1.Zhang X., Liu J., Wang Y., Rong J., Zhan R., Xu H., Tang, P., 2018. Onset of the middle Telychian (Silurian) clastic marine red beds on the western Yangtze Platform, South China. Palaeogeography, Palaeoclimatology, Palaeoecology 497, 52-65.
2.Ezaki Y, Liu J, Adachi N, Yan Z. 2017. Microbialite development during the protracted inhibition of skeletal-dominated reefs in the Zhangxia Formation (Cambrian Series 3) in Shandong Province, North China. Palaios, 32 (9): 559-571. (SCI) (41272035, 41290260, 41530103)
3.Liang Y, Servais T, Tang P, Liu J, Wang W. 2017. Tremadocian (Early Ordovician) chitinozoan biostratigraphy of South China: An update. Review of Palaeobotany and Palynology, 247(Supplement C): 149-163.
4.Adachi N, Asada Y, Ezaki Y, Liu J. 2017. Stromatolites near the Permian–Triassic boundary in Chongyang, Hubei Province, South China: A geobiological window into palaeo-oceanic fluctuations following the end-Permian extinction. Palaeogeography, Palaeoclimatology, Palaeoecology, 475(Supplement C): 55-69.
5.Luan X, Brett C, Zhan R, Liu J, Wu R, Liang Y., 2017. Microfacies analysis of the Lower-Middle Ordovician succession at Xiangshuidong, southwestern Hubei Province, and the drowning and shelf-ramp transition of a carbonate platform in the Yangtze region. Palaeogeography, Palaeoclimatology, Palaeoecology, 485(Supplement C): 68-83.
6.Yan Z, Liu J-B*, Sun Y-L, Wang H-F, Huang B-Q. 2017. Sedimentary characteristics and origins of Late Pennsylvanian–Early Permian carbonate mud-mounds at the Shangdan section, Inner Mongolia. Palaeoworld, 26(4): 612-630.
7.Yan Z, Liu J*, Ezaki Y, Adachi N, and Du S. 2017. Stacking patterns and growth models of multiscopic structures within Cambrian Series 3 thrombolites at the Jiulongshan section, Shandong Province, northern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 474, 45-57.
8.唐鵬, 黃冰, 吳榮昌, 樊隽軒, 燕夔, 王光旭, 劉建波, 王怿, 詹仁斌, 戎嘉餘. 2017. 論上揚子區上奧陶統大渡河組. 地層學雜志, 41(2): 119-133.
9.孫永超, 劉建波*. 2017. 華南上揚子區奧陶紀特馬豆克階的海平面變化. beat365學報(自然科學版), 53(1): 66-80.
10.闫振, 劉建波. 2016. 灰泥丘研究綜述: 基于内蒙古石炭紀—二疊紀灰泥丘的思考. 地層學雜志, 40(4): 429-438.
11.孫永超, 劉建波*, 李家騰. 淺議上揚子區下奧陶統桐梓組. 地層學雜志, 40(4): 411-419.
12.孫永超, 劉建波. 紋層狀細粒碳酸鹽岩成因: 以早奧陶世上揚子區習水吼灘剖面為例. 古地理學報, 17(5): 743-758.
13.Xue J., Deng Z., Huang P, Huang K, Benton M. J., Cui Y., Wang D., Liu J., Shen B., Basinger J. F., and Hao S., 2016. Belowground rhizomes in paleosols: The hidden half of an Early Devonian vascular plant. Proceedings of the National Academy of Sciences 113(34): 9451-9456.
14.Wu R, and Stouge S, Zhan R, Liu J, and Liang Y. 2016. Conodont faunal dynamics across the Middle and Upper Ordovician boundary in the Yichang area, western Hubei Province, South China. Canadian Journal of Earth Science, 53(8): 856-864. Doi: 10.1139/cjes-2015-0217
15.Zhan R, Jin J, Liu J, Corcoran P, Luan X, and Wei X. 2016. Meganodular limestone of the Pagoda Formation: A time-specific carbonate facies in the Upper Ordovician of South China: Palaeogeography, Palaeoclimatology, Palaeoecology, 448: 349-362. doi:10.1016/j.palaeo.2015.07.039.
