博士毕业于中国海洋大学，现为自然资源部第一海洋研究所研究员。中国海洋学会海洋化学分会第四届委员会委员、中国海洋湖沼学会化学分会理事；《Acta Oceanologica Sinica》、《海洋学报》等期刊第一届青年编委会委员；自然资源部第一海洋研究所束星北青年学者（2020年度）、卫星海洋环境动力学国家重点实验室青年访问海星学者（2023年度）。研究方向为海洋生物地球化学和化学海洋学，主要聚焦海洋缺氧/脱氧、营养盐动力学、典型中尺度物理过程（冲淡水扩展、锋面、上升流和涡旋等）的生物地球化学-生态响应及其环境效应等。先后主持国家自然科学基金青年项目和面上项目、自然资源部专项任务等多项。参与联合国“海洋十年”项目“黑潮与边缘海的交换及其生态效应”和“亚洲近海溶解氧和缺氧研究”。以第一/通讯作者在Journal of Geophysical Research: Oceans、Science China: Earth Sciences、中国科学：地球科学等国内外知名期刊发表学术论文40余篇；参编著作4部。

1. Wei Q.*, Xin, M., Meng, Q., Zhao, B., Teng, F., Xie, L., Zhai, X., Sun, X., Zhou, F., & Wang, B.* (2024). Upwelling regulates nutrient supply and phytoplankton chlorophyll-a regime on the East China Sea shelf during late summer. Journal of Geophysical Research: Oceans, 2024, 129, e2023JC020569.

2. Ding, H., Wei, Q.*, Xin, M., Zhao, Y., Zhao, B., Wang, M., Teng, F., Liu, X., & Wang, B*. (2024). An inner shelf penetrating front and its potential biogeochemical effects in the East China Sea during October. Acta Oceanologica Sinica, 43 (11), 1-11. 

3. Wei, Q.*, Fu, M., Li, X., Sun, J., Wang, B., & Yu, Z. (2022). Front-Driven Physical-Biogeochemical-Ecological Interactions in the Yellow Sea Large Marine Ecosystem. In: The Handbook of Environmental Chemistry. Springer, Berlin, Heidelberg. https://doi.org/10.1007/698_2021_832.

4. Wei Q.*, Yuan, Y., Song, S., Zhao, Y., Sun, J., Li, C., & Wang, B*. (2022). Spatial variability of hypoxia and coupled physical-biogeochemical controls off the Changjiang (Yangtze River) Estuary in summer. Frontiers in Marine Science, 9, 987368.

5. Wei, Q.*, Yao, P., Xu, B., Zhao, B., Ran, X., Zhao, Y., Sun, J., Wang, B.*, & Yu, Z. (2021). Coastal upwelling combined with the river plume regulates hypoxia in the Changjiang Estuary and adjacent inner East China Sea shelf. Journal of Geophysical Research: Oceans, 126, e2021JC017740.

6. Wei, Q.*, Wang, B.*, Zhang, X., Ran, X., Fu, M., Sun, X., & Yu, Z. (2021). Contribution of the offshore detached Changjiang (Yangtze River) Diluted Water to the formation of hypoxia in summer. Science of the Total Environment, 764, 142838.

7. Wei, Q.*, Xue, L., Yao, Q., Wang, B.*, & Yu, Z. (2021). Oxygen decline in a temperate marginal sea: Contribution of warming and eutrophication. Science of the Total Environment, 757, 143227.

8. Wei, Q.*, Fu, M., Sun, J., Yao, Q., Wang, B.*, Liu, X., & Yu, Z. (2020). Seasonal physical fronts and associated biogeochemical-ecological effects off the Jiangsu Shoal in the Western Yellow Sea, China. Journal of Geophysical Research: Oceans, 125, e2020JC016304.

9. Wei, Q.*, Wang, B., Fu, M., Sun, J., Yao, Q., Xin, M., & Yu, Z. (2020). Spatiotemporal variability of physical-biogeochemical processes and intrinsic correlations in the semi-enclosed South Yellow Sea. Acta Oceanologica Sinica, 39 (10), 11-26.

10. Xue, L.*, Yang, X., Li, Y., Li, L., Jiang, L.-Q., Xin, M., Wang, Z., Sun, X., & Wei, Q.* (2020). Processescontrolling sea surface pH and aragonite saturation state in a large northern temperate bay: Contrasting temperature effects. Journal of Geophysical Research: Biogeosciences, 125, e2020JG005805.

