· 学习经历

2013.09-2018.02，慕尼黑大学，地球物理学，博士学位
2010.09-2013.07，兰州大学，自然地理学，硕士学位
2006.09-2010.07，聊城大学，地理科学，学士学位

· 工作简历

2018.04-2021.09，中国科学院地质与地球物理研究所，博士后

· 学术兼职

中国地质学会，会员

1）国家自然科学基金面上项目，“化石磁小体响应氧化还原环境变化的机制研究——以山东半岛月湖沉积物为例”（42374084），2024.01-2027.12，项目负责人
2）国家自然科学基金青年基金项目，“不同氧化还原条件下沉积物记录剩磁的实验模拟研究”（41904070），2020.01-2022.12，项目负责人
3）中国博士后基金面上项目二等资助，“中更新世早期地磁场强度变化及化石磁小体的记录研究”（2018M641461），2019.01-2020.12，项目负责人

2021年 中国海洋大学青年英才三层次
2018年 博士后国际交流计划引进项目

· 学科方向

海洋地质学、古地磁学

· 近期研究兴趣

1）研究自然沉积物中趋磁细菌的时空分布特征。
2）通过岩石磁学、古地磁学方法研究海洋沉积物中化石磁小体记录的古环境及地磁场相对古强度变化。
3）通过再沉积试验研究磁铁矿的氧化还原变化对剩磁记录的影响。
欢迎报考海洋地质学、地质学硕士的学生，特别是对古环境演化或古地磁学感兴趣的学生加入。

已发表论文18篇，被SCI收录17篇，其中第一作者SCI收录4篇

· 论文收录情况

1. He, K., Zhao, X., Pan, Y., Zhao, X., Qin, H., & Zhang, T. (2020). Benchmarking component analysis of remanent magnetization curves with a synthetic mixture series: Insight into the reliability of unmixing natural samples. Journal of Geophysical Research: Solid Earth, 125, e2020JB020105.
2. He, K., & Pan, Y. (2020). Magnetofossil abundance and diversity as paleoenvironmental proxies: A case study from Southwest Iberian margin sediments. Geophysical Research Letters, 47(8), e2020GL087165.
3. He, K., Roud, S. C., Gilder, S. A., Egli, R., Mayr, C., & Petersen, N. (2018). Seasonal variability of magnetotactic bacteria in a freshwater pond. Geophysical Research Letters, 45(5), 2294-2302.
4. He, K., Gilder, S. A., Orsi, W. D., Zhao, X., & Petersen, N. (2017). Constant flux of spatial niche partitioning through high-resolution sampling of magnetotactic bacteria. Applied and Environmental Microbiology, 83(20), e01382-17.
其它非第一作者文章
5. Wang, X., Zattin, M., Wang, L., Pang, B., Yang, Y., He, K., ... & Zhang, Y. (2023). Cenozoic morphotectonic evolution of the northeasternmost Tibetan Plateau: Evidence from detrital thermochronology. Global and Planetary Change, 225, 104131.
6. Hou, Y., Zhang, M., He, K., Shen, Z., Dong, L., Fan, Y., ... & Qin, H. (2023). A magnetic measurement technique for small rare samples: Pre-study for Chang’e-5 returned and other extraterrestrial samples. Frontiers in Earth Science, 11, 1146231.
7. Goswami, P., He, K., Li, J., Pan, Y., Roberts, A. P., & Lin, W. (2022). Magnetotactic bacteria and magnetofossils: Ecology, evolution and environmental implications. npj Biofilms and Microbiomes, 8, 43.
8. Liu, J., Zhang, W., He, K., Liu, L., Wang, C., Jiang, Y., ... & Lin, W. (2022). Survival of the magnetotactic bacterium Magnetospirillum gryphiswaldense exposed to Earth's lower near space. Science Bulletin, 67(13), 1335-1339.
9. Chen, S., Yu, M., Zhang, W., He, K., Pan, H., Cui, K., ... & Wu, L. F. (2022). Metagenomic and microscopic analysis of magnetotactic bacteria in Tangyin hydrothermal field of Okinawa Trough. Frontiers in Microbiology, 13, 887136.
10. Liu, C., Qin, H., Ferré, E. C., Wang, W., He, K., & Deng, C. (2022). Importance of hematite self‐reversal in Al‐rich soils magnetostratigraphy: Revisiting the Damei red soil sequence in the Bose Basin, southern China. Journal of Geophysical Research: Solid Earth, 127(4), e2021JB023165.
11. Wang, H., Xu, X., Gai, C., Liu, J., Zhong, Y., Jiang, X., ... , He, K., & Liu, Q. (2022). Inverse magnetic fabrics caused by magnetofossils in the northwestern South China Sea since end of the Last Glacial. Geophysical Research Letters, 49(14), e2022GL098507.
12. Zhang, M., Qin, H. F., He, K., Hou, Y. F., Zheng, Q. F., Deng, C. L., ... & Pan, Y. X. (2021). Magnetostratigraphy across the end-Permian mass extinction event from the Meishan sections, southeastern China. Geology, 49(11), 1289-1294.
13. Gilder, S. A., He, K., Wack, M., & Ježek, J. (2019). Relative paleointensity estimates from magnetic anisotropy: Proof of concept. Earth and Planetary Science Letters, 519, 83-91.
14. Meng, J., Gilder, S. A., Wang, C., Coe, R. S., Tan, X., Zhao, X., & He, K. (2019). Defining the limits of Greater India. Geophysical Research Letters, 46(8), 4182-4191.
15. Lhuillier, F., Gilder, S. A., Wack, M., He, K., Petersen, N., Singer, B. S., Jicha, B. R., Schaen, A. J., & Colon, D. (2016). More stable yet bimodal geodynamo during the Cretaceous superchron? Geophysical Research Letters, 43(12), 6170-6177.
16. Liu, S., Li, J., Stockli,D. F., Song, C., Nie, J., Peng, T., Wang, X., He, K., Hui, Z., & Zhang, J. (2015). Late Tertiary reorganizations of deformation in Northeastern Tibet constrained by stratigraphy and provenance data from Eastern Longzhong Basin. Journal of Geophysical Research: Solid Earth, 120(8), 5804-5821.
17. 刘善品，何况，吴小斌，李吉均，宋春晖（2012）. 细粒沉积物（岩）中重矿物提取方法的改进，地质科技通报，31(1)，131-136.
18. Wang, X., Li, J., Song, C., Zattin, M., Zhao, Z., Zhang, J., Zhang, Y., & He, K. (2012). Late Cenozoic orogenic history of Western Qinling inferred from sedimentation of Tianshui basin, northeastern margin of Tibetan Plateau. International Journal of Earth Sciences, 101(5), 1345-1356.