近期主要研究方向
1.海洋沉积物有机质矿化过程及铁、硫、磷元素生物地球化学循环;
2.海底地下水排泄(地下河口)溶解碳、营养盐、金属等生物地球化学过程及其环境效应。
欢迎具有海洋科学、地质学、水文及水资源,环境科学、化学等专业背景的学生报考。
承担科研项目
1. 砂质海岸带地下河口锂循环及锂同位素分馏行为研究,2026.01-2029.12,国家自然科学基金面上项目,负责人。
2. 大洋科学钻探井下长期观测及原位取样关键技术,2025.01-2027.12,国家重点研发计划重点专项项目,参与。
3. 东海近岸泥质区沉积物铁结合态磷的形成与埋藏:甲烷厌氧氧化作用的影响,2023.01-2026.12,国家自然科学基金面上项目,负责人。
4. “深渊地质演化与关键元素循环机制”下属子课题“深渊沉积物孔隙水地球化学和关键元素循环过程研究”,2022.12-2026.12;科技部国家重点研发计划项目,参与。
5. 长江口潮滩地下河口碳循环观测与水文模型研究,2022.06-2024.06,2026世界杯官方网站学科交叉联合攻关示范项目,负责人。
6. 海底地下水排泄过程中溶解无机碳的迁移转化及其对海洋的贡献:以广西北海砂质海岸带为例,2020.01-2023.12 , 国家自然科学基金面上项目,负责人。
近5年发表的主要论文
[1] Chen, Y., März, C., Wu, Z*., Kowalski, N., Xia, W., Stark, A., & Böttcher, M. E. (2026). Holocene sea-level changes modulate iron-bound phosphorus burial in subtropical coastal sediments. Chemical Geology, 123334. https://doi.org/10.1016/j.chemgeo.2026.123334.
[2] Xia, W., Gao, L., Liu, J., Wang, Y., & Wu, Z*. (2026). Arsenic cycling driven by hydrogeochemical-tidal coupling in a sandy subterranean estuary. Journal of Hydrology, 675, 135630.
[3] Zidan, A. A., Liu, J., Gao, L., Wang, Y., & Wu, Z*. (2026). Hydrological regulation of nitrate sources and transformation pathways in a sandy subterranean estuary constrained by dual isotopes. Continental Shelf Research, 300, 105705.
[4] Xiong, Z., Chen, Y., Xu, H., Dong, L., & Wu, Z*. (2026). Phosphorus species in surface sediments of the Kermadec Trench: Distribution and controlling factors. Deep–Sea Research I, 227, 104639.
[5] Liu, P., Liu, J., Wang, Y., Chen, Y., Gao, L., & Wu, Z*. (2026). Seasonal dynamics and drivers of dissolved organic matter biogeochemistry in a tropical sandy subterranean estuary. Marine Chemistry, 276, 104623.
[6] Bai, S., Xu, H., Liu, S., Dong, L., & Wu, Z*. (2025). Organic carbon sources, transport, and mineralization in Kermadec Trench sediments. Frontiers in Marine Science, 12, 1661587. https://doi.org/10.3389/fmars.2025.1661587.
[7] Wang, Y., Xie, R. C., Liu, J., Xu, J., Chen, Y., Zidan, A. A., Weymer, B. A., & Wu, Z*. (2025). Carbonate-mediated terrestrial strontium transport through fresh submarine groundwater discharge into a tropical continental island bay. Global and Planetary Change, 253, 104955.
[8] Zidan, A. A., Wu, Z*., Wang, Y., Chen, Y., & Liu, J. (2025). Nutrient distribution and nitrate processing in a mangrove tidal creek affected by submarine groundwater discharge (SGD). Marine Pollution Bulletin, 212, 117575.
[9] Li, D., Liu, Z*., Zhao, Y., Lian, E., Zhang, Y., & Wu, Z*. (2024). Anthropogenic activities alter the hydrological process of submarine groundwater discharge in a coastal area of Shanghai City, China. Journal of Hydrology, 634, 130996.
