姜仕军

发布时间:2022-03-16浏览次数:3652


姜仕军,男,教授,研究生学历,博士学位

(Email: sjiang@hhu.edu.cn;  Tel:  )



学习经历:

博士 2002-2007 地质学,Florida State University, Tallahassee

硕士 1993-1996 地层与古生物学,中国地质大学(武汉)

学士 1989-1993 地层与古生物学,中国地质大学(武汉)  


工作经历:

2022-今      bt体育台,教授

2010-2021  暨南大学生命科学技术学院、地下水与地球科学研究院,教授

2010-2013  美国佛罗里达州立大学地球海洋大气科学系,adjunct professor

2009-2010  美国佛罗里达州立大学地质系,Research Scientist;美国BugWare公司,生物地层专家(兼职)

2007-2008  美国宾夕法尼亚州立大学地球科学系,博士后

1996-2001  中国海洋石油南海东部研究院,工程师,历任古生物项目经理、生产管理科长


研究方向:

海洋微体古生物学;海洋地质学

质超微化石(颗石藻化石)为重要手段,将地质学与生态学有机结合,研究海洋生态系统在人类和地质时间尺度上的演变以及与全球气候变化(碳循环)的互馈。


钙质超微浮游植物(颗石藻)在海洋碳循环过程中作用(科学通报 2022, 67, 1689-1703)




学术兼职:

理事:国际超微协会(INA)、中国古生物学会化石藻类专业委员会

副主编:Marine Micropaleontology(欢迎赐稿:海洋微体古生物国际SCI期刊)

评审编辑:Frontiers in Earth Science


主讲课程:

《海洋地质学》 


科研项目:

1. 国家自然科学基金面上项目:中新世全球碳酸盐崩溃过程及其成因机制:2020-2023,主持

2. 国家自然科学基金委基础科学中心项目《大陆演化与季风系统演变》专题:始新世极热事件下的海陆相互作用及其生态环境效应:2019-2023,主持

3. 国家自然科学基金面上项目:藏南海洋浮游植物对白垩-古近纪生物大绝灭事件的响应:2017-2020,主持

4. 南澳海岛国家森林公园管理委员会项目:南澳海岛国家森林公园花岗岩类地质遗迹形成过程和旅游地质学意义:2017-2019,主持

5. 中海石油有限公司深圳分公司项目:南海北部新构造运动的钙质超微化石生物地层时代厘定:2015-2016,主持

6. 国家自然科学基金面上项目:白垩/古近纪生物大绝灭后海洋浮游植物复苏过程与机制:2014-2017,主持 


论文论著 (*通讯作者):

2023年:

1. Gu, Y.-G., Jiang, S.-J., Jordan, R.W., Huang, H.-H., Wu, F.-X., 2023. Nonmetric multidimensional scaling and probabilistic ecological risk assessment of trace metals in surface sediments of Daya Bay (China) using diffusive gradients in thin films. Science of The Total Environment 867, 161433.

2. Han, Y.-J., Liang, R.-Z., Li, H.-S., Gu, Y.-G., Jiang, S.-J., Man, X.-T., 2023. Distribution, Multi-Index Assessment, and Sources of Heavy Metals in Surface Sediments of Zhelin Bay, a Typical Mariculture Area in Southern China. Toxics 11, 150.

3. Li, H.-S., Gu, Y.-G., Liang, R.-Z., Wang, Y.-S., Jordan, R.W., Wang, L.-G., Jiang, S.-J., 2023. Heavy metals in riverine/estuarine sediments from an aquaculture wetland in metropolitan areas, China: Characterization, bioavailability and probabilistic ecological risk. Environmental Pollution 324, 121370.

4. Liang, R.-Z., Gu, Y.-G., Li, H.-S., Han, Y.-J., Niu, J., Su, H., Jordan, R.W., Man, X.-T., Jiang, S.-J., 2023. Multi-index assessment of heavy metal contamination in surface sediments of the Pearl River estuary intertidal zone. Marine Pollution Bulletin 186, 114445.

