樊隽轩

来源:地科系日期:2026-06-03点击:8277

已发表190余篇期刊论文与专著(含合作),包括Science(2篇)、PNAS(1篇)、Science Advances(2篇)、Nature Communications(1篇)、Earth and Planetary Science Letters(3篇)、Earth-Science Reviews(10篇)、科学通报(4篇)等著名学术期刊或专业领域顶刊;开发软件二十余项。2017年以来发表学术论著96篇,其中SCI论文70篇。

1. 深时生命演化

- Lu, Z. B.1, Xue, K.1, Deng, Y. Y.1, Fan, J. X.*, Fang, P. Y., Wade, B. S., Alegret, L., Benton, M. J., Wu, Y. C., Qian, C.*, Hou, X. D., Shi, Y. K.*, Sadler, P. M., Xu, H. Q., Zhou, Z. H., Shen, S. Z. 2026. Complex marine ecological response during the Eocene-Oligocene revealed by global foraminiferal record. Nature Communications. https://doi.org/10.1038/s41467-026-70541-w

- 文蝶,樊隽轩*, 2026。深时视角下的纬度多样性梯度:机制与挑战。科学通报https://doi.org/10.1360/CSB-2025-5676

- Shi, Y. J., Shi, Y. K.*, Yang, A. H.*, Huang, H. H., Deng, Y. Y., Lu, Z. B., Zhou, X. H., Cui, Y. C., Yuan, J. L., Fan, J. X., 2026. Miaolingian-Furongian (Cambrian) high-resolution marine species richness patterns of the North China Block. Global and Planetary Change, 259: 105346. https://doi.org/10.1016/j.gloplacha.2026.105346

 - Stephenson, M. H., Shen, S. Z., Fan, J. X., Hu, L. S., Qi, J., 2026. Effect of steep climate gradient on palynological assemblages on the Arabian part of the Tethys shore in two Carboniferous-Permian ice age time slices. Review of Palaeobotany and Palynology, 344(2026): 105448. https://doi.org/10.1016/j.revpalbo.2025.105448

- Zhang, S. H.1, Zhao, Y. Y. 1, Shi, Y. K.*, Fang, Q., Wang, X. D., Fan, J. X., Zhang, Y. C., Yuan, D. X., Wang, Y., Zhang, F. F., Wu, H. C., Erwin, D. H., Marshall, C. R., Shen, S. Z.* 2025. Global cooling drove diversification and warming caused extinction among Carboniferous-Permian fusuline foraminifera. Science Advances, 11(25): eadv2549. https://doi.org/10.1126/sciadv.adv2549

- Benson, R. B. J.*, Close, R. A.*, Antell, G. T., Whittaker, R. J., Valdes, P., Farnsworth, A., Lunt, D. J., Shen, S. Z., Fan, J. X., Saupe, E. E., 2025. Marine animal diversity across latitudinal and temperature gradients during the Phanerozoic. Palaeontology, 68(3):e70006 https://doi.org/10.1111/pala.70006

- Tang, Q.*, Zheng, W. T., Zhang, S. H., Fan, J. X., Riedman, L. A., Hou, X. D., Muscente, A. D., Bykova, N., Sadler, P. M., Wang, X. D., Zhang, F. F., Yuan, X. L., Zhou, C. M., Wan, B., Pang, K.*, Ouyang, Q., McKenzie, R., Zhao, G. C., Shen, S. Z.*, Xiao, S. H.*, 2024. Quantifying the global biodiversity of Proterozoic eukaryotes. Science, 386: eadm9137. 

- 张书涵,沈树忠*,王向东,张华,樊隽轩,2024。重建深时地球生物多样性时空分布。科学通报,69(22):3252-3267。

- Deng, Y. Y., Fan, J. X.*, Yang, S. C., Shi, Y. K., Lu, Z. B., Xu, H. Q., Sun, Z. Y., Zhao, F. Q., Hou, Z. S., 2023. No Furongian Biodiversity Gap: Evidence from South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 618: 111492 https://doi.org/10.1016/j.palaeo.2023.111492

- 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. https://doi.org/10.1016/j.earscirev.2021.103743

- Shi, Y. K.*, Wang, X. D., Fan, J. X., Huang, H., Xu, H. Q., Zhao, Y. Y., Shen, S. Z. 2021. Carboniferous-earliest Permian marine evolutionary biodiversification event (CPBE) during the Late Paleozoic Ice Age. Earth-Science Reviews, 220: 103699. https://doi.org/10.1016/j.earscirev.2021.103699 