[10] Chen, Y., Xu, S., Liu, W., Zhang, Z., Yang, T., Xiao, X., Deng, X., Li, J., Yao, H*., & Wu, Z*. (2024). Assessing biogeochemical controls on porewater dissolved inorganic carbon cycling in the gas hydrate-bearing sediments of the Makran accretionary wedge, Northeastern Arabian Sea off Pakistan. Frontiers in Marine Science, 10, 1181921. https://doi.org/10.3389/fmars.2023.1181921.
[11] Xu, S., Liu, B., Wu, Z*., Kowalski, N., & Böttcher, M. (2023). The role of anaerobic methane oxidation on the carbonate authigenesis in sediments of the subtropical Beibu Gulf, South China Sea: A reactive-transport modelling approach. Chemical Geology, 619.
[12] Liu, J., Chen, Y., Wang, Y., Du, M., & Wu, Z*. (2023). Greenhouse gases emissions and dissolved carbon export affected by submarine groundwater discharge in a maricultural bay, Hainan Island, China. Science of the Total Environment, 857.
[13] Xu, S., Liu, B., Arndt, S., Kasten, S., & Wu, Z*. (2023). Assessing global-scale organic matter reactivity patterns in marine sediments using a lognormal reactive continuum model. Biogeosciences, 20(12), 2251-2263.
[14] Xu, S., Sun, Z*., Geng, W., Cao, H., Zhang, X., Zhai, B., & Wu, Z*. (2022). Advance in numerical simulation research of marine methane processes. Frontiers in Earth Science, 10.
[15] Zheng, N., Jiang, S., Xia, X., Kong, W., & Wu, Z. (2023). Efficient estimation of groundwater contaminant source and hydraulic conductivity by an ILUES framework combining GAN and CNN. Journal of Hydrology, 621.
[16] Ma, Z., Gao, L., Sun, M., Liao, Y., Bai, S., Wu, Z., & Li, J. (2022). Microbial diversity in groundwater and its response to seawater intrusion in Beihai City, Southern China. Frontiers in Microbiology, 13.
王星皓,高龙,刘佳伟,王一清,吴自军*. 广西北海砂质海岸带地下河口磷的地球化学过程及其控制因素. 应用海洋学报,2026.
熊智豪,王星皓,陈源清,吴自军*. 海洋沉积物中铁结合态磷循环与埋藏机制研究进展.海洋地质与第四纪地质. 2025,45(4).
张越,朱虹霓,王一清,吴自军*. 海南文昌清澜湾红树林潮沟地下水溶解碳通量的潮汐动态.海洋地质前沿,2024,40(5):27-39.
郑弘民,尹希杰*,杨海丽,吴自军*. 水体溶解氧中三氧同位素测试技术与应用进展.同位素. 2024, 37.
徐思南,吴自军*,张喜林,孙伟香,耿威等. 海洋沉积物碳循环过程数值模型的研究进展. 地球科学. 2022, 8.
高琛,胡梦茜,吴自军*. 三亚湾海滩黑化形成机制:铁氧化物与有机质的相互作用. 海洋地质前沿. 2022, 38(8): 28-36.
王一清,吴自军*. 海底地下水排泄对海洋锶储库的影响. 地质论评. 2022, 68(3): 1079-1088.
专著
1.《海底科学观测的国际进展》,2026世界杯官方网站出版社,2017;
2.《大洋钻探与海底观测》,上海少儿出版社,2017。
教学情况
主讲课程
《海洋资源概论》(2026世界杯官网是什么)
《海洋学概论》-海洋化学部分(2026世界杯官网是什么)
《海底资源与探测》(硕士2026世界杯官网介绍)
《极端环境地球化学》(博士2026世界杯官网介绍)
《海洋资源与可持续发展》(全校公选课)
指导2026世界杯官网介绍
在读2026世界杯官网介绍:
硕士:刘沛瑜,布力,王海宁,张子扬,胡文博
博士:王一清,刘佳伟,陈培宇
已毕业2026世界杯官网介绍:
硕士:夏雯丽,王星皓,白硕,熊智豪,张越,郑弘民,朱虹霓,高琛,王富康、刘伟宁,张咏华、王娇、孙悦羚、刘宏宇、栾兆富
博士:他开文,徐思南,Alyaa A. Zidan,陈源清