16.Dong, X-p, Vargas, K., Cunningham, J. A., Zhang, H., Liu, T., Chen, F., Liu, J., Bengtson, S., and Donoghue, P. C.J.*, 2016. Developmental biology of the Early Cambrian cnidarian Olivooides. Palaeontology, 59(3): 387-407.
17.李家騰,劉建波,孫永超,闫振,吳榮昌,詹仁斌. 2016. 華南下揚子區下奧陶統侖山組:岩石學、地層學和古地理學. 古地理學報, 18(3): 411-423.
2015
18.景宇軒,劉建波*,闫振,孫永超,許振清. 2015. 利用風暴沉積類型恢複海平面變化:以北京西山下葦甸剖面中晚寒武世風暴沉積為例. 古地理學報, 17(5): 653-668.
14.Adachi N, Kotani A, Nakai T, Ezaki Y, Liu J.2015. Cambrian Series 3 lithistid sponge–microbial reefs in Shandong Province, North China: Reef development after the disappearance of archaeocyaths. Lethaia, 48(3): 405-416.
19.栾曉聰,劉建波,詹仁斌,吳榮昌. 2015. 安徽南部下、中奧陶統紫台組碳酸鹽岩微相與海平面變化. 古地理學報, 17(2) :249-264.
2014
20.Adachi N, Ezaki Y, Liu J. 2014. The late early Cambrian microbial reefs immediately after the demise of archaeocyathan reefs, Hunan Province, South China: Palaeogeography, Palaeoclimatology, Palaeoecology, 407, 45-55.
21.Adachi N, Nakai T, Ezaki Y, Liu J. 2014. Late Early Cambrian archaeocyath reefs in Hubei Province, South China: modes of construction during their period of demise: Facies, 60(2): 703-717.
22.丁娜,劉建波*,詹仁斌. 2014. 奧陶紀棘皮動物骨骼地球化學特征指示古海水Mg/Ca比的可靠性分析. 科學通報, 59, (10): 924-935.
23.Zhan, R., Huang, B., Wang, G., Jin, J., Liang, Y., Wang, Y., Zhang, Y., Li, R., Liu, J., and Wu, R., 2014, Discovery of the late Middle Ordovician Saucrorthis fauna (Brachiopoda) from the Sibumasu palaeoplate, western Yunnan, SW China: GFF, v. 136, no. 1, p. 320-326.
20.Zhan R, Harper D A T, Jin J, Liang Y, Liu J, Stemmerik L, and Stouge S. 2014. Middle Ordovician Aporthophyla brachiopod fauna from the roof of the World, southern Tibet: Palaeontology, 57(1): 141-170. DOI: 10.1111/pala.12058.
21.Jing H, Lai X, Sun Y, Wignall P B, Liu J, Yan C. 2014. Permian-Triassic conodonts from Dajiang (Guizhou, South China) and their implication for the age of microbialite deposition in the aftermath of the end-Permian mass extinction. Journal of Earth Science, 25(3): 413-430. (SCI)
2013
22.劉建波,楊守仁,薛進莊,馬學平,孫作玉. 2013. 古生物與沉積環境. 見:馮增昭等(主編),中國沉積學(第二版). 北京:石油工業出版社,1227-1305.
23.Liu Jianbo, Yang Shouren, Xue Jinzhuang, Ma Xueping, Sun Zuoyu, 2013. Chapter 20 Palaeontology and sedimentary environments. In: Chinese Sedimentology (2nd Version). Petroleum Industry Publishing House, Beijing, p. 1227-1305.
24. Adachi, N., Liu, J., and Ezaki, Y., 2013, Early Ordovician reefs in South China (Chenjiahe section, Hubei Province): deciphering the early evolution of skeletal-dominated reefs: Facies, 59(2): 411-466.