- Zhang, S. H.*, Fan, J.X., Morgan, C.A., Henderson, C.M., Shen, S.Z.*, 2021. Quantifying the middle–late Cambrian trilobite diversity pattern in South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 570: 110361. https://doi.org/10.1016/j.palaeo.2021.110361

Fan, J.X., Shen, S.Z.*, Erwin, D.H., Sadler, P.M., MacLeod, N., Cheng, Q.M., Hou, X.D., Yang, J., Wang, X.D., Wang, Y., Zhang, H., Chen, X., Li, G.X., Zhang, Y.C., Shi, Y.K., Yuan, D.X., Chen, Q., Zhang, L.N., Li, C., Zhao, Y.Y., 2020. A high-resolution summary of Cambrian to Early Triassic marine invertebrate biodiversity. Science, 367: 272–277. https://doi.org/10.1126/science.aax4953


2. 地质历史中重大生物事件的环境控制机制

- Yang, S.C., Algeo, T.J., Servais, T., Martin, R.E., Harper, D.A.T., Marshall, C.R., Deng, Y.Y., Sun, Z.Y., Lu, Z.B., Cao, J., Li, C., Shen, S.Z., Montañez, I.P.*, Fan, J.X.*, 2026. Co-evolution of marine ecosystems and nutrient cycles during the Great Ordovician Biodiversification Event. Earth and Planetary Science Letters, 686, 120043. https://doi.org/10.1016/j.epsl.2026.120043 

- Yang, S. C.*, Fan, J. X.*, Li, C., Lin, Y.B., Deng, Y.Y., Sun, Z.Y., Cao, J., Shen, S.Z., 2026. Enhanced marine primary productivity during the long-term Ordovician cooling: A barium isotope perspective from South China. Earth and Planetary Science Letters, 675, 119783. https://doi.org/10.1016/j.epsl.2025.119783

Yang, S. C.*, Fan, J. X.*, 2025. Decreased marine organic carbon burial during the Hirnantian glaciation. Earth and Planetary Science Letters, 654: 119240. https://doi.org/10.1016/j.epsl.2025.119240

- Yang, S. C., Fan, J. X.*, Rasmussen, C. M., Wang, X. L., Sun, Z. Y., Deng, Y. Y., 2024. Globally synchronous meteorite rain during the Middle Ordovician. Palaeogeography, Palaeoclimatology, Palaeoecology, 655, 112550. 

- Yang, S. C., Fan, J. X.*, Algeo, T. J., Shields, G. A., Zhou, Y., Li, C.*, Chen, J. T., Li, W. Q., Li, N., Cao, J., Zhang, L. N., Sun, Z. Y., Shen, S. Z. 2024. Steep oceanic DIC δ13C depth gradient during the Hirnantian Glaciation. Earth-Science Reviews, 255 (2024) 104840. https://doi.org/10.1016/j.earscirev.2024.104840 

- Sun, Z. Y., Zhao, F. Q., Melchin, M. J., Fan, J. X.*, Zhang, B. L., Jin, X., Zhang, Z. H., Yang, S. C., Chen, Q., Deng, Y. Y., Zhang, L. N. 2023. A high-resolution record of the late Hirnantian to Aeronian marine redox change in South China and its relationship with the record of graptolite biodiversity. Palaeogeography, Palaeoclimatology, Palaeoecology, 629: 111793. https://doi.org/10.1016/j.palaeo.2023.111793

- Fang, Q., Wu, H. C.*, Shen, S. Z., Fan, J. X., Hinnov, L. A., Yuan, D. X., Ren, C. Z., Zhou, M. Y., Zhang, S. H., Yang, T. S., Zhang, Y. F., Chen, J., Wu, Q., Liu, M. K., 2023. Long-period astronomical forcing of climatic and biological evolution during the late Paleozoic icehouse-to-greenhouse transition. Earth-Science Reviews, 240: 104402. https://doi.org/10.1016/j.earscirev.2023.104402

- Liu, Y., Li, Y. C., Hou, M. C., Shen, J., Algeo, T. J., Fan, J. X., Zhou, X. L., Chen, Q., Sun, Z. Y., Li, C., 2023. Terrestrial rather than volcanic mercury inputs to the Yangtze Platform (South China) during the Ordovician-Silurian transition. Global and Planetary Change, 104023. https://doi.org/10.1016/j.gloplacha.2022.104023

 - Fang, Q., Wu, H. C., Shen, S. Z., Fan, J. X., Hinnov, L. A., Yuan, D. X., Zhang, S. H., Yang, T. S., Chen, J., Wu, Q. 2022. Astronomically paced climate evolution during the Late Paleozoic icehouse-to-greenhouse transition. Global and Planetary Change, 213: 103822. https://doi.org/10.1016/j.gloplacha.2022.103822

- Lv, Y.W., Liu, S.A.*, Wu, H.C., Sun, Z.Y., Li, C., Fan, J.X., 2022. Enhanced organic carbon burial intensified the end-Ordovician glaciation. Geochemical Perspectives Letters, 21: 13-17.