5. Zhou, D., Sun, P., Jiang, S., Liu, X., Wang, Q., 2023. Geochronology and geochemistry of Early Cretaceous high-silica granites in the Nan’ao Island, South China: Petrogenesis and implications for lithospheric extension. Journal of Asian Earth Sciences 245, 105558.

2022年:

1. 姜仕军, 2022. 白垩纪-古近纪生物大灭绝后海洋生物碳泵的破坏与恢复. 科学通报 67, 1689-1703.

2. 贾恩豪, 宋海军, 雷勇, 罗根明, 姜仕军, 2022. 古生代-中生代之交海洋生物泵演变与浮游革命. 科学通报 67, 1660-1676.

3. Gu, Y.-G., Huang, H.-H., Jiang, S.-J., Gong, X.-Y., Liao, X.-L., Dai, M., 2022. Appraising ecotoxicological risk of mercury species and their mixtures in sediments to aquatic biota using diffusive gradients in thin films (DGT). Science of The Total Environment 825, 154069.

4. Wang, Y., Jiang, S. (*), Hu, X., Li, J., Kulhanek, D.K., Pospichal, J.J., Watkins, D.K., 2022. Lower Cretaceous calcareous nannofossils and their biostratigraphic and paleoceanographic implications in Southern Tibet. Marine Micropaleontology 175, 102159.

5. Wang, Y., Cui, Y., Su, H., Jiang, J., Wang, Y., Yang, Z., Hu, X., Jiang, S. (*), 2022. Response of calcareous nannoplankton to the Paleocene–Eocene Thermal Maximum in the Paratethys Seaway (Tarim Basin, West China). Global and Planetary Change 217, 103918.

6. Shi, M., Wu, H., Zhao, X., Zhang, S., Jiang, S., Su, X., Li, H., Yang, T., 2022. Provenance study of the Miocene hemipelagic sediments in the Shikoku Basin and implication for the earlier history of the Kuroshio Current. Marine Geology 450, 106861.

7. Gu, Y.-G., Gao, Y.-P., Chen, F., Huang, H.-H., Yu, S.-H., Jordan, R.W., Jiang, S.-J., 2022. Risk assessment of heavy metal and pesticide mixtures in aquatic biota using the DGT technique in sediments. Water Research 224, 119108.

8. Dong, Y., Convers, L.C., Jiang, S., Li, X., Zhu, P., Chen, H., Cui, Y., 2022. Reconstruction of the early Eocene paleoclimate and paleoenvironment of the southeastern Neo-Tethys Ocean. Global and Planetary Change 215, 103875.

9. Man, X., Huang, H., Chen, F., Gu, Y., Liang, R., Wang, B., Jordan, R.W., Jiang, S., 2022. Anthropogenic impacts on the temporal variation of heavy metals in Daya Bay (South China). Marine Pollution Bulletin 185, 114209.

10. Jin, H., Wan, S., Clift, P.D., Liu, C., Huang, J., Jiang, S., Li, M., Qin, L., Shi, X., Li, A., 2022. Birth of the Pearl River at 30 Ma: Evidence from sedimentary records in the northern South China Sea. Earth and Planetary Science Letters 600, 117872.

2021年:

1. Jiang, S., Cui, Y., Wang, Y., 2021. Carbon cycle variability in tropical Atlantic across two Early Eocene hyperthermals. Geoscience Frontiers 12, 521-530.

2. Lei, Y., Wang, Y., Qin, F., Liu, J., Feng, P., Luo, L., Jordan, R.W., Jiang, S.(*), 2021. Diatom assemblage shift driven by nutrient dynamics in a large, subtropical reservoir in southern China. Journal of Cleaner Production 317, 128435.

3. Wang, Y., Passey, B., Roy, R., Deng, T., Jiang, S., Hannold, C., Wang, X., Lochner, E., Tripati, A., 2021. Clumped isotope thermometry of modern and fossil snail shells from the Himalayan-Tibetan Plateau: Implications for paleoclimate and paleoelevation reconstructions. GSA Bulletin 133, 1370-1380.