25. 廖翰卿, 劉建波*, 吳榮昌, 孫永超, 詹仁斌. 2013. 華南上揚子區下奧陶統紅花園組頂界的穿時性. 古生物學報, 52(1): 15-31.
26. 袁鑫鵬,劉建波*. 2013. 湖北興山古洞口剖面中—上寒武統白雲岩特征及其古環境意義. 古地理學報, 15(3): 363~382.
27. 詹仁斌,靳吉鎖,劉建波. 2013. 奧陶紀生物大輻射研究:回顧與展望. 科學通報, 58(33): 3357-3371. DOI: 10.1360/972013-19.
28. Liu J, Sun Y, Zhan R., and Jing Y. 2013. Decrease in carbonate accumulation rate in Early Ordovician in south China: Insights into paleoceanographic changes. In A. Lindskog and K. Mehlqvist (eds.): Proceedings of the 3rd IGCP 591 Annual Meeting — Lund, Sweden, 9—19 June 2013, 194-195. Lund University.
29. 王光旭,詹仁斌,鄧占球,劉建波. 2013. 川東華蓥山志留紀蘭多維列世中期珊瑚群集及其意義. 中國科學 地球科學, 2013, 43(9): 1456-1463.
30. Wang G, Zhan R, Deng Z, Liu J. 2013. Paleoecological associations of middle Llandovery (Silurian) corals from Huaying Mountain, eastern Sichuan Province. Science China Earth Sciences, 56(4): 640-646.
31. Dong, X.-P., Cunningham, J. A., Bengtson, S., Thomas, C.-W., Liu, J., Stampanoni, M., and Donoghue, P. C. J., 2013, Embryos, polyps and medusae of the Early Cambrian scyphozoan Olivooides: Proceedings of the Royal Society B: Biological Sciences, v. 280, no. 1757, p. doi:10.1098/rspb.2013.0071
2012
32. Fang L, Liu J*, and Zhan R. 2012. Temporal distribution of piperocks in Cambrian and Ordovician: A coevolutionary process with changes of paleoenvironment. SCIENCE CHINA Earth Sciences, 55(1): 26-38.
房亮, 劉建波*, 詹仁斌. 2012. 寒武紀—奧陶紀管狀岩的盛衰及其與環境演化的協同. 中國科學:地球科學,42(1): 117-129.
33. 王海峰, 劉建波*, 江崎洋一. 2012. 貴州羅甸大文二疊-三疊系界線剖面海平面變化及其全球對比. beat365學報(自然科學版), 48(4): 589-602.
34. 袁鑫鵬,劉建波*. 2012. 回流滲透模式白雲岩的研究曆史與進展. 古地理學報, 14(2): 219-228.
35. 吳榮昌,詹仁斌,劉建波,王光旭,2012. 淺論揚子台地邊緣地區奧陶系大坪階底界的識别. 微體古生物學報,29(4): 352-357.
36. Adachi, N., Liu, J., Ezaki, Y., 2012. Early Ordovician stromatoporoid Pulchrilamina spinosa from South China: Geobiological significance and implications for the early development of skeletal-dominated reefs. Paleontological Research, 16(1): 59-69.
37. Adachi, N., Ezaki, Y., Liu, J., 2012. The oldest bryozoan reefs: a unique Early Ordovician skeletal framework construction. Lethaia, 45(1): 14-23.
38. Donovan S.K., Harper D.A.T., Zhan R, Stemmerik L., Liu J., Stouge S. 2012. A primitive cladid crinoid from the Jiacun Group, Tibet (Darriwilian, Middle Ordovician). Geological Journal, 47(6), 653-660.
39. Ezaki Y., Liu J.B., Adachi N. 2012. Lower Triassic stromatolites in Luodian County, Guizhou Province, South China: evidence for the protracted devastation of the marine environments. Geobiology, 10(1): 48-59.
