(2026-06-03)
姓名:程猛
职称:研究员 硕导/博导
电子邮箱:mengcheng@cdut.edu.cn
研究室:古海洋古气候研究室
个人简介:程猛,男,地球化学博士,中共党员,成都理工大学沉积地质研究院研究员,博士研究生导师,四川省青年科技人才。致力于探索地球早期(寒武纪及之前)表生系统的状态、演化及其与生命的关系,尤其是地球不同圈层间的作用与反馈机制。累计在Nature、NC、GCA、EPSL、Geology、ESR等国际著名期刊等发表研究论文超过60篇;总引用超过2700次(Google学术,截至2026年5月)。最新信息见:https://sgbg.cdut.edu.cn/info/1089/1302.htm。
学历和工作背景:
2015/09-2015/12,亚利桑那州立大学(访问博士)
2013/09-2016/06,中国地质大学(武汉),博士
2010/09-2013/06,中国地质大学(武汉),硕士
2006/09-2010/06,中国地质大学(武汉),学士
2022/05-今,成都理工大学沉积地质研究院,研究员
2019/12-2022/04,中国地质大学(武汉)生物地质与环境地质国家重点实验室,副研究员
2016/11-2019/11,中国地质大学(武汉)生物地质与环境地质国家重点实验室,助理研究员
主要研究领域:新元古代至寒武纪生命与环境协同演化的过程和机制,在该时期:岩石圈发生了罗迪尼亚超大陆裂解和冈瓦纳超大陆的聚合,生物圈发生了动物的起源和早期演化,大气圈发生了地球历史上第二次大氧化事件,水圈发生了海洋氧化程度的显著增加,此外还有碳循环的异常扰动和雪球地球极端气候。我的工作和兴趣所在就是通过地球化学的手段(尤其是非传统稳定同位素)来精细的解剖这些事件发生的过程、机制和相互作用,以此对人类认知的边界贡献一点点扩展。
主持/参与科研项目:
[6]硫化物锌同位素重建寒武纪早期海洋生产力,自然科学基金面上项目,2026.01-2029.12,主持。
[5]新元古代和古生代之交地球—生命系统演变,科技部重点研发计划项目,2022/12-2027/11,参与;
[4]地质历史时期最大碳同位素负偏事件的钼同位素研究,自然科学基金面上项目,2021/01-2024/12,主持;
[3]钼-铀同位素对埃迪卡拉纪早期(~630Ma)海洋氧化程度的定量约束,青年科学基金,2018/1-2020/12,主持;
[2]元古宙重大生物-环境事件,中国科学院战略性先导科技专项(B类)子课题,2018-2022,参与;
[1]元古宙-显生宙转折期地球系统的剧烈波动与生物圈恢复力,自然科学基金国际(中英)合作项目,2017/1—2020/12,参与。
发表论文(*为通讯作者)
第一/通讯作者
[19]Meng Cheng*, Junpeng Zhang*, James D. Schiffbauer, Zihu Zhang, Haiyang Wang, Mengcun Cao, Na Li, Matthew S. Dodd, Mikaela A. Pulsipher, Thomas J. Algeo, Mingcai Hou, Chao Li*. 2026. Enhanced oceanic phosphorus recycling during the Cambrian SPICE event.Geology, 54(5): 387-392.
[18] Yonghan Fan,Meng Cheng*, Xinyang Chen*, Catherine Rose, Haiyang Wang, Zihu Zhang, Thomas J. Algeo, Chao Li*. 2026. Carbonate-associated phosphate evidence for a small inorganic phosphorus reservoir in the terminal Ediacaran Ocean.Global Planet Change,105284.
[17] Jinzuo Tong,Meng Cheng*, Jun Hu, Xinyang Chen, Haiyang Wang, Thomas J. Algeo, Mingcai Hou and Chao Li. 2025. Zinc isotopic evidence for enhanced oceanic primary productivity during termination of the late Ediacaran Shuram Excursion.Geochim Cosmochim Acta405, 66–79.
[16]Meng Cheng*, Eva E. Stüeken*, Zongjun Yin*, Thomas J. Algeo*, and Chao Li*, 2025. Editorial preface to special issue: Life and environments in transition: The Neoproterozoic-early Paleozoic world.Global Planet Change253, 104980.
[15] Meng Cheng (程猛)*, Zihu Zhang, Jun Hu*, Haiyang Wang, Mengchun Cao, Chao Li, 2025. Reconciling redox proxy contradiction with active Fe-Mn shuttle in the Cryogenian Nanhua Basin of South China. Palaeogeogr.Palaeoclimatol. Palaeoecol.667, 112899.