4. Lei, Y., Feng, P., Du, X., Jiang, S.(*), 2021. Diatom assemblages from sediment traps in response to large seaweed Gracilaria cultivation off Nan'ao island, South China. Marine Pollution Bulletin 165, 112157.

5. Hoshina, K., Wang, Y., Jiang, S.(*), Lozar, F., Persico, D., Villa, G., Jordan, R.W., 2021. Eocene calcareous nannofossils from southern Tibet: Paleoceanographic implications for the closure of the eastern Tethys Ocean. Marine Micropaleontology 167, 102031.

6. Gu, Y.-G., Wang, Y., Ouyang, J., Jordan, R.W., Jiang, S.(*), 2021. Impacts of coastal aquaculture on sedimentary phosphorus speciation and fate: Evidence from a seaweed cultivation area off Nan'ao Island, South China. Marine Pollution Bulletin 171, 112719.

7. Cui, Y., Zhang, F., Wang, J., Jiang, S., Shen, S., 2021. Marine Anoxia and Ocean Acidification During the End-Permian Extinction, Large Igneous Provinces, pp. 325-340.

8. Cui, Y., Diefendorf, A.F., Kump, L.R., Jiang, S., Freeman, K.H., 2021. Synchronous Marine and Terrestrial Carbon Cycle Perturbation in the High Arctic During the PETM. Paleoceanography and Paleoclimatology 36, e2020PA003942.

2020年:

1. Wang, Y., Jiang, S.(*), 2020. Variation in middle-late Miocene sedimentation rates in the northern South China Sea and its regional geological implications. Marine Micropaleontology 160, 101911.

2. Jian, Z., Jiang, S., Jordan, R.W., 2020. Progress of micropaleontological research in the western Pacific marginal seas. Marine Micropaleontology 161, 101938.

3. 何宜颖, 陈建耀, 高磊, 单云龙, 叶志平, 吴愈, 江涛, 黎坤, 黎曼姿, 姜仕军, 2020. 惠州白盆珠水库沉积物营养元素时空变化特征及源解析. 生态环境学报 29, 1419-1426.

4. 雷远达, 燕鸿宇, 钟彩英, 冯佩君, 姜仕军(*), 2020. 沉积物记录揭示的深圳湾红树林生态系统稳态转变. 生态学报, 2020, 40(23): 8539~8548.

2019年:

1. Jiang, S. (*), Chen, X., Bernaola, G., 2019. Environmental controls on calcareous nannoplankton response to the Cretaceous/Paleogene mass extinction in the Tethys realm. Palaeogeography, Palaeoclimatology, Palaeoecology 515, 134-142.

2. Lei, Y., Wang, Y., Jordan, R.W., Jiang, S. (*), 2019. Diatoms as an evaluation tool for the ecological and environmental conditions of rivers and streams in China: a retrospective study, In: X. Yang and S. Jiang (eds.). Challenges Towards Ecological Sustainability in China: An Interdisciplinary Perspective, Springer Nature Switzerland, 69-111.

3. Yan, H., He, X., Lei, Y., Wang, Y., Su, H., Jiang, S. (*), 2019. Land use-induced change in trophic state of Shenzhen Bay (South China) over the past half-century. Marine Pollution Bulletin 145, 208-213.

4. Zhong, C., Su, H., Yan, H., Jiang, S. (*), 2019. Industrial Development of Hong Kong and its Environmental Impacts as Recorded by Sediment Pb Variation in Shenzhen Bay, South China. Advances in Oceanography & Marine Biology 1(3), 1-6.

5. Roy, R., Wang, Y., Jiang, S., 2019. Growth Pattern and Oxygen Isotopic Systematics of Modern Freshwater Mollusks Along an Elevation Transect: Implications for Paleoclimate Reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 532, 109243.

6. Wang, Y., Das, O., Xu, X., Liu, J., Jahan, S., Means, G.H., Donoghue, J., Jiang, S., 2019. Implications of radiocarbon ages of organic and inorganic carbon in coastal lakes in Florida for establishing a reliable chronology for sediment-based paleoclimate reconstruction. Quaternary Research 91, 638-649.