- Chen, J.T.*, Montañez, I.P.*, Zhang, S., Isson, T.T. Macarewich, S.I., Planavsky, N.J., Zhang, F.F., Rauzi, S., Daviau, K., Yao, L., Qi, Y.P., Wang, Y., Fan, J.X., Poulsen, C.J., Anbar, A.D., Shen, S.Z., Wang, X.D.*, 2022. Marine anoxia linked to abrupt global warming during Earth's penultimate icehouse. PNAS, 119(19): e2115231119. https://doi.org/10.1073/pnas.2115231119

- Yang, S. C., Hu, W. X.*, Fan, J. X., Deng, Y. Y., 2022. New geochemical identification fingerprints of volcanism during the Ordovician-Silurian transition and its implications for biological and environmental evolution. Earth-Science Reviews, 228: 104016.

- Jiang, L., Cai, C.F., Xiang, L., Fan, J.X., Li, K.K., Cai, L.L., Algeo, T.J., Zhang, F.F., 2022. Kerogen-specific isotope variations during the end-Permian mass extinction in South China. Earth-Science Reviews, 226: 103912. https://doi.org/10.1016/j.earscirev.2021.103912

- Yang, S. C., Hu, W. X., Wang, X. L., Fan, J. X., 2021. Nitrogen isotope evidence for a redox-stratified ocean and eustasy-driven environmental evolution during the Ordovician–Silurian transition. Global and Planetary Change, 207: 103682. https://doi.org/10.1016/j.gloplacha.2021.103682.

- Li, C., Zhang, J. P., Li, W. J., Botting, J., Chen, Q., Fan, J. X., Zhang, Y. D., 2021. Multiple glacio-eustatic cycles and associated environmental changes through the Hirnantian (Late Ordovician) in South China. Global and Planetary Change, 207: 103668.

- Li, N., Li, C., Algeo, T. J., Cheng, M., Jin, C.S., Zhu, G.Y., Fan, J.X., Sun, Z.Y., 2021. Redox changes in the outer Yangtze Sea (South China) through the Hirnantian Glaciation and their implications for the end-Ordovician biocrisis. Earth-Science Reviews, 212: 103443. https://doi.org/10.1016/j.earscirev.2020.103443 

- Liu, Y., Li, C., Fan, J.X., Peng, P.A., Algeo, T.J., 2020. Elevated marine productivity triggered nitrogen limitation on the Yangtze Platform (South China) during the Ordovician-Silurian transition. Palaeogeography, Palaeoclimatology, Palaeoecology, 554: 109833. https://doi.org/10.1016/j.palaeo.2020.109833 

- Na Li, Chao Li*, Junxuan Fan, Thomas J. Algeo, Detian Yan, Guangyou Zhu, Shiyong Wu, Shida Tang, Meng Cheng, Chengsheng Jin, 2019. Sulfate-controlled marine euxinia in the semi-restricted inner Yangtze Sea (South China) during the Ordovician-Silurian transition. Palaeogeography, Palaeoclimatology, Palaeoecology, 534: 109281.

- Zhanhong Liu, Thomas J. Algeo*, Xusheng Guo, Junxuan Fan*, Xuebin Du, Yongchao Lu, 2017. Paleo-environmental cyclicity in the Early Silurian Yangtze Sea (South China): Tectonic or glacio-eustatic control? Palaeogeography, Palaeoclimatology, Palaeoecology, 466: 59-76.https://doi.org/10.1016/j.palaeo.2016.11.007


3. 地质历史中长尺度气候与环境演化

Xia, Z. G.1, Li, S. L.1, Hu, Z. Y., Bialik, O., Chen, T. Y., Weldeghebriel, M. F., Fan, Q. S., Fan, J. X., Wang, X. D., An, S. C., Zhang, F. F., Xu, H. R., Chen, J. Y., Ji, Z. H., Shen, S. Z., Lowenstein, T. K.*, Li, W. Q.*, 2024. The evolution of Earth’s surficial Mg cycle over the past 2 billion years. Science Advances, 10(9): eadj5474.