[14] Meng Cheng (程猛), Wei Wei, Xinyang Chen, Haiyang Wang, Lianjun Feng, Zhenbing She, Yong Fu, Thomas J Algeo, Fang Huang*, Chao Li*. 2024. Active methane release from the early Cambrian seafloor? Clues from Ba isotopes.Palaeogeography, Palaeoclimatology, Palaeoecology653, 112399.
[13] Zihu Zhang, Meng Cheng*, Haiyang Wang, Xinyang Chen, Wei Guo, Chao Li*. 2023. Spatiotemporal variation of dissolved oxygen in the Ediacaran surface ocean and its implication for Ediacaran oceanic carbon cycling.Science China Earth Sciences66(8): 1892-1905.
[12]张子虎,程猛*,王海洋,陈欣阳,郭伟,李超*. 2023.埃迪卡拉纪海洋表层溶解氧含量的时空波动及其对海洋碳循环扰动的启示.中国科学地球科学53(8):1913-1926.
[11] Meng Cheng*, Zihu Zhang, Chengsheng Jin, Wei Wei, Haiyang Wang, Thomas J. Algeo, & Chao Li*. 2023. Salinity variation and hydrographic dynamics in the early Cambrian Nanhua Basin (South China).Science China Earth Sciences66[6): 1268–1278.
[10]程猛*,张子虎,金承胜,魏巍,王海洋,Thomas J. Algeo,李超*. 2023.寒武纪早期南华盆地盐度及水文动力学过程重建.中国科学地球科学53(6): 1273-1284.
[9] Kaiqi Huang, Meng Cheng*, Thomas J. Algeo, Jun Hu, Haiyang Wang, Zihu Zhang, Matthew S. Dodd, Yan Wu, Wei Guo, Chao Li*. 2022. Interaction of Shibantan Biota and environment in the terminal Ediacaran ocean: Evidence from I/(Ca+Mg) and sulfur isotopes.Precambrian Research379, 106814.
[8] Meng Cheng (程猛), Haiyang Wang, Chao Li*, Genming Luo, Junhua Huang, Zhenbing She, Lidan Lei, Guang Ouyang, Zihu Zhang, Matthew S.Dodd, Thomas J.Algeo. 2022. Barite in the Ediacaran Doushantuo Formation and its implications for marine carbon cycling during the largest negative carbon isotope excursion in Earth’s history.Precambrian Research368: 106485.
[7] Meng Cheng, Zihu Zhang, Thomas J. Algeo, Shuliang Liu, Xiaodan Liu, Haiyang Wang, Biao Chang, Chengsheng Jin, Wen Pan, Mengchun Cao, Chao Li*. 2021. Hydrological controls on marine chemistry in the Cryogenian Nanhua Basin (South China).Earth-Science Reviews218:103678.
[6] Meng Cheng, Chao Li*, Chengsheng Jin, Haiyang Wang, Thomas J. Algeo, Timothy W. Lyons, Feifei Zhang, and Ariel Anbar. 2020. Evidence for high organic carbon export to the early Cambrian seafloor.Geochimica et Cosmochimica Acta287: 125-140.
[5] Meng Cheng, Chao Li*, Xi Chen, Lian Zhou, Thomas Algeo, Lian-Jun Feng and Hong-Fei Ling. 2018. Delayed Neoproterozoic oceanic oxygenation: Evidence from Mo isotopes of the Cryogenian Datangpo Formation.Precambrian Research319: 187-197.
[4] Meng Cheng, Chao Li*, Lian Zhou, LianJun Feng, Thomas J. Algeo, FeiFei Zhang, Stephen Romaniello, ChengSheng Jin, HongFei Ling and ShaoYong Jiang. 2017. Transient deep-water oxygenation in the early Cambrian Nanhua Basin, South China.Geochimica et Cosmochimica Acta201: 42-58.
[3] Meng Cheng, Chao Li*, Lian Zhou, Thomas J. Algeo, Feifei Zhang, Stephen Romaniello, Cheng-Sheng Jin, Li-Dan Lei, Lian-Jun Feng, Shao-Yong Jiang. 2016. Marine Mo biogeochemistry in the context of dynamically euxinic mid-depth waters: A case study of the lower Cambrian Niutitang shales, South China.Geochimica et Cosmochimica Acta183: 79-93.
[2]程猛,李超*,周炼,谢树成. 2015.钼海洋地球化学与古海洋化学重建.中国科学:地球科学45(11): 1649-1660.
[1] Meng Cheng, Chao Li*, Lian Zhou and Shu-Cheng Xie. 2015. Mo marine geochemistry and reconstruction of ancient ocean redox states.Science China Earth Sciences58(12): 2123-2133.