7. Zhao, D., Wan, S., Jiang, S., Shen, S., Ren, X., Révillon, S., Zhai, L., Dong, J., Zhang, J., Shi, X., Li, A., 2019. Quaternary sedimentary record in the northern Okinawa Trough indicates the tectonic control on depositional environment change. Palaeogeography, Palaeoclimatology, Palaeoecology 516, 126-138.

8. Yang, X., Jiang, S., 2019. Challenges Towards Ecological Sustainability in China: An Introduction, in: Yang, X., Jiang, S. (Eds.), Challenges Towards Ecological Sustainability in China: An Interdisciplinary Perspective. Springer International Publishing, Cham, pp. 3-18.

2018年:

1. Lei, Y., Du, X., Wang, Y., Chen, Q., Tang, H., Jiang, S. (*), 2018. Diatom succession dynamics controlled by multiple forces in a subtropical reservoir in southern China. Quaternary International 493, 227-244.

2. Zhang, A., Wen, X., Yan, H., He, X., Su, H., Tang, H., Jordan, R.W., Wang, Y., Jiang, S. (*), 2018. Response of microalgae to large-seaweed cultivation as revealed by particulate organic matter from an integrated aquaculture off Nan'ao Island, South China. Marine Pollution Bulletin 133, 137-143.

3. Larsen, H.C., Mohn, G., Nirrengarten, M., Sun, Z., Stock, J., Jian, Z., Klaus, A., Alvarez-Zarikian, C.A., Boaga, J., Bowden, S.A., Briais, A., Chen, Y., Cukur, D., Dadd, K., Ding, W., Dorais, M., Ferré, E.C., Ferreira, F., Furusawa, A., Gewecke, A., Hinojosa, J., Höfig, T.W., Hsiung, K.H., Huang, B., Huang, E., Huang, X.L., Jiang, S., Jin, H., Johnson, B.G., Kurzawski, R.M., Lei, C., Li, B., Li, L., Li, Y., Lin, J., Liu, C., Liu, C., Liu, Z., Luna, A.J., Lupi, C., McCarthy, A., Ningthoujam, L., Osono, N., Peate, D.W., Persaud, P., Qiu, N., Robinson, C., Satolli, S., Sauermilch, I., Schindlbeck, J.C., Skinner, S., Straub, S., Su, X., Su, C., Tian, L., van der Zwan, F.M., Wan, S., Wu, H., Xiang, R., Yadav, R., Yi, L., Yu, P.S., Zhang, C., Zhang, J., Zhang, Y., Zhao, N., Zhong, G., Zhong, L., 2018. Rapid transition from continental breakup to igneous oceanic crust in the South China Sea. Nature Geoscience 11, 782-789.

2017年:

1. Gu, Y.-G., Ouyang, J., An, H., Jiang, S. (*), Tang, H.-Q., 2017. Risk assessment and seasonal variation of heavy metals in settling particulate matter (SPM) from a typical southern Chinese mariculture base. Marine Pollution Bulletin 123, 404-409.

2. Stacklyn, S., Y. Wang, Y., C.-Z. Jin, Y. Wang, F. Sun, C. Zhang, S. Jiang, T. Deng. Carbon and oxygen isotopic evidence for diets, environments and niche differentiation of early Pleistocene pandas and associated mammals in South China. Palaeogeography, Palaeoclimatology, Palaeoecology 468, 351-361.

2016年:

1. Lei, Y., Jiang, S. (*), Wise Jr, S.W., Cui, Y., Wang, Y., 2016. Contrasting response of the calcareous nannoplankton communities after the Eocene hyperthermal events in the tropical Atlantic Ocean. Marine Micropaleontology 129, 24-31.

2. Jiang, S. (*), Wang, Y., Varol, O., Da Gama, R.O.B.P., Blaj, T., 2016. A new early Miocene Sphenolithus species from the South China Sea. Journal of Nannoplankton Research 36, 61-63.

