英文期刊论文 (第一或通讯)

6. Hu, J., Y. Zhang*, D. Jia*, A. Muxworthy, D. Selby, Y. Li, M. J. Brzozowski, G. Wei, J. Cao, H. Yin, and W. Li (2023), Combining paleomagnetic and Re–Os isotope data to date hydrocarbon generation and accumulation processes, Journal of Geophysical Research: Solid Earth, 128, https://doi.org/10.1029/2022JB025955.

5. Zhang, Y., D. Jia*, A. R. Muxworthy, Y. Zhang, Y. Li, H. Yin, Z. Chen, M. J. Brzozowski, W. Li, M. Wang, and Z. Li (2020), Fluid Migration and Widespread Remagnetization in the Dabashan Fold and Thrust Belt, China, Journal of Geophysical Research: Solid Earth, 125(11), doi:10.1029/2020jb019989.

4. Zhang, Y., A. R. Muxworthy, D. Jia*, G. Wei, B. Xia, B*. Wen, M. Wang, W. Liu, and M. J. Brzozowski (2019), Identifying and Dating the Destruction of Hydrocarbon Reservoirs Using Secondary Chemical Remanent Magnetization, Geophysical Research Letters, 46(20), 11100-11108, doi:10.1029/2019gl084812.

3. Zhang, Y., D. Jia*, A. R. Muxworthy, Y. Li, B. Xia, Z. Xie, J. Hu, J. Zi, and W. Liu (2018), The Chemical Remagnetization of Ediacaran Dolomite in the Taishan Paleo-Reservoir, South China, Journal of Geophysical Research: Solid Earth, 123, 6161-6175, doi:10.1029/2018jb015547.

2. Zhang, Y., D. Jia*, H. Yin, M. Liu, W. Xie, G. Wei, and Y. Li (2016), Remagnetization of lower Silurian black shale and insights into shale gas in the Sichuan Basin, south China, Journal of Geophysical Research: Solid Earth, 121(2), 491-505, doi:10.1002/2015jb012502.

1. Zhang, Y., D. Jia, L. Shen, H. W. Yin, Z. X. Chen, H. B. Li, Z. G. Li, and C. Sun (2015), Provenance of detrital zircons in the Late Triassic Sichuan foreland basin: constraints on the evolution of the Qinling Orogen and Longmen Shan thrust-fold belt in central China, International Geology Review, 57(14), 1806-1824.

英文期刊论文 (其他)

8. Hu, J., D. Jia*, G. Q. Wei, W. R. Xie, Y. Q. Li, N. Su, Z. X. Chen, W. Yang, Z. G. Li, C. Sun, and Y. Zhang (2022), Seismic reflection analysis of the deeply buried Neoproterozoic rift basin beneath Sichuan Basin, southern China, AAPG Bulletin, 106(4), 759-782, doi:10.1306/10212120127.

7. Liu, J., D. Jia*, H. W. Yin, L. Shen, X. G. Fan, Z. Y. He, J. Cui, S. Yang, and Y. Zhang (2021), Sandbox Modeling of Transrotational Tectonics with Changeable Poles: Implications for the Yinggehai Basin, Frontiers in Earth Science, 9, doi:10.3389/feart.2021.687789.

6. Wang, Y. J., D. Jia*, H. Q. Zhang, B. Yuan, H. B. Wang, C. R. Wei, D. L. Ma, X. Z. Chen, S. X. Pan, L. Y. Wei, G. X. Yu, M. T. Xiao, Y. Zhang, and Y. Q. Li (2020), Spatial and temporal associations of traps and sources: Insights into exploration in the southern Junggar foreland basin, northwestern China, Journal of Asian Earth Sciences, 198, doi:10.1016/j.jseaes.2019.104078..

5. Jia, D*., Y. Li, B. Yan, Z. Li, M. Wang, Z. Chen, and Y. Zhang (2020), The Cenozoic thrusting sequence of the Longmen Shan fold-and-thrust belt, eastern margin of the Tibetan plateau: Insights from low-temperature thermochronology, Journal of Asian Earth Sciences, doi:10.1016/j.jseaes.2020.104381.

4. Yang, P., Z. Ren*, B. Xia, T. Tian, Y. Zhang, K. Qi, and W. Ren (2018), Tectono–Thermal Evolution, Hydrocarbon Filling and Accumulation Phases of the Hari Sag, in the Yingen–Ejinaqi Basin, Inner Mongolia, Northern China, Acta geologica sinica (English Edition), 92(3), 1157-1169.

3. Yang, P., B. Xia*, Z. Cai, Z. Wan, Q. Huang, and Y. Zhang (2017), Genetic mechanism of the Yinggehai Basin, Northern South China Sea: a comparative study to the Weihe Basin, Marine Geology & Quaternary Geology, 37(6), 65-74.