共同作者
[43] Wei Wang, Chao Li, Matthew S. Dodd, Hao Xu,Meng Cheng, Zihu Zhang, Chunxia Yang, Jun Hu, Haiyang Wang, Xinyang Chen, Adrian Immenhauser. 2026. Carbonate-associated fluorescent dissolved organic matter (CAFDOM): Establishing a new proxy for dissolved organic matter in ancient oceans.Geochimica et Cosmochimica Acta. In press.
[42] Úna C. Farrell ......Meng Cheng (程猛)......Erik A. Sperling.2026. The sedimentary geochemistry and paleoenvironments project phase 2 data release: An open data resource for the study of Earth's environmental history.Chemical Geology, 123311.
[41]梁艳哲,张子虎*,程猛,陈欣阳,李超.2025.陆地化学风化与寒武纪大爆发:来自华南的启示.地球化学,出版中.
[40]夏芝广*,程猛,陈欣阳,李超*. 2025.古盐度指标:进展与挑战.沉积学报, 43(5): 1758-1779.
[39] Haiyang Wang, Chao Li, Yongbo Peng, Junpeng Zhang,Meng Cheng, Xiaobin Cao, Wenkun Qie, Zihu Zhang, Matthew S Dodd, Mingcai Hou, Malcolm Wallace, Ashleigh v. S. Hood, Timothy W Lyons, Huiming Bao. 2025. Two-billion-year transitional oxygenation of the Earth’s surface.Nature, 1-7.
[38] Zhanhong Liu, Thomas J Algeo, Jochen J Brocks, Lennart M van Maldegem, Geoffrey J Gilleaudeau, Linda C Kah,Meng Cheng, Wenchao Yu. 2025. Salinity reconstruction in Proterozoic depositional systems.Geological Society of America Bulletin, 137(1-2): 447-464.
[37] Chengsheng Jin, Zihu Zhang,Meng Cheng, Guochang Wang, Huajin Chang, Zhengqi Cao, Tao Zhang. 2024. Reduction in Marine Primary Productivity in the Early Cambrian Nanhua Basin, South China.ACS omega, 9(18): 19892-19903.
[36] Haodong Gu, Jun Hu,Meng Cheng, Haiyang Wang, Matthew S Dodd, Zihu Zhang, Thomas J Algeo, Chao Li. 2024. Heterogeneous coupling of δ13Corgand δ13Ccarbduring the Shuram Excursion: Implications for a large dissolved organic carbon reservoir in the Ediacaran ocean.Global and Planetary Change, 239, 104466.
[35] Richard Stockey, ……,Meng Cheng, ……, Erik Sperling. 2024. Sustained increases in atmospheric oxygen and marine productivity in the Neoproterozoic and Palaeozoic eras.Nature Geoscience, 17(7): 667-674.
[34] Kenan Cao, Zhenbing She, Qun Chen, Liangxuan Jiao, Qian Xiao,Meng Cheng, Zihu Zhang, Genming Luo, Dominic Papineau. 2024. Dolostone-barite-phosphorite sequence in the basal Doushantuo Formation: Origin and implications for post-Marinoan ocean chemistry and phosphogenesis.Palaeogeography, Palaeoclimatology, Palaeoecology, 651, 112400.
[33] Wei, W., Yu, W., Du, Y., Algeo, T.J., Li, Z.,Cheng, Meng, Wang, P., Zhang, J., Robbins, L.J., Konhauser, K., 2024. A new salinity-based model for Cryogenian Mn-carbonate deposits.Precambr Res403, 107309.
[32]金承胜,崔豪,程猛,张子虎,常华进,张弢,曹正琦.2023.华南寒武纪早期海水氧化还原状态对动物演化的影响.地球科学,49(10): 3674-3684。
[31]胡军,程猛,陈欣阳,叶琴,安志辉,李超.2023.新元古代极端冰期事件中生物避难所的环境条件.地质学报97(9): 3075-3086.
[30] Haiyang Wang, Yongbo Peng, Chao Li, Xiaobin Cao,Meng Cheng, Huiming Bao. 2023. Sulfate triple-oxygen-isotope evidence confirming oceanic oxygenation 570 million years ago.Nat Commun14, 4315.
[29] Matthew S. Dodd, Wei Shi, Chao Li, Zihu Zhang,Meng Cheng, Haodong Gu, Dalton S. Hardisty, Sean J. Loyd, Malcolm W. Wallace, Ashleigh vS. Hood, Kelsey Lamothe, Benjamin J. W. Mills, Simon W. Poulton & Timothy W. Lyons. 2023. Uncovering the Ediacaran phosphorus cycle.Nature618(7967): 974-980.