11. Wei, Q.*, Yao, Q., Wang, B., Xue, L., Fu, M., Sun, J., Liu, X., & Yu, Z. (2019). Deoxygenation and its controls in a semienclosed shelf ecosystem, northern Yellow Sea. Journal of Geophysical Research: Oceans, 124, 9004-9019.

12. Wei, Q.*, Wang, B., Yao, Q., Yu, Z., Fu, M., Sun, J., Xu, B., Xie, L., & Xin, M. (2019). Physical-biogeochemical interactions and potential effects on phytoplankton and Ulva prolifera in the coastal waters off Qingdao (Yellow Sea, China). Acta Oceanologica Sinica, 38 (2), 11-23. 

13. Wei, Q.*, Wang, B., Yao, Q., Xue, L., Sun, J., Xin, M., & Yu, Z. (2019). Spatiotemporal variations in the summer hypoxia in the Bohai Sea and controlling mechanisms. Marine Pollution Bulletin, 138, 125-134. 

14. Wei, Q.*, Wang, B., Yao, Q., Fu, M., Sun, J., Xu, B., & Yu, Z. (2018). Hydro-biogeochemical processes and their implications for Ulva prolifera blooms and expansion in the world's largest green tide occurrence region (Yellow Sea, China). Science of the Total Environment, 645, 257-266.

15. Wei, Q.*, Wang, B., Yu, Z., Chen, J., & Xue, L. (2017). Mechanisms leading to the frequent occurrences of hypoxia and a preliminary analysis of the associated acidification off the Changjiang estuary in summer. Science China: Earth Sciences, 60 (2), 360-381. 

16. Wei, Q.*, Yu, Z., Wang, B., Wu, H., Sun, J., Zhang, X., Fu, M., Xia, C., & Wang, H. (2017). Offshore detachment of the Changjiang River plume and its ecological impacts in summer. Journal of Oceanography, 73, 277-294.

17. Wei, Q.*, Yu, Z., Wang, B., Fu, M., Xia, C., Liu, L., Ge, R., Wang, H., & Zhan, R. (2016). Coupling of the spatial-temporal distributions of nutrients and physical conditions in the southern Yellow Sea. Journal of Marine Systems, 156, 30-45.

18. Wei, Q.*, Li, X., Wang, B., Fu, M., Ge, R., & Yu, Z. (2016). Seasonally chemical hydrology and ecological responses in frontal zone of the central southern Yellow Sea. Journal of Sea Research, 2016, 112, 1-12.

19. Wei, Q.*, Wang, B., Chen, J., Xia, C., Qu, D., & Xie, L. (2015). Recognition on the forming-vanishing process and underlying mechanisms of the hypoxia off the Yangtze River estuary. Science China: Earth Sciences, 58 (4), 628-648.

20. Wei, Q., Yao, Q., Wang, B., Wang, H., & Yu, Z*. (2015). Long-term variation of nutrients in the southern Yellow Sea. Continental Shelf Research, 111, 184-196. 

21. Guo, X., Wei, Q., Xu, B., Burnett, W.C., Bernhard, J. M., Nan, H., Lian, E., Yang, S., & Yu, Z. (2021). A benthic monitor for coastal water dissolved oxygen variation: Mn/Ca ratios in tests of an epifaunal foraminifer. Journal of Geophysical Research: Oceans, 126, e2021JC017860.

22. Wang, K., Wei, Q., Jian, H., Gao, Z., & Yao, Q., (2022). Variations in the nutrient concentration and composition in Liaodong Bay under long-term human activities. Marine Pollution Bulletin, 182, 114016.

23. Xiong, T., Wei, Q., Zhai, W., Li, C., Wang, S., Zhang, Y., Liu, S., & Yu, S. (2020). Comparing subsurface seasonal deoxygenation and acidification in the Yellow Sea and northern East China Sea along the north-to-south latitude gradient. Frontiers in Marine Science, 7, 686.

24. Yang, F., Wei, Q., Chen, H., Yao, Q. (2018). Long-term variations and influence factors of nutrients in the western North Yellow Sea, China. Marine Pollution Bulletin, 135, 1026-1034.

25. Wang, B., Wei, Q., Chen, J., & Xie, L. (2012). Annual cycle of hypoxia off the Changjiang (Yangtze River) Estuary. Marine Environmental Research, 77, 1-5.

26. Zhao, B., Yao, P., Wei, Q., Bianchi, T. S., Watts, E. G., Wang, B, & Yu, Z. (2024). Effects of seasonal deposition-erosion cycle on sedimentary organic carbon remineralization and oxygen consumption in a large-river delta-front estuary. Science of the Total Environment, 916, 170377.

