卢朝进（特任教授）

»姓名：卢朝进

»系属：资源系

»学位：博士

»职称：特任教授

»专业：地质资源与地质工程

»导师类别：博士生导师

»电子邮箱：luchaojin@upc.edu.cn; luchaojin1990@outlook.com

»联系电话：18810762676

»通讯地址：山东青岛市黄岛区长江西路66号

»概况：

◎研究方向

 团簇同位素地球化学分馏行为及应用

 碳酸盐岩成岩作用及沉积地球化学

 深层油气储层地质学

◎教育经历

 2008-2012年，中国地质大学（武汉），学士

 2012-2015年，永利集团（北京），硕士

 2017-2019年，迈阿密大学，联合培养博士

 2015-2020年，永利集团（北京），博士

◎工作经历

 2021-2025年，迈阿密大学，博士后

 2025-至今，永利集团，特任教授

◎学术兼职

 国际SCI期刊《The Depositional Record》副主编（Associated Editor）

 《Frontiers in Marine Science》 “Quantitative Reconstruction of Marine Carbonate Production: From Modern to Deep-Time Oceans” 专辑客座主编(Guest Editor)

 “Isotopologue Network for Early Career Scientists” (IsoNet) 执行委员 (Committee Member)

 《石油与天然气地质》青年编委

 Geology, Earth and Planetary Science Letters, Communications Earth & Environment, Sedimentology, Basin Research, Chemical Geology, Rapid Communication in Mass Spectrometry, G-cube, Paleo-3, Paleoceanography and Paleoclimatology, AAPG Bulletin等SCI期刊审稿人

◎承担项目

 国际沉积学家协会博士后基金（IAS postdoctoral Grant）“Elucidating microbial-associated dolomitization by using sulfur and dual clumped isotopes”, 2024，主持

 油气勘探开发国家科技重大专项课题一《四川盆地构造-沉积协同演化对大型油气田形成的控制作用》，2025，参与

 “深层油气全国重点实验室”中石化专项科技项目课题二《超深层碳酸盐岩优质储层发育与保持机理》，2024，参与

 校级自主创新科研计划项目《基于团簇同位素约束的成岩体系对灯影组白云岩储层孔隙改造的定量评价研究》，2024，主持

 美国国家自然科学基金（NSF）“Acquisition of a new stable isotope mass spectrometer”, 2022，参与

 美国国家自然科学基金（NSF）“Towards understanding the behavior of the clumped isotope signal during marine diagenesis: Implications for reading the ancient record”, 2016，参与

◎获奖及荣誉情况

 2025年，山东省泰山学者青年专家

 2024年，省部级青年人才

 2024年，永利集团光华学者

 2018年，国际沉积学家协会旅行奖励资助(IAS Travel Grant)

◎论文

第一及通讯作者论文：

(1) Lu, C.*, Moore, E. S., Swaer, P.K. Dual clumped isotopes reveal an out-of-equilibrium state in shallow-water carbonate sediments on Great Bahama Bank. Earth and Planetary Science Letters, 2025, 658, 119322.

(2) Lu, C., Hao, F., * Zou, H.Y., Koeshidayatullah, A., Manche, C. J., Li, P.P., Swart, P.K. Testing the viability of normal seawater dolomitisation in Lower Cambrian carbonates using clumped isotopes. Sedimentology, 2025, 72, 713-733.

(3) Lu, C.*, Murray, S.T., Klaus, J., McNeill, D.F. and Swart, P.K. Dual clumped isotopes (Δ₄₇ and Δ₄₈) reveal non-equilibrium formation of freshwater cements. Geochimica et Cosmochimica Acta, 2024, 379, 145-157.

(4) Lu, C.* and Swart, P. K. The application of dual clumped isotope thermometer (Δ₄₇ and Δ₄₈) to the understanding of dolomite formation. Geology. 2024, 52, 56-60.

(5) Lu, C., Koeshidayatullah, A., Fei, L., Huan, C., Zou*, H. Y., Swart, P. K. A clumped isotope diagenetic framework for the Ediacaran dolomites: Insights to fabric-specific varibilities. Sedimentology. 2024, 71, 546-572.

(6) Lu, C., Zou, H., Wang, G., Cong, F., Quan, Y., and Swart, P. K. Clumped isotopes of paired dolomite and calcite constraining alternation histories of ancient carbonate successions. Chemical Geology, 2023, 617: 12164.

(7) Lu, C.*, Murray, S., Koeshidayatullah, A., Swart, P.K. Clumped isotope acid fractionation factors for dolomite and calcite revisited: Should we care? Chemical Geology, 2022, 588, 120637.

(8) Lu, C., Li, F., Oehlert, A.M., Li, J. and Zou, H*. Reconstructing paleoceanographic conditions during the middle Ediacaran: Evidence from giant ooids in South China. Precambrian Research, 2020, 351:105945.