40. Fang L, Liu J*, and Zhan R. 2012. Temporal distribution of piperocks in Cambrian and Ordovician: A coevolutionary process with changes of paleoenvironment. SCIENCE CHINA Earth Sciences, 55(1): 26-38.
41. Ezaki Y., Liu J.B., Adachi N. 2012. Lower Triassic stromatolites in Luodian County, Guizhou Province, South China: evidence for the protracted devastation of the marine environments. Geobiology, 10(1): 48-59.
2011
42. Liu J, Zhan R, Dai X, Liao H, Ezaki Y, and Adachi N. 2011. Demise of Early Ordovician oolites in South China: Evidence for paleoceanographic changes before the GOBE. In: Gutiérrez-Marco, JC, Rábano I, and García-Bellido, D. (eds.), Ordovician of the World. Cuadernos del Museo Geominero, 14. Instituto Geológico y Minero de España, Madrid, p. 309-317.
43. Zhan R, Liu J*, Liang Y, and Li G. 2011. α- and β-diversity change of Late Ordovician Hirnantia fauna of Changning, Sichuan, SW China. Acta Geologica Sinica, 84(2): 330–339.
44. 戎嘉餘, 陳旭, 王怿, 詹仁斌, 劉建波, 黃冰, 唐鵬, 吳榮昌, 王光旭. 2011. 奧陶-志留紀之交黔中古陸的北擴: 證據與啟示. 中國科學: 地球科學, 41(10): 1407-1415.
45. 侯鴻飛, 周懷玲, 劉建波. 2011. 湖南台地泥盆紀末絕滅事件後的微生物沉積. 地質學報, 85(1): 145-456.
46. Harper DAT, Zhan R, Stemmerik L, Liu J, Donovan SK, and Stouge S. 2011. Ordovician on the roof of the World: Macro- and microfaunas from tropical carbonates in Tibet. In: Gutiérrez-Marco JC, Rábano I, and García-Bellido D. (eds.), Ordovician of the World. Cuadernos del Museo Geominero, 14. Instituto Geológico y Minero de España, Madrid, p. 215-220.
47. Adachi N, Ezaki Y, and Liu J. 2011. Early Ordovician shift in reef construction from microbial to metazoan reefs. Palaios, 26(2): 106-114.
48. Adachi N, Ezaki Y, Liu J, and Cao J. 2011. Lower Ordovician stromatolites from the Anhui Province of South China: construction and geobiological significance. In: Advances in Stromatolite Geobiology. Reitner, J., Quéric, N.-V., Arp, G. eds., Lecture Notes in Earth Sciences (Springer). v. 131, p. 443-452.
Before 2011
49. Liu J, Ezaki Y, Adachi N, and Zhan R. 2010. Evidence for decoupling of relative abundance and biodiversity of marine organisms in initial stage of GOBE: A preliminary study on Lower Ordovician shellbeds of South China. Journal of Earth Science, 21(Special Issue): 44–48.
50. Liu J, and Zhan R, 2009. Temporal distribution of diagnostic biofabrics in the Lower and Middle Ordovician in North China: Clues to the geobiology of the Great Ordovician Biodiversification Event. Acta Geologica Sinica, 83(3): 801-811.
51. Liu J. 2009. Marine sedimentary response to the Great Ordovician Biodiversification Event: Examples from North China and South China. Paleontological Research, 13(1): 9-21.
52. 劉建波, 江崎洋一, 楊守仁, 王海峰, 足立奈津子. 2007. 貴州羅甸二疊紀末生物大滅絕事件後沉積的微生物岩的時代和沉積學特征. 古地理學報, 9(5): 473-486.
53. 劉建波,2006.華南早—中奧陶世生物大輻射期間的海平面變化.見:戎嘉餘主編,生物的起源、輻射與生物多樣性演變——華夏化石記錄的啟示.北京:科學出版社,335~360,875-877.
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