3. 姜仕军(*), 张安弘, 2016. 适用于大量样品的钙质超微化石制片方法. 微体古生物学报 33(2), 207-210.

2015年:

1. Schueth, J.D., Bralower, T.J., Jiang, S., Patzkowsky, M.E., 2015. The role of regional survivor incumbency in the evolutionary recovery of calcareous nannoplankton from the Cretaceous/Paleogene (K/Pg) mass extinction. Paleobiology 41, 661-679.

2. Yang, Y.(*), Chai, Z., Wang, Q., Chen, W., He, Z., Jiang, S. (*), 2015. Cultivation of seaweed Gracilaria in Chinese coastal waters and its contribution to environmental improvements. Algal Research 9, 236-244.

3. 王艳杰, 唐红渠, 姜仕军(*), 2015. 广州流溪河水库沉积物粒度端元模型分析及其沉积动力学意义. 成都理工大学学报(自然科学版) 42, 476-483.

4. 郭伟龙,王亮根,杜飞雁,姜仕军, 2015. 南沙群岛海域春、秋季浮游介形类生态学特征. 水产学报 39(6), 836-845.

5. 王艳杰, 唐红渠, 姜仕军(*), 2015. 流溪河水库沉积物粒度的时空分布及其沉积动力学意义. 生态科学 34, 1-6.

2014年:

1. Wang, Y.(*), Gu, B., Lee, M.-K., Jiang, S. (*), Xu, Y., 2014. Isotopic evidence for anthropogenic impacts on aquatic food web dynamics and mercury cycling in a subtropical wetland ecosystem in the US. Science of the Total Environment 487, 557-564.

2. 段昌兵, 姜仕军, 张恩楼, 刘娟, 唐红渠, 2014. 洱海底栖动物的分布格局及其对水质生物学评价的指示意义. 生态科学 33(1), 68-75.

3. Gu, Y.-G., Lin, Q.(*), Jiang, S. (*), Wang, Z.-H., 2014. Metal pollution status in Zhelin Bay surface sediments inferred from a sequential extraction technique, South China Sea. Marine Pollution Bulletin 81, 256-261.

2013年:

1. 刘娟, 段昌兵, 唐红渠, 姜仕军(*),2013. 沉积物硅藻提纯方法的优化. 生态科学32(6), 763-768.

2. 陈秋菊, 夏伟, 唐红渠, 姜仕军(*),2013. 海南岛主要水系枯水期底栖硅藻群落特征及区系分析. 生态科学32(1), 1-7.

3. 夏伟, 陈秋菊, 唐红渠, 姜仕军,2013. 浅地层剖面探测技术在山地型水库生态研究中的应用. 生态科学 32(3), 276-281.

4. Kameo, K., Jiang, S., 2013. Data report: calcareous nannofossil biostratigraphy of Site C0009, Expedition 319, in: Saffer, D., McNeill, L., Byrne, T., Araki, E., Toczko, S., Eguchi, N., Takahashi, K., and the Expedition 319 Scientists (Ed.), Proceedings of the Integrated Ocean Drilling Program. Tokyo (Integrated Ocean Drilling Program Management International, Inc.), pp. 1-6.

5. Gu, Y.-G., Jiang, S., Lin, Q., Du, F.-Y., Zhang, L.-B., 2013. Spatial, source and risk assessment of heavy metals in sediments of the biggest mariculture base of eastern Guangdong coast, China. Fresenius Environmental Bulletin 22, 3210-3216.

2012年:

1. Gu, Y.-G., Wang, Z.-H., Lu, S.-H., Jiang, S., Mu, D.-H., Shu, Y.-H., 2012. Multivariate statistical and GIS-based approach to identify source of anthropogenic impacts on metallic elements in sediments from the mid Guangdong coasts, China. Environmental Pollution 163, 248-255.

