, Brian T. Huber. 2018. Serpukhovian (Mississippian) foraminiferal zones from the Fenghuangshan section, Anhui Province, South China: implications for biostratigraphic correlations. Geological Journal, 53: 45–57.
Liang, Y., Hints, O., Luan, X.C., Tang, P., N?lvak, J., Zhan, R.B. 2018. Lower and Middle Ordovician chitinozoans from Honghuayuan, South China: biodiversity patterns and response to environmental changes. Palaeogeography, Palaeoclimatology, Palaeoecology, 500: 95–105.
Song, Jun-jun, Crasquin, S.,Gong, Y. M., 2018, Ostracods (Crustacea) as shelf to basin indicators: evidence from Late Devonian Yangdi and Nandong sections in Guangxi, South China, Journal of Micropalaeotology, 37: 257–281.
Song, Jun-jun, Gong, Y. M., 2018. Wangshangkia, a new Devonian ostracod genus from Dushan of Guizhou. Journal of Micropalaeotology, 37: 341–346.
Min Zhang, Feng-Sheng Xia, Paul D. Taylor, Kun Liang, Jun-Ye Ma*., 2018. Upper Ordovician bryozoans from the Xiazhen Formation of Yushan, northeastern Jiangxi, East China. Palaeoworld,37(3): 343–359.
张照,罗辉*,张元动,2018. 江苏仑山地区和湖北宜昌地区上奥陶统五峰组放射虫动物群。微体古生物学报,35(2): 170–180.
周志澄,罗辉*,许波,Willems H., 2018. 四川广安谢家槽下三叠统夜郎组底部凝块岩中疑似的蓝细菌化石及蓝细菌生物膜. 古生物学报,57(3): 356–371.
Servais, T., Molyneux, S. G., Li, Jun, Nowak, H., Rubinstein, C. V., Vecoli, M., Wang, Wen-hui, Yan, Kui, 2018. First Appearance Datums (FADs) of selected acritarch taxa and correlation between Lower and Middle Ordovician stages. Lethaia, 51: 228–253.
燕夔, 李军, 单龙龙, 2018. 新疆塔里木盆地西北缘晚奥陶世疑源类.微体古生物学报, 35(4): 381–392.
Zhao-Liang Ma, Qian-Yu Li, Xin-Yu Liu, Wei Luo, Dao-Jun Zhang, You-Hua Zhu*, 2018. Palaeoenvironmental significance of Miocene larger benthic foraminifera from the Xisha Islands, South China Sea. Palaeoworld, 27:145–157.
Liang Yi, Zhimin Jian, Xinyu Liu, Youhua Zhu, Daojun Zhang, Zhenfeng Wang, Chenglong Deng, 2018. Astronomical tuning and magnetostratigraphy of Neogene biogenic reefs in Xisha Islands, South China Sea. Science Bulletin,63:564–573.
Yuan Dong-xun, Zhang Yi-chun, Shen Shu-zhong, 2018. Conodont succession and reassessment of major events around the Permian-Triassic boundary at the Selong Xishan section, southern Tibet, China. Global and Planetary Change, 161: 194–210.
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