27. Jiang, Z., Song, D., Wei, Q., & Ding, Y. (2022). Impact of wave-current interactions on the detachment of low-salinity water from Changjiang River plume and its subsequent evolution. Frontiers in Marine Science, 9, 863540.

28. Wang, J., Yu, Z., Wei, Q., Yang, F., Dong, M., Li, D., Gao, Z., & Yao, Q. (2020). Intra- and inter-seasonal variations in the hydrological characteristics and nutrient conditions in the southwestern Yellow Sea during spring to summer. Marine Pollution Bulletin, 156, 111139.

29. Wang, J., Yu, Z., Wei, Q., Yao, Q. (2019). Long-term Nutrient Variations in the Bohai Sea over the Past 40 Years, Journal of Geophysical Research: Oceans, 124, 703–722.

30. Wang, B., Xin, M., Wei, Q., & Xie, L. (2018). A historical overview of coastal eutrophication in the China Seas. Marine Pollution Bulletin, 136, 394-400.

31. Zhu, T., Xu, B., Guo, X., Wei, Q., Lian, E., Liu, P., Burnett, W.C., Yao, Q., & Yu, Z. (2023). Submarine groundwater discharge and seasonal hypoxia off the Changjiang River Estuary. Acta Oceanologica Sinica, 42, 125-133.

32. Xue, L., Cai, W.-J., Jiang, L.-Q., & Wei, Q. (2021). Why are surface ocean pH and CaCO3 saturation state often out of phase in spatial patterns and seasonal cycles? Global Biogeochemical Cycles, 35, e2021GB006949.

33. Guo, X., Xu, B., Burnett, W.C., Wei, Q., Nan, H., Zhao, S., Charette, M.A., Lian, E., Chen, G., & Yu, Z. (2020). Does submarine groundwater discharge contribute to summer hypoxia in the Changjiang (Yangtze) River Estuary? Science of the Total Environment, 719, 137450.
   34. Liu, J., Yao, Q., Mi, T., Wei, Q., Chen, H., & Yu, Z. (2022). Change of the long-term nitrogen and phosphorus in the Changjiang (Yangtze) River Estuary. Frontiers in Marine Science, 9, 885311.

35. Gao, P., Du, G., Zhao, D., Wei, Q., Zhang, X., Qu, L., & Gong, X. (2021). Influences of seasonal monsoons on the taxonomic composition and diversity of bacterial community in the eastern tropical Indian Ocean. Frontiers in Microbiology, 11, 615221.

36.  Gao, P., Qu, L., Du, G., Wei, Q., Zhang, X., & Yang, G. (2021). Bacterial and archaeal communities in deep seawaters near Ninety East Ridge in Indian Ocean. Journal of Oceanology and Limnology, 39 (2), 582-597.

37. Xie, L., Wang, B., Xin, M., Wei, Q., Wang, W., He, X., Wang, J., Shi, X., & Sun, X. (2020). Impacts of coppicing on Tamarix chinensis growth and carbon stocks in coastal wetlands in northern China. Ecological Engineering, 147, 105760.

38. Yuan, C., Xu, Z., Zhang, X., Wei, Q., Wang, H., & Wang, Z. (2019). Photosynthetic physiologies of phytoplankton in the eastern equatorial Indian Ocean during the spring inter-monsoon. Acta Oceanologica Sinica, 38 (6), 83-91.

39. Fu, M., Sun, P., Wang, Z., Wei, Q., Qu, P., Zhang, X., & Li, Y. (2018). Structure, characteristics and possible formation mechanisms of the subsurface chlorophyll maximum in the Yellow Sea Cold Water Mass. Continental Shelf Research, 165, 93-105.

40. Wang, B., Xin, M., Sun, X., Wei, Q., & Zhang, X. (2016). Does reduced sediment load contribute to increased outbreaks of harmful algal blooms off the Changjiang Estuary? Acta Oceanologica Sinica, 35 (8), 16-21.

41. Fu, M., Wang, Z., Pu, X., Qu, P., Li, Y., Wei, Q., & Jiang, M. (2016). Response of phytoplankton community to nutrient enrichment in the subsurface chlorophyll maximum in Yellow Sea Cold Water Mass. Acta Ecologica Sinica, 36 (1), 39-44.