2. Li, Z. G., D. Jia*, W. Chen, H. W. Yin, L. Shen, C. Sun, and Y. Zhang (2014), Late Cenozoic east-west crustal shortening in southern Longmen Shan, eastern Tibet: Implications for regional stress field changes, Tectonophysics, 623, 169-186.

1. Li, H. B., D. Jia*, L. Wu, Y. Zhang, H. W. Yin, G. Q. Wei, and B. L. Li (2013), Detrital zircon provenance of the Lower Yangtze foreland basin deposits: constraints on the evolution of the early Palaeozoic Wuyi-Yunkai orogenic belt in South China, Geological Magazine, 150(6), 959-974.

中文期刊论文（*为通讯作者）

11. 许宝田, 张勇, 王博, 杨爱华, 解国爱, 2022, 地质工程专业普通地质认识实习教学的思考. 高校地质学报, 28(3), 5.

10. 解国爱, 王宝军, 王博, 许宝田, 杨爱华, 张勇，2022，提高基础地质认识实习教学效果的研究 —以南京大学基础地质认识实习为例，高校地质学报，8, no. 4.

9. 李玮, 贾东*, 张勇*, 李永祥, 钟城, 葛家成，2021，龙门山南段二叠系-下三叠统地的古地磁研究，高校地质学报。

8. 朱民, 陈汉林, 孟立丰, 周静, 张勇, 杨树锋, and 孔凡立 (2019), 四川西南峨眉地区晚三叠世瑞替期须家河组地球化学特征及其对物源和构造背景的指示, 地质科学, 54(1).

7. 杨鹏, 任战利, 张金功, 夏. 斌, 田. 涛, 蔡周荣, and 张. 勇 (2018), 新生代渭河盆地沉积—构造迁移与渭北隆起及东秦岭耦合关系探讨, 地质科学, 53(3), 876-892.

6. 沈淑鑫, 贾东, 曾庆, 谢忱, 资金平, 张勇, and 胡晶 (2018), 龙门山北段唐王寨-仰天窝向斜麻柳村辉绿岩斜锆石U-Pb同位素定年及其地质意义, 地质通报, 37(5), 840-852.

5. 资金平, 贾东, 魏国齐, 杨振宇, 张勇, 胡晶, and 沈淑鑫 (2017), 四川乐山震旦系灯影组火山碎屑岩锆石 LA-ICP-MS U-Pb 定年及盆地裂陷演化讨论, 地质论评, 63(4), 1040-1049.

4. 杨鹏, 夏斌, 蔡周荣, 万志峰, 黄强太, and 张勇 (2017), 南海北部莺歌海盆地成因机制：与渭河盆地构造对比分析的启示, 海洋地质与第四纪地质, 37(6), 65-74.

3. 张涛, 尹宏伟, 贾东, 姚素平, 胡文蠧, 李海滨, and 张勇 (2013), 下扬子区构造变形特征与页岩气保存条件, 煤炭学报, 38(5), 883-889.

2. 沈礼, 贾东, 尹宏伟, 孙闯, 张勇, and 范小根 (2012), 基于粒子成像测速 (PIV) 技术的褶皱冲断构造物理模拟, 地质论评, 58(3), 471-480.

1. 李海滨, 贾东, 武龙, and 张勇 (2011), 下扬子地区中-新生代的挤压变形与伸展改造及其油气勘探意义, 岩石学报, 27(3), 770-778.

参加的学术会议：

8. Zhang, Y., Jia, D., 2019. The origin of the widespread chemical remagnetization in hydrocarbon-bearing strata of South China. Abstract for 2019 AGU Fall Meeting.

7. Zhang, Y., Jia, D., 2019. The chemical remagnetization in hydrocarbon systems in south China. Abstract for 2019 the Fifth Beijing Earth and Planetary Interior Symposium

6. Zhang, Y., Jia, D., 2013. Provenance of detrital zircons in the Late Triassic Sichuan foreland basin, Abstract for 125th Anniversary of GSA

5. 张勇，2022. 盆山区域构造及流体时空特征的重磁化约束。中国地球科学联合学术年会。

4. 张勇, 贾东, 魏国齐， 2019. 古地磁方法在约束油气生成,运移和破坏过程的应用. 中国地球科学联合学术年会.

3. 张勇, 贾东, 2019. 华南含油气地层的化学重磁化分析. 中国地球科学联合学术年会.

2. 张勇, 贾东, 2014. 晚三叠纪四川前陆盆地碎屑锆石物源分析:华北,华南和羌塘板块汇聚的沉积记录. 构造地质与地球动力学学术研讨会，青岛.

1. 贾东，尹宏伟，张勇，2013，第六届地质构造与地球动力学学术研讨会，北京