2011年:

1. Wang, Z.-H., Nie, X.-P., Jiang, S., Zhao, J.-G., Cao, Y., Zhang, Y.-J., Wang, D.-Z., 2011. Source and profile of paralytic shellfish poisoning toxins in shellfish in Daya Bay, South China Sea. Marine Environmental Research 72, 53-59.

2. Gu, Y., Lin, Q., Yang, Y., Jiang, S., Wang, Z., Wang, X., 2011. Speciation and assessment of heavy metal in sediments from a typical mariculture base in Guangdong coast, China. Fresenius Environmental Bulletin 20, 3356-3366.

2010年:

1. Jiang, S., Bralower, T.J., Patzkowsky, M.E., Kump, L.R., Schueth, J.D., 2010. Geographic controls on nannoplankton extinction across the Cretaceous/Palaeogene boundary. Nature Geoscience 3, 280-285. 

有关报道见:http://www.nature.com/news/2010/100228/full/news.2010.94.html;  http://www.sciencedaily.com/releases/2010/03/100301102805.htm    

专评:http://www.nature.com/ngeo/journal/v3/n4/full/ngeo827.html

2. Lin, W., Doan, M.-L., Moore, J.C., McNeill, L., Byrne, T.B., Ito, T., Saffer, D., Conin, M., Kinoshita, M., Sanada, Y., Moe, K.T., Araki, E., Tobin, H., Boutt, D., Kano, Y., Hayman, N.W., Flemings, P., Huftile, G.J., Cukur, D., Buret, C., Schleicher, A.M., Efimenko, N., Kawabata, K., Buchs, D.M., Jiang, S., Kameo, K., Horiguchi, K., Wiersberg, T., Kopf, A., Kitada, K., Eguchi, N., Toczko, S., Takahashi, K., Kido, Y., 2010. Present-day principal horizontal stress orientations in the Kumano forearc basin of the southwest Japan subduction zone determined from IODP NanTroSEIZE drilling Site C0009. Geophysical Research Letters 37.

2009年:

1. Jiang, S., Wise, S.W., Jr., 2009. Distinguishing the influence of diagenesis on the paleoecological reconstruction of nannoplankton across the Paleocene/Eocene Thermal Maximum: an example from the Kerguelen Plateau, Southern Indian Ocean. Marine Micropaleontology 72, 49-59.

2. Wise, S., Olney, M., Covington, J., Egerton, V., Jiang, S., Ramdeen, D., Kulhanek, S., Schrader, H., Sims, P., Wood, A., 2007. Cenozoic Antarctic DiatomWare/BugCam: An aid for research and teaching, in: A. K. Cooper, Raymond, C.R. (Eds.), Antarctica: A Keystone in a Changing World--Online Proceedings for the Tenth International Symposium on Antarctic Earth Sciences, Open-File Report - U. S. Geological Survey, Report: OF 2007-1047, Short Research Paper 017, 4p.

2007年:

1. Jiang, S. (*), Wise, S.W., Jr., Wang, Y., 2007. Cause of the middle/late Miocene carbonate crash: dissolution or low productivity? In Teagle, D.A.H., Wilson, D.S., Acton, G.D., and Vanko, D.A. (Eds.), Proc. ODP, Sci. Results, 206: College Station, TX (Ocean Drilling Program), 1-24.

2. Jiang, S. (*), Wise, S.W., Jr., 2007. Abrupt turnover in calcareous-nannoplankton assemblages across the Paleocene/Eocene Thermal Maximum: implications for surface-water oligotrophy over the Kerguelen Plateau, Southern Indian Ocean. In Antarctica: A Keystone in a Changing World – Online Proceedings of the 10th ISAES, edited by A. K. Cooper and C. R. Raymond et al., USGS Open-File Report 2007-1047, Short Research Paper 024, 5p.

3. Jiang, S. (*), Wise, S.W., Jr., 2007. Upper Cenozoic calcareous nannofossil biostratigraphy and inferred sedimentation, ODP Leg 206, East Pacific Rise. In Teagle, D.A.H., Wilson, D.A., Acton, G.A., and Vanko, D.A. (Eds.), Proc. ODP, Sci. Results, 206: College Station, TX (Ocean Drilling Program), 1-25.