42. Xin, M., Wang, B., Xie, L., Sun, X., Wei, Q., Liang, S., & Chen, K. (2019). Long-term changes in nutrient regimes and their ecological effects in the Bohai Sea, China. Marine Pollution Bulletin, 146, 562-573.

43. Qu, D., Yu, H., Sun, Y., Zhao, Y., Wei, Q., Yu, H., Kelly, R. M., & Yuan, Y. (2019). Numerical study on the summertime patches of red tide in the adjacent sea of the Changjiang (Yangtze) River Estuary, China. Marine Pollution Bulletin, 143, 242-255.

44. Gao, C., Fu, M., Song, H., Wang, L., Wei, Q., Sun, P., Liu, L., & Zhang, X. (2018). Phytoplankton pigment pattern in the subsurface chlorophyll maximum in the South Java coastal upwelling system, Indonesia. Acta Oceanologica Sinica, 37 1(2), 97-106.

45. Xue, L. Wang, H., Jiang, L.-Q., Cai, W.-J., Wei, Q., Song, H., Kuswardani, R.T.D., Pranowo, W.S., Beck, B., Liu, L., & Yu, W. (2016). Aragonite saturation state in a monsoonal upwelling system off Java, Indonesia. Journal of Marine Systems, 153, 10-17.

46. Xie, L., Xu, H., Xin, M., Wang, B., Tu, J., Wei, Q., & Sun, X. (2022). Regime shifts in trophic status and regional nutrient criteria for the Bohai Bay, China. Marine Pollution Bulletin, 136, 394-400.

47. Yuan, C., Zhang, X., Wang, Z., Li, Y., Xu, Z., Wei, Q., & Liu, L. (2021). Latitudinal distribution of the picoplankton community in the eastern equatorial Indian Ocean during the boreal fall intermonsoon period. Deep-Sea Research I, 168, 103451.

48. Xie, L., Wang, B., Xin, M., Wang, M., He, X., Wei, Q., Shi, X., & Sun, X. (2019). Characteristics of vegetation carbon, nitrogen, and C/N ratio in a tamarix chinensis coastal wetland of China. Clean-Soil, Air, Water, 47, 1800452.

49. Cui, Z., Luan, X., Li, S, Li, Y., Bian, X., Li, G., Wei, Q., Ran, X., Bao, Mu., & Valentine, D.L. (2022). Occurrence and distribution of cyclic-alkane-consuming psychrophilic bacteria in the Yellow Sea and East China Sea. Journal of Hazardous Materials, 427, 128129.

50. Xie, L., Wang, B., Pu, X., Xin, M., He, P., Li, C., Wei, Q., Zhang, X., & Li, T. (2019). Hydrochemical properties and chemocline of the Sansha Yongle Blue Hole in the South China Sea. Science of the Total Environment, 649, 1281-1292.

51. Zhang, W., Pan, S., Yu, L., Zhang, H., Chen, F., Song, G., Hu, J., Wei, Q., Zhao, H., Chen, J., & Zhou, F. (2025). Dissolved oxygen depletion in Chinese coastal waters. Water Research, 272, 123004.

52. Guo, X., Lian, E., Yuan, H., Burnett, W.C., Zhang, H., Zhang, M., Xiao, K., Wei, Q., Yu, Z., & Xu, B. (2024). Proxies of hypoxia and submarine groundwater discharge in the coastal ocean: Foraminiferal shell chemical perspectives. Marine Chemistry, 265–266, 104434.

53. Li, H., Zhang, J., Wang, X., Zhu, Y., Liu, L., Wang, B., Zhang, X., Wei, Q., Ding, R., Xuan, J., Shou, L., Zhou,F., & Chen, J. (2022). Robust subsurface biological response during the decaying stage of an extreme Indian Ocean Dipole in 2019. Geophysical Research Letters, 49, e2022GL099721.

54. He, X., Wang, B., Xie, L., Xin, M., Wang, W., Wang, Z., Zhang, W., & Wei, Q. (2016). Effects of Tamarisk shrub on physicochemical properties of soil in coastal wetland of the Bohai Sea. Acta Oceanologica Sinica, 35 (5), 106-112.

55. Xue, L. Yu, W., Wang, H., Jiang, L.-Q., Feng, L., Gao, L., Li, K., Li, Z., Wei, Q., & Ning, C. (2014). Temporal changes in surface partial pressure of carbon dioxide and carbonate saturation state in the eastern equatorial Indian Ocean during the 1962-2012 period. Biogeosciences, 11, 6293-6305.

