一、基本信息
姓名:杜佳宗
职称:副教授
出生年月:1992年2月
联系地址:山东省青岛市崂山区松岭路238号,邮编266100
E-mail:dujiazong@ouc.edu.cn
二、简历
1. 学习经历
同济大学,地质学学士学位,上海,2011-2015
同济大学,海洋科学硕士学位,上海,2015-2019
同济大学,海洋科学博士学位,上海,2019-2022
2. 工作经历
2022.11-2025.2,中国海洋大学,海洋地球科学学院,博士后
2025.3-至今,中国海洋大学,海洋地球科学学院,副教授
3. 学术兼职
《Applied Clay Science》等国内外期刊审稿人。
4. 主要的科研项目
(1)国家自然科学基金青年科学基金项目,2024.1-2025.12,在研,主持
(2)中国博士后科学基金面上项目二等,2023.11-2025.2,结题,主持
(3)青岛市博士后应用项目,2023.4-2025.2,结题,主持
三、主要学术领域
1. 学科方向:海洋沉积与地球化学、油气地质学
2. 近期研究兴趣:(1)沉积有机碳埋藏保存及稳定性的矿物(黏土矿物、铁氧化物)约束机制;(2)不同纬度陆架矿物介导的有机碳埋藏记录及其气候环境响应;(3)矿物-有机相互作用的生烃机理与油气资源效应。
四、主要发表论文
[1] Du, J*., Cai, J., Zeng, X., Lei, T., Chao, Q., Zhang, K., Wang, X., 2025. Contrasting variations in solid acidity of smectite and kaolinite in acid-base environments and implications for organic matter sequestration. Chem. Geol. 680. doi.org/10.1016/j.chemgeo.2025.122714.
[2] Du, J., Hu, L.*, Yao, Z., Liu, X., Sun, Y., Yang, G., Aksentov, K., Vasilenko, Y., Bosin, A., Astakhov, A., Shi, X., 2024a. Terrestrial input and biological processes drive varying mineral/organic matrix-related mercury sequestration and deposition in the East Siberian Arctic Shelf. Chem. Geol. 670. doi.org/10.1016/j.chemgeo.2024.122409.
[3] Du, J.*, Cai, J., Zeng, X., Zhang, Y., Mu, X., Wang, X., 2024b. Depositional and diagenetic controls on hydrocarbon generation of mudstones through clay–organic matter interactions: A comparative study of the Dongpu Depression, Bohai Bay Basin, China. Journal of Asian Earth Sciences 262. doi.org/10.1016/j.jseaes.2023.106000.
[4] Cai, J.*, Du, J.*, Chao, Q., Zeng, X., Wei, H., 2022a. Evolution of surface acidity during smectite illitization: Implication for organic carbon cycle. Mar. Petrol. Geol. 138. doi.org/10.1016/j.marpetgeo.2022.105537.
[5] Cai, J.*, Du, J.*, Song, M., Lei, T., Wang, X., Li, Y., 2022b. Control of clay mineral properties on hydrocarbon generation of organo-clay complexes: Evidence from high-temperature pyrolysis experiments. Appl. Clay Sci. 216. doi.org/10.1016/j.clay.2021.106368.
[6] Du, J., Cai, J.*, Chao, Q., Song, M., Wang, X., 2021a. Variations and geological significance of solid acidity during smectite illitization. Appl. Clay Sci. 204. doi.org/10.1016/j.clay.2021.106035.
[7] Du, J., Cai, J.*, Lei, T., Li, Y., 2021b. Diversified roles of mineral transformation in controlling hydrocarbon generation process, mechanism, and pattern. Geoscience Frontiers 12(2), 725-736. doi.org/10.1016/j.gsf.2020.08.009.
[8] Du, J., Cai, J.*, Long, S., Gao, B., Feng, D., Peng, Z., Zeng, X., 2021c. The Control of Diagenesis and Mineral Assemblages on Brittleness of Mudstones. Frontiers in Earth Science 9. doi.org/10.3389/feart.2021.758046.
[9] Du, J., Cai, J.*, Chen, Z., Lei, T., Zhang, S., Xie, Z., 2019. A contrastive study of effects of different organic matter on the smectite illitization in hydrothermal experiments. Appl. Clay Sci. 168, 249-259. doi.org/10.1016/j.clay.2018.11.016.
[10] Cai, J.*, Du, J., Chen, Z., Lei, T., Zhu, X., 2018. Hydrothermal experiments reveal the influence of organic matter on smectite illitization. Clays Clay Miner. 66(1), 28-42. doi.org/10.1346/ccmn.2017.064083.
[11]杜佳宗, 何蓓, 蔡进功*, 雷天柱, 刘庆, 2020. 烃源岩不同性质有机酸的分离及其检测方法. 高校地质学报 26(5), 540-548.
[12]杜佳宗, 蔡进功*, 谢忠怀, 王学军, 2018. 泥岩埋藏成岩过程中绿泥石的演化途径及意义. 高校地质学报 24(1), 371-379.
数据更新日期:2025年06月06日