4. Jiang, S. (*), Wise, S.W., Jr., 2007. Taxonomic note: A new Coccolithus species that thrived during the Paleocene/Eocene Thermal Maximum. Journal of Nannoplankton Research, 29(2): 88-91.

5. 林景星, 杨慧宁, 姜仕军, 王绍芳, 张静, 魏明瑞, 许波, 2007. 南海盆地新近纪浮游有孔虫带, 气候, 生物生产力爆炸事件和沉降速度的转换时限. 地质学报 81, 285-294.

2006年:

1. Jiang, S. (*), Wise, S.W., Jr., 2006. Surface-water chemistry and fertility variations in the tropical Atlantic across the Paleocene/Eocene thermal maximum as evidenced by calcareous nannoplankton from ODP Leg 207, Hole 1259B. Revue de Micropaleontologie 49, 227-244.

2. Jiang, S. (*), Wise, S.W., Jr., 2006. Taxonomic note: Discoaster stellulus Gartner, 1967, emended. Journal of Nannoplankton Research, 28(2): 81–83.

3. Wilson, D.S., Teagle, D.A.H., Alt, J.C., Banerjee, N.R., Umino, S., Miyashita, S., Acton, G.D., Anma, R., Barr, S.R., Belghoul, A., Carlut, J., Christie, D.M., Coggon, R.M., Cooper, K.M., Cordier, C., Crispini, L., Durand, S.R., Einaudi, F., Galli, L., Gao, Y., Geldmacher, J., Gilbert, L.A., Hayman, N.W., Herrero-Bervera, E., Hirano, N., Holter, S., Ingle, S., Jiang, S., Kalberkamp, U., Kerneklian, M., Koepke, J., Laverne, C., Vasquez, H.L.L., Maclennan, J., Morgan, S., Neo, N., Nichols, H.J., Park, S.-H., Reichow, M.K., Sakuyama, T., Sano, T., Sandwell, R., Scheibner, B., Smith-Duque, C.E., Swift, S.A., Tartarotti, P., Tikku, A.A., Tominaga, M., Veloso, E.A., Yamasaki, T., Yamazaki, S., Ziegler, C., 2006. Drilling to Gabbro in Intact Ocean Crust. Science 312, 1016-1020.

2005年及以前:

1. 林景星, 张静, 姜仕军, 王绍芳, 许波, 魏明瑞, 2004. 南海珠江口盆地 LH-19-4-1 井新近纪有孔虫生物地层研究. 地层学杂志 28, 120-125.

2. Persico, D., Wise, S.W., Jiang, S., 2003. Oligocene–Holocene calcareous nannofossil biostratigraphy and diagenetic etch patterns on Quaternary placoliths at ODP Site 1139 on Skiff Bank, northern Kerguelen Plateau. In Frey, F.A., Coffin, M.F., Wallace, P.J., and Quilty, P.G. (Eds.), Proc. ODP, Sci. Results, 183: College Station, TX (Ocean Drilling Program), 1-19.

3. 姜仕军(*), 1999. 珠江口盆地 PY27-2-1井高分辨率钙质超微生物地层和层序地层研究. 中国海上油气(地质)13(3), 189-195.

4. 段威武, 陈芳, 魏国彦, 姜仕军, 1998. 近15000年来南海东北部钙质超微化石特征及古海洋学意义. 海洋地质与第四纪地质18(1): 13-22.

专著:

Xiaojun Yang, Shijun Jiang, 2019. Challenges towards Ecological Sustainability in China: An Interdisciplinary Perspective. Springer Nature, 340p. Fulltext PDF: https://link.springer.com/book/10.1007/978-3-030-03484-9

专辑:

Jian, Zhimin, Jiang, Shijun, Jordan, Richard W., 2000. Micropaleontological response to the evolution of West Pacific marginal seas. Marine Micropaleontology special issue (https://www.sciencedirect.com/journal/marine-micropaleontology/special-issue/107SMBDCFNW)