4. 地学大数据、全球平台、知识图谱、数据挖掘

- Stephenson, M. H., Shen, C., Shen, S. Z., Carniti, A. P., Fan, J. X., Yang, J. X., Ye, J. P., in press. Large language models in palynological taxonomy: a pilot study. Palynology, 2547645. https://doi.org/10.1080/01916122.2025.2547645

 - Dong, S. C.*, Shi, Y. K.*, Ran, Y. Z., Wu, H. J., Deng, Y. Y., Fan, J. X., Dai, X. Y., 2024. Biological classification system knowledge graph and semi-automatic construction of its invertebrate fossil branches. Journal of Earth Science, 35(6): 2119-2128. https://doi.org/10.1007/s12583-023-1941-y

- Deng, Y. Y., Song, S. C., Fan, J.X.*, Luo, M., Yao, L., Dong, S. C.*, Shi, Y. K., Zhang, L. N., Wang, Y., Xu, H. P., Xu, H. Q., Zhao, Y. Y., Pan, Z. H., Hou, Z. S., Li, X. M., Shen, B. H., Chen, X. R., Zhang, S. H., Wu, X. J., Xing, L. D., Liang, Q. Q., Wang, E. Z., 2024. Paleontology knowledge graph for data-driven discovery. Journal of Earth Science, 35(3): 1024-1034. https://doi.org/10.1007/s12583-023-1943-9

- Zhang, L. N.*, Hou, Z. S., Shen, B. H., Chen, Q., Dong, S. C., Fan, J.X.*, 2023. Paleobiogeographic knowledge graph: an ongoing work with fundamental support for future research. Journal of Earth Science, 34(5): 1339-1349. https://doi.org/10.1007/s12583-023-1845-z

- Xu, H. Q., Zhao Y. Y., Huang, H.*, Dong, S. C., Shi, Y. K., Fan, J.X.*, 2023. A comprehensive construction of the domain ontology for stratigraphy. Geoscience Frontiers, 101461.

https://doi.org/10.1016/j.gsf.2022.101461

- Wang, C. S.*, Hazen, R. M., Cheng, Q. M., Stephenson, M. H., Zhou, C.H., Fox, P., Shen, S. Z., Oberhänsli, R., Hou, Z. Q., Ma, X. G., Feng, Z. Q., Fan, J. X., Ma, C., Hu, X. M., Luo, B., Wang, J. L., Schiffries, C. M., 2021. The Deep-time Digital Earth program: data-driven discovery in geosciences. National Science Review, 8(9): nwab027. https://doi.org/10.1093/nsr/nwab027 

- 周成虎,王华,王成善,侯增谦,郑志明,沈树忠,成秋明,冯志强,王新兵,闾海荣,樊隽轩,胡修棉,侯明才,诸云强,2021。大数据时代的地学知识图谱研究。中国科学 地球科学,51(7):1070-1079。doi: 10.1360/SSTe-2020-0337。

- 文蝶,黄浩,史宇坤*,杨孙容,杨娇,王媛,侯旭东,樊隽轩,2021。地球科学大数据的管理与共享:以英国地质调查局为例。高校地质学报,27(1):45-57。DOI: 10.16108/j.issn1006-7493.2020098

- Stephenson, M.H., Cheng Q.M., Wang C.S., Fan J.X., Oberhänsli, R., 2020. Progress towards the establishment of the IUGS Deep-time Digital Earth (DDE) programme. Episodes, 43(4): 1057-1062. https://doi.org/10.18814/epiiugs/2020/020057 

- 鲁铮博,史宇坤*,华洪,拓守廷,叶训焱,邓怡颖,樊隽轩,2020。国际大洋科学钻探的数据资源与共享现状。高校地质学报,26(4):472-480。

- 邓怡颖,樊隽轩*,王玥,史宇坤,杨娇,鲁铮博,2020。古生物学数据库现状与数据驱动下的科学研究。高校地质学报,26(4):361-383。

- 齐浩,董少春*,张丽丽,胡欢,樊隽轩,2020。地球科学知识图谱的构建与展望。高校地质学报,26(1):2-11。


5. 化石图像数据库与图像识别

- Hou, C. B.1, Lin, X. Y. 1, Huang, H. H. 1, Xu, S., Fan, J. X., Shi, Y. K.*, Lv, H. R.*, 2023. Fossil image identification using deep learning ensembles of data augmented multiviews. Methods in Ecology and Evolution, 14(12): 3020-3034. http://dx.doi.org/10.1111/2041-210X.14229