[28] Wei Wang, Chao Li *, Dodd M.S., Algeo T.J., Zihu Zhang,Meng Cheng, Mingcai Hou. 2023. A DOM regulation model for dolomite versus calcite precipitation in the Ediacaran ocean: Implications for the “dolomite problem”.Precambrian Research. 385, 106947.
[27] Haiyang Wang, Chao Li,Meng Cheng, Zihu Zhang, Thomas J. Algeo, 2022. Redbed formation in the redox-stratified mid-Proterozoic ocean.Precambrian Research. 379, 106815.
[26] Wei Shi, Benjamin JW Mills, Chao Li*, Simon W Poulton, Alexander J Krause, Tianchen He, Ying Zhou,Meng Cheng, Graham A Shields. 2022. Decoupled oxygenation of the Ediacaran ocean and atmosphere during the rise of early animals.Earth and Planetary Science Letters. 591: 117619.
[25] Na Li, Feifei Zhang*, Jianhua Gao, Mengchun Cao, Guang-Yi Wei, Haiyang Wang, Zihu Zhang,Meng Cheng, Guolin Xiong, Jianlin Zhou, Hua Zhang, Yongbo Peng, Chao Li, Shu-Zhong Shen. 2022. Assessing bulk carbonates as archives for seawater sulfur isotopic composition using shallow water cores from the South China Sea.Palaeogeography, Palaeoclimatology, Palaeoecology. 598: 111029.
[24] Biao Chang, Chao Li*, Thomas J. Algeo, Timothy W. Lyons, Wei Shi,Meng Cheng, Genming Luo, Zhenbing She, Shucheng Xie, Jinnan Tong, Maoyan Zhu, Junhua Huang*, Ian Foster, Aradhna Tripati. 2022. A∼60-Ma-long, high-resolution record of Ediacaran paleotemperature.Science Bulletin. 67(9): 910-913.
[23] Úna C. Farrell……Meng Cheng……Erik A. Sperling*. 2021. The Sedimentary Geochemistry and Paleoenvironments Project.Geobiology. DOI: 10.1111/gbi.12462.
[22] Wen Pan, Mengchun Cao*, Yuansheng Du,Meng Cheng, Yao-Qi Zhou, Thomas J. Algeo, Ming-Yu Zhao, Nicolas Thibault, Chao Li, Guang-Yi Wei, Tais W.Dahl. 2021. Paired U and Mo isotope evidence for pervasive anoxia in the Cryogenian early interglacial ocean.Precambrian Research. 355: 106244.
[21] Zhu, G.*, Li, T., Zhao, K., Li, C.,Cheng, Meng, Chen, W. Yan, H., Zhao, Z. & Algeo, T. J. 2021. Mo isotope records from Lower Cambrian black shales, northwestern Tarim Basin (China): Implications for the early Cambrian ocean.GSA Bulletin. 134(1-2): 545-556.
[20] Chengsheng Jin, Chao Li*, Thomas J Algeo, Guochang Wang, Wei Shi,Meng Cheng, Zihu Zhang, Haiyang Wang, Na Li, Wei Wang. 2021. Spatial heterogeneity of redox-sensitive trace-metal enrichments in upper Ediacaran anoxic black shales.Journal of the Geological Society. 178(5): jgs2020-234.
[19] Haiyang Wang, Aoran Liu, Chao Li*, Qinglai Feng, Shida Tang,Meng Cheng, Thomas J. Algeo. 2021. A benthic oxygen oasis in the early Neoproterozoic ocean.Precambrian Research.355, 106085
[18] Na Li, Chao Li*, Thomas J. Algeo,Meng Cheng, Chengsheng Jin, Guangyou Zhu Junxuan Fan, Zongyuan Sun. 2020. 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.
[17] Chao Li*, Wei Shi,Meng Cheng, Chengsheng Jin, Thomas J Algeo. 2020. The redox structure of Ediacaran and early Cambrian oceans and its controls.Science Bulletin. 65(24): 2141-2149.
[16] Chao Li*, Zihu Zhang, Chengsheng Jin,Meng Cheng, Haiyang Wang, Junhua Huang, and Thomas J. Algeo. 2020. Spatiotemporal evolution and causes of marine euxinia in the early Cambrian Nanhua Basin (South China).Palaeogeogr. Palaeoclimatol. Palaeoecol. 546,, 109676.
[15] Wang Haiyang, Zihu Zhang, Chao Li*, Thomas J. Algeo,Meng Chengand Wei Wang. 2020. Spatiotemporal redox heterogeneity and transient marine shelf oxygenation in the Mesoproterozoic ocean.Geochimica et Coschimica Acta. 270, 201-217.