(9) Lu, C., Liu, Z.*, Jia, Z., Tian, H., Zou, H., Dai, Q., and Han, B. The eogenetic karst of the Cambrian Longwangmiao Formation in the Yangtze Platform: Implications for the eustatic and stratigraphic correlations of Toyonian (Lower Cambrian). Geological Journal, 2019, 54, 3820-3736.

(10) Lu, C., Z. Liu*, H. Jia, Q. Dai, M. Li, M. Ren, S. Xia, L. Li, and S. Wang. The controls of geomorphology and sediment supply on sequence stratigraphic architecture and sediment partitioning of the lacustrine rift basin in the Es3 of Liuzan. Australian Journal of Earth Sciences, 2018, 65, 275-301.

(11) 卢朝进，刘震^*, 田海芹, 刘明洁, 林娟华, 王媛，杨晓光. 2018. 受多级海平面控制的早成岩期岩溶发育模式——以鄂西渝东——湘鄂西地区石龙洞组为例. 中国矿业大学学报. 47(5), 1055-1067.

其他代表性论文：

(1) Mueller, M., Walter, B.F., Giebel, R.J., Beranoaguirre, A., Swart, P.K., Lu, C., Riechelmann, S. and Immenhauser, A. Towards a better understanding of the geochemical proxy record of complex carbonate archives. Geochimica et Cosmochimica Acta, 2024, 376, 68-99.

(2) Muñoz-López, D., Lu, C., Li, W., Corlett, H., Hollis, C., Swart, P.K. and Koeshidayatullah, A. What is the source of magnesium in hydrothermal dolomites? New insights from coupling δ²⁶Mg - ∆₄₇ isotopes. Earth and Planetary Science Letters, 2024, 638, 118760.

(3) Oehlert, A.M., Garza, J., Nixon, S., Frank, L., Folkerts, E.J., Stieglitz, J.D., Lu, C., Heuer, R.M., Benetti, D.D., del Campo, J., Gomez, F.A. and Grosell, M. Implications of dietary carbon incorporation in fish carbonates for the global carbon cycle. Science of The Total Environment, 2024, 916, 169895.

(4) Dickson, J.A.D., Hodell, D.A., Swart, P.K., Lu, C., Mleneck-Vautravers, M.J. and Rolfe, J. Clumped isotope analysis of zoned calcite cement, Carboniferous, Isle of Man. The Depositional Record, 2023, 9, 635-646.

(5) Lan, C., Xu, Z., Yang, D., Yang, W., Lu, C., Chen, H., Li, P., Wang, Y. and Zou, H. Stratigraphy and depositional evolution of the terminal Ediacaran platform in the central to northern Sichuan Basin, Southwest China. Palaeogeography, Palaeoclimatology, Palaeoecology, 2022, 601, 111-142

(6) Gong, Q., Li, F., Lu, C., Wang, H. and Tang, H. Tracing seawater- and terrestrial-sourced REE signatures in detritally contaminated, diagenetically altered carbonate rocks. Chemical Geology, 2021, 570, 120169.

(7) Li, F., Deng, J., Kershaw, S., Burne, R., Gong, Q., Tang, H., Lu, C., Qu, H., Zheng, B., Luo, S., Jin, Z. and Tan, X. Microbialite development through the Ediacaran–Cambrian transition in China: Distribution, characteristics, and paleoceanographic implications. Global and Planetary Change, 2021, 205, 103586.

(8) Murray, S.T., Higgins, J.A., Holmden, C., Lu, C. and Swart, P.K. Geochemical fingerprints of dolomitization in Bahamian carbonates: Evidence from sulphur, calcium, magnesium and clumped isotopes. Sedimentology, 2021, 68, 1-29.

(9) Swart, P.K., Lu, C., Moore, E.W., Smith, M.E., Murray, S.T. and Staudigel, P.T. A calibration equation between Δ₄₈ values of carbonate and temperature. Rapid Communications in Mass Spectrometry, 2021, 35, e9147.

(10) Li, F., Webb, G.E., Algeo, T.J., Kershaw, S., Lu, C., Oehlert, A.M., Gong, Q., Pourmand, A. and Tan, X. Modern carbonate ooids preserve ambient aqueous REE signatures. Chemical Geology, 2019, 509, 163-177.

◎特邀学术报告

(1) Lu, C., Moore, M. E., and Swart, P. K. Dual clumped isotopes reveal an out-of-equilibrium state in shallow-water carbonate sediments on Great Bahama Bank. Goldschmidt Conference 2025. (Invited presentation) 特邀报告.

(2) 卢朝进，郝芳，邹华耀，王广伟，Peter K. Swart. “双”团簇同位素揭示现代巴哈马非骨架颗粒碳酸盐岩工厂发育的生物地球化学动力学过程. 2025全国沉积学大会. 重点报告.

(3) Lu, C., Ardiansyah, K., Zou, H., and Swart, P. K. Fabric-specific isotopic variability in late Ediacaran dolomites, South China: Elucidated by magnesium, sulphur and clumped Isotopes. Geological Society of America Meeting 2020. (Invited presentation) 特邀报告.