代表论著:
1) 栾晓聪,刘建波,詹仁斌,吴荣昌. 2015. 安徽南部下、中奥陶统紫台组沉积微相与海平面变化. 古地理学报 17(2): 249-264.
2) Luan Xiaocong, Carlton E. Brett, Zhan Renbin, Liu Jianbo, Wu Rongchang, Liang Yan. 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, 68-83.
3) Luan Xiaocong, Carlton E. Brett, Zhan Renbin, Jin Jisuo, Wu Rongchang, Gong Fangyi. 2018. Middle-Late Ordovician iron-rich nodules on Yangtze Platform, South China and their palaeoenvironmental implications. Lethaia 51(4), 523-536.
4) Luan Xiaocong, Wu Rongchang, Zhan Renbin, Liu Jianbo. 2019. The Zitai Formation in South China: unique deeper-water marine red beds in terms of lithology, distribution and13Ccarb chemostratigraphy. Palaeoworld 28(1-2): 198-210.
5) Zhan Renbin, Luan Xiaocong, Huang Bing, Liang Yan, Wang Guangxu,Wang Yi. 2014. Darriwilian Saucrorthis Fauna: Implications for the great Ordovician biodiversification event (GOBE). Estonian Journal of Earth Sciences, 63(4): 323-328.
6) Zhan Renbin, Jin Jisuo, Liu Jianbo, Corcoran P., Luan Xiaocong, Wei Xin. 2016. Meganodular limestone of the Pagoda Formation: A time-specific carbonate facies in the Upper Ordovician of South China[J]. Palaeogeography, Palaeoclimatology, Palaeoecology 448: 349–362.
7) 王怿,戎嘉余,詹仁斌,黄冰,吴荣昌,栾晓聪. 2014. 四川南部布拖地区志留系的新研究[J]. 地层学杂志 38(3): 257-267.
8) 戎嘉余,詹仁斌,王怿,黄冰,唐鹏,栾晓聪. 2015. 东秦岭淅川奥陶纪、志留纪地层的新观察[J]. 地层学杂志 39(1): 381-395.
9) 梁艳, 唐鹏, 吴荣昌, 栾晓聪, 詹仁斌. 2015. 湖北宜昌中-上奥陶统庙坡组几丁虫生物地层. 地层学杂志 39(2): 17-30.
10) 龚方怡,吴荣昌,詹仁斌,栾晓聪. 2017. 安徽石台地区上奥陶统稳定碳同位素地层研究及其意义. 地层学杂志 41(4): 401-410.
11) Wang Guangxu, Zhan Renbin, Rong Jiayu, Huang Bing, Ian G. Percival, Luan Xiaocong, Wei Xin. 2018. Exploring the end-Ordovician extinctions in Hirnantian near-shore carbonate rocks of northern Guizhou, SW China: A refined stratigraphy and regional correlation. Geological Journal DOI: 10.1002/gj.3140.
12) Liang Yan, Hints Olle, Luan Xiaocong, Tang Peng, N?lvak Jaak, Zhan Renbin. 2018. Lower and Middle Ordovician chitinozoans from Honghuayuan, South China: biodiversity patterns and response to environmental changes. Palaeogeography, Palaeoclimatology, Palaeoecology 500: 95-105.
13) 吴荣昌, 黄冰, 王光旭, 魏鑫, 詹仁斌, 唐鹏, 栾晓聪, 张雨晨. 2018. 鄂西北竹溪地区志留系竹溪组. 地层学杂志 42(3): 243-256.
14) Liang Yan, Hints Olle, Thomas Servais, Luan Xiaocong, Jaak N?lvak, Tang Peng, Wu Rongchang. 2019. Palaeoenvironmental and biostratigraphic implications of selected Floian and Dapingian (Ordovician) chitinozoans of South China. Lethaia 52: 220-231.
15) Huang Bing, Harper David A. T., Zhou Hanghang, Zhan Renbin, Wang Yi, Tang Peng, Ma Junye, Wang Guangxu, Chen Di, Zhang Yuchen, Luan Xiaocong, Rong Jiayu. 2019. A new Cathaysiorthis (brachiopoda) fauna from the lower Llandovery of eastern qinling, China. Papers in Palaeontology DOI: 10.1002/spp2.1253.
16) Zhang Yuchen, Sporat Colin D., Zhan Renbin, Zhang Weimin, Luan Xiaocong, Huang Bing. 2019. Refining the croft parallel grinder for acetate peel serial sectioning and virtual paleontology. Palaios 34(5):248-253.
17) 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(4): 328-336.
18) 任建国, 陈曦, 初航, 严兆彬, 何雨江, 罗情勇, 栾晓聪. 2019. 2019年度地质科学领域基金项目评审与成果分析. 地球科学进展 34(11): 1175-1178.
19) Zhang Yuchen, Luan Xiaocong, Zhan Renbin, Sproat Colin D., Huang Bing, 2020. Early parasitic drilling in a rhynchonelliform brachiopod Rongatrypa xichuanensis from the Katian (Upper Ordovician) of central China. Journal of Palaeontology. 1-8. doi:10.1017/jpa.2019.102.
20) WANG Guangxu, WEI Xin, LUAN Xiaocong, WU Rongchang, Ian G. PERCIVAL, ZHAN Renbin. 2020. Constraining the onset of Silurian biotic recovery following the end-Ordovician mass extinction: Insights from the δ13C chemostratigraphy in the Huangjiaba of Meitan, northern Guizhou, SW China. Geological Journal. doi.org/10.1002/gj.3816.
21) Wu Rongchang, Liu Jianbo, Calner Mikael, Gong Fangyi, Lehnert Oliver, Luan Xiaocong, Li Lixia, Zhan Renbin. 2020. High-resolution carbon isotope stratigraphy of the Lower and Middle Ordovician succession of the Yangtze Platform, China: Implications for global correlation. Journal of Geological Society 177 (3): 537–549