[14] Jin, C., Li, C.*, Algeo, T.J., Wu, S.,Cheng, M., Zhang, Z. and Shi, W. (2020) Controls on organic matter accumulation on the early-Cambrian western Yangtze Platform, South China.Mar. Petrol. Geol.111, 75-87.
[13] Zhang, F.*, Xiao, S., Romaniello, S.J., Hardisty, D., Li, C., Melezhik, V., Pokrovsky, B.,Cheng, M., Shi, W., Lenton, T.M. and Anbar, A.D. (2019) Global marine redox changes drove the rise and fall of the Ediacara biota.Geobiology. 17, 594-610.
[12] Li, N., Li, C.*, Fan, J., Algeo, T.J., Yan, D., Zhu, G., Wu, S., Tang, S.,Cheng, M.and Jin, C. (2019) Sulfate-controlled marine euxinia in the semi-restricted inner Yangtze Sea (South China) during the Ordovician-Silurian transition.Palaeogeogr. Palaeoclimatol. Palaeoecol.534. 109281.
[11] Zihu Zhang, Chao Li*,Meng Cheng, Thomas J. Algeo, Chengsheng Jin, Feng Tang, and Junhua Huang. 2018. Evidence for highly complex redox conditions and strong water-column stratification in an early Cambrian continental-margin sea.Geochemistry, Geophysics, Geosystems. 19 (8), 2397-2410.
[10] Chao Li*,Meng Cheng, Maoyan Zhu and Timothy W. Lyons. Heterogeneous and dynamic marine shelf oxygenation and coupled early animal evolution.Emerging Topics in Life Sciences. doi: 10.1042/ETLS20170157.
[9] Chengsheng Jin, Chao Li*, Thomas J. Algeo, Brennan O'Connell,Meng Cheng, Wei Shi, Jun Shen, Noah J. Planavsky. 2018. Highly heterogeneous “poikiloredox” conditions in the early Ediacaran Yangtze Sea.Precambrian Research.311: 157-166.
[8] Wei Shi, Chao Li*, Genming Luo, Junhua Huang, Thomas J. Algeo, Chengsheng Jin, Zihu Zhang,Meng Cheng. 2018. Sulfur isotope evidence for transient marine-shelf oxidation during the Ediacaran Shuram Excursion.Geology.46:267-270.
[7] Chao Li*, Chengsheng Jin, Noah J Planavsky, Thomas J Algeo,Meng Cheng, Xinglian Yang, Yuanlong Zhao, Shucheng Xie. 2017. Coupled oceanic oxygenation and metazoan diversification during the early–middle Cambrian?Geology.45: 743-746.
[6] Li-Dan Lei, Jun Shen, Thomas J. Algeo, Zhong-Qiang Chen, Qing-Lai Feng,Meng Cheng, Cheng-Sheng Jin, Jun-Hua Huang*, Chao Li*. 2017. Controls on regional marine redox evolution during Permian-Triassic transition in South China. Palaeogeography, Palaeoclimatology, Palaeoecology. 486: 17-32.
[5] Cheng-Sheng Jin, Chao Li*, Thomas J. Algeo,Meng Cheng, Li-Dan Lei, Zi-Hu Zhang, Wei Shi. 2017. Evidence for marine redox control on spatial colonization of early animals during Cambrian Age 3 (c. 521-514 Ma) in South China.Geological Magazine. 154: 1360-1370.
[4] Chao Li*, Dalton S. Hardisty, Genming Luo, Junhua Huang, Thomas J. Algeo,Meng Cheng, Wei Shi, Zhihui An, Jinnan Tong, Shucheng Xie, Nianzhi Jiao, Timothy W. Lyons. 2017. Uncovering the spatial heterogeneity of Ediacaran carbon cycling.Geobiology.15:211-224.
[3] Chao Li*, Noah J. Planavsky, Wei Shi, Zihu Zhang, Chuanming Zhou,Meng Cheng, Lidya G. Tarhan, Genming Luo, Shucheng Xie. 2015. Ediacaran Marine Redox Heterogeneity and Early Animal Ecosystems.Scientific Reports.5: 17097.
[2] Chao Li*,Meng Cheng, Thomas J. Algeo, Shucheng Xie. 2015. A theoretical prediction of chemical zonation in early oceans (>520 Ma).Science China Earth Sciences. 58(11): 1901-1909.
[1]李超*,程猛,Thomas J. Algeo,谢树成. 2015.早期地球海洋水化学分带的理论预测.中国科学:地球科学.45(12): 1829-1838.