- Huang, H. H., Shi, Y. K.*, Chen, Q.(陈秦), Xu, H. Q., Song, S. C., Shi, Y. J., Shen, F. R., Fan, J. X. 2023. An image dataset of fusulinid foraminifera generated with the aid of deep learning. Geoscience Data Journal. https://doi.org/10.1002/gdj3.215


6. 定量地层学与地质时间轴


- 彭英鋆, 王媛, 王婷婷, 俞露, 郑宇微, 樊隽轩*. 2026. 基于定量地层学方法构建晚古生代陆相地层对比框架——以中国蕨类植物化石研究为例. 地层学杂志.

Lu, Z. B., Fan, J. X.*, Wade, B. S., Pearson, P. N., Shi, Y. K., Qian, C., Xue, K., Yang, J., Shi, Y. J., Lai, M. C., 2026. Graph-Optimized Graphic Correlation: an automated framework for combining stratigraphical data. Lethaia, 60(1): 1-16. https://doi.org/10.18261/let.60.1.3.

- Chu, T. Y.1, Huang, H. H.1, Fan, J. X.*, Deng, Y. Y., Xu, T., Qian, C., Xue, K., Sheets, H. D., Stephenson, M. H., Shi, Y. K., Hou, X. D., 2025. HORSE: Harmonize regional and global stratigraphic records through horizon sequencing. Palaeogeography, Palaeoclimatology, Palaeoecology, 670: 112976. https://doi.org/10.1016/j.palaeo.2025.112976

- Lu, Z. B., Fan, J. X.*, Wade, B. S., Ogg, J., Alegret, L., Sadler, P. M., Stephenson, M. H., Shi, Y. K., Qian, C., Xue, K., Fang, P. Y., 2025. Improving the temporal resolution of middle Eocene–late Oligocene foraminiferal biomagneto-chronology: Insights from CONOP and chronologic significance of biotic events. Palaeogeography, Palaeoclimatology, Palaeoecology, 669: 112929. https://doi.org/10.1016/j.palaeo.2025.112929

- 沈树忠,樊隽轩,王向东,张飞飞,史宇坤,张书涵,2022. 如何打造高精度地质时间轴?地球科学4710):1-5


7. 系统古生物学与地层学

- Shen, H. X.1, Xu, Q.1, Yuan, W. W.*, Peng, Y. J., Fan, J. X.*, 2026. Systematics and quantitative morphometrics of Ordovician trilobites from the Qilian Mountains, North China: New species and palaeobiogeographic Implications. Palaeoworld, 201052. https://doi.org/10.1016/j.palwor.2025.201052

- Sun, Z. Y.*, Štorch, P., Fan, J. X.*, Melchin, M. J., Suyarkova, A., 2022. Lower Aeronian (Llandovery, Silurian) graptolites of the genera Rastrites and Stavrites: systematics, biostratigraphy and palaeobiogeography. Papers in Palaeontology, e1429. DOI: 10.1002/spp2.1429

- Chen, Z.Y., Männik, 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. https://doi.org/10.1007/s12583-020-1350-6 

- Wang, X.D.*, Hu, K.Y.*, Shi, Y.K.*, Chen, J.T., Yang, S.R., Ye, X.Y., Li, X.M., Song, Y.F, Chen, B., Sheng, Q.Y., Chang, X.L., Zhang, Y.C., Fan, J.X., Shen, S.Z., 2021. The missing upper Carboniferous in the Cimmerian Continent: A critical review. Earth-Science Reviews, 217: 103627. https://doi.org/10.1016/j.earscirev.2021.103627 

- Shen, S.Z.*, Yuan, D.X.*, Henderson, C.M., Wu, Q., Zhang, Y.C., Zhang, H., Mu, L., Ramezani, J., Wang, X.D., Lambert L.L., Erwin, D.H., Hearst, J.M., Xiang, L., Chen, B., Fan, J.X., Wang, Y., Wang, W.Q., Qi, Y.P., Chen, J., Qie, W.K., Wang, T.T., 2020. Progress, problems and prospects: An overview of the Guadalupian Series of South China and North America. Earth-Science Reviews, 211: 103412. https://doi.org/10.1016/j.earscirev.2020.103412 

- Zhong, Y.Y., Wu, H.C., Fan, J.X., Fang, Q., Shi, M.N., Zhang, S.H., Yang, T.S., Li, H.Y., Cao, L.W., 2020. Late Ordovician obliquity-forced glacio-eustasy recorded in the Yangtze Block, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 540, 109520. https://doi.org/10.1016/j.palaeo.2019.109520.

- 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. https://doi.org/10.1016/j.palwor.2019.01.001


8. 国际年代地层表与全球界线层型

- 樊隽轩*,王向东,陈中强,侯旭东,沈树忠,2021. 国际地层委员会动态与《国际年代地层表》(2021/07版). 地层学杂志, 45(3):460-466.


9. 区域与全球古地理重建

- Zhang, L. N.*, Fan, J. X.*, Wang, B., Zhang, Y. D., Liu, J. B., Huang, H., Chen, Q., 2023. Quantitative paleogeographic reconstruction and Ordovician basin evolution of South China. Earth-Science Reviews241: 104400. https://doi.org/10.1016/j.earscirev.2023.104400

- Hou, Z. S., Shen, S. Z., Henderson, C. M., Yuan, D. X., Zhang, Y. C., Fan, J. X., 2023. Cisuralian (Early Permian) Paleogeographic Evolution of South China Block and Sea-Level Changes: Implications for the Global Artinskian Warming Event. Palaeogeography, Palaeoclimatology, Palaeoecology, 111395. https://doi.org/10.1016/j.palaeo.2023.111395

- Hou, Z.S., Fan, J.X., Henderson, C.M., Yuan, D.X., Shen, B.H., Wu, J., Wang, Y., Zheng, Q.F., Zhang, Y.C., Wu, Q., Shen, S.Z.*, 2020. Dynamic paleogeographic reconstructions of the Wuchiapingian Stage (Lopingian, Late Permian) for the South China Block. Palaeogeography, Palaeoclimatology, Palaeoecology, 546: 109667. https://doi.org/10.1016/j.palaeo.2020.109667 

- 侯章帅,樊隽轩,张琳娜,沈树忠,2020。全球古地理重建模型的构建方法、比较与知识发现。高校地质学报,26(1):86-99。

- 陈清, 樊隽轩, 张琳娜, 陈旭, 2018. 下扬子区奥陶纪晚期古地理演变及华南“台-坡-盆”格局的打破. 中国科学: 地球科学, 48(6), 767-777.


10. 奥陶-志留系黑色页岩

- Sun, Z. Y., Chen, H., Lang, X. G., Zhang, B. L., Chen, Q., Zhao, K., Zhu, S. X., Zhao, F. Q., Liang, F., Liu, C. Y., Fan, J. X.*, 2025. Mechanisms for initiation and termination of extraordinarily high total organic carbon in the Longmaxi Formation, Yangtze Platform, South China. Marine and Petroleum Geology, 182: 107588. https://doi.org/10.1016/j.marpetgeo.2025.107588

 - Sun, Z. Y., Chen, H., Lang, X. G., Zhang, B. L., Chen, Q., Zhao, K., Zhu, S. X., Zhao, F. Q., Liang, F., Liu, C. Y., Fan, J. X.*, 2025. Mechanisms for initiation and termination of extraordinarily high total organic carbon in the Longmaxi Formation, Yangtze Platform, South China. Marine and Petroleum Geology, 182: 107588.

- Sun, Z. Y.*, Melchin, M. J., Štorch, P., Chen, Q., Zhao, F.Q., Fan, J. X.*, 2024. High-resolution integrated stratigraphy of Upper Ordovician to lower Silurian strata: applications to black shale drill cores in South China. Newsletters on Stratigraphy, 57(4): 445-474.

- 武学进, 陈清, 李关访, 樊隽轩, 李超, 张元动, 王媛, 杨娇, 孙宗元. 2020. 黔北习科1井五峰组-龙马溪组黑色页岩的地层划分与对比. 地层学杂志, 44(1): 1-11.

- 李超, 武学进, 樊隽轩*, 陈清, 李关访, 孙宗元, 张元动, 2019. 贵州习科1井奥陶–志留系之交的碳同位素化学地层学. 地球化学, 48(6): 533-543.

- 陈旭, 樊隽轩, 王文卉, 王红岩, 聂海宽, 石学文, 文治东, 陈冬阳, 李文杰, 2017. 黔渝地区志留系龙马溪组黑色笔石页岩的阶段性渐进展布模式. 中国科学:地球科学, 47(6): 720-732.



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