56. Xiong, T., Li, H., Hu, Y., Zhai, W., Zhang, Z., Liu, Y., Zhang, J., Lu, L., Chang, L., Xue, L., Wei, Q., Jiao, N., & Zhang, Y. (2024). Seaweed farming environments do not always function as CO₂ sink under synergistic influence of macroalgae and microorganisms. Agriculture, Ecosystems and Environment, 361, 108824.

57. 韦钦胜*, 王保栋, 于志刚, 陈建芳, 薛亮. (2017). 夏季长江口外缺氧频发的机制及酸化问题初探. 中国科学: 地球科学, 47 (1), 114-134.

58.韦钦胜*, 王保栋, 陈建芳, 夏长水, 曲大鹏, 谢琳萍. (2015). 长江口外缺氧区生消过程和机制的再认知. 中国科学: 地球科学, 45 (2), 187-206.

59.韦钦胜*, 于志刚, 葛人峰, 王辉武, 王保栋. (2013). 黄海西部沿岸冷水在夏季南黄海西部底层冷水形成和季节演变过程中作用的化学水文学分析. 海洋与湖沼, 44 (4): 890-905.

60.韦钦胜*, 傅明珠, 李艳, 王保栋, 于志刚. (2013). 南黄海冷水团海域溶解氧和叶绿素最大值及营养盐累积的季节演变. 海洋学报, 35 (4), 142-154.

61.韦钦胜*, 王辉武, 葛人峰, 王保栋. (2013). 南黄海悬浮体的垂直分布特性及其指示意义. 地球科学进展, 28 (3), 374-390.

62.韦钦胜*, 王辉武, 葛人峰, 谢琳萍. (2013). 黄海和东海分界线附近水文、化学特征的季节性演替. 海洋与湖沼, 44 (5), 1170-1181.

63.韦钦胜*, 王保栋. (2012). 南黄海西部冷水团海域及近岸区表层沉积物中碳、氮、磷的分布特征及其生态学指示意义. 环境科学学报, 32 (7), 1697-1707.

64.韦钦胜*, 葛人峰, 李艳, 范士亮, 傅明珠. (2012). 夏季江苏近海水文化学要素特征及其对沿岸水东北向扩展的指示. 海洋学报, 34 (5), 197-204.

65.韦钦胜*, 刘璐, 臧家业, 冉祥滨. (2012). 南黄海悬浮体浓度的平面分布特征及其输运规律. 海洋学报, 34 (2), 73-83.

66.韦钦胜*, 于志刚, 夏长水, 臧家业, 冉祥滨, 张学雷. (2011). 夏季长江口外低氧区的动态特征分析. 海洋学报, 33 (6), 100-109.

67.韦钦胜*, 于志刚, 冉祥滨. (2011). 黄海西部沿岸流系特征分析及其对物质输运的影响. 地球科学进展, 26 (2), 145-156.

68.韦钦胜*, 臧家业, 战闰, 李瑞香. (2011). 夏季长江口东北部上升流海域的生态环境特征. 海洋与湖沼, 42 (6), 899-905.
        69.韦钦胜*, 葛人峰, 臧家业, 李瑞香. (2011). 夏季南黄海跨锋断面的生态环境特征及锋区生态系的提出. 海洋学报, 33 (3), 74-84.

70.韦钦胜*, 葛人峰, 李瑞香. (2011). 南黄海西部36°N断面生态环境特征及其季节变化. 海洋学报, 33 (5), 61-71.

71.韦钦胜*, 臧家业, 魏修华, 刘璐. (2011). 秋季南黄海西部营养盐的分布及其与环流场的关系. 海洋学报, 33 (1), 74-82.
        72. 韦钦胜*, 战闰, 魏修华, 臧家业, 王守强, 王宗兴. (2010). 夏季长江口东北部海域DO分布及低氧特征. 海洋科学进展, 28 (1), 32-40.

73.韦钦胜*, 吕新刚, 王宗兴, 王守强. (2010). 黄海陆架锋特征及其生态效应的初步分析. 地球科学进展, 25 (4), 435-443.

74.韦钦胜*, 魏修华, 谢琳萍. (2010). 2007年春季南黄海溶解氧的分布特征及影响因素. 海洋科学进展, 28 (2), 179-185.

75.韦钦胜*, 傅明珠, 葛人峰. (2010). 南黄海冷水域 35°N 断面化学水文学特征及营养盐的季节变化. 环境科学, 31 (9), 2063-2074.

76.韦钦胜*, 魏修华, 战闰, 刘璐. (2010). 夏季南黄海西部溶解氧的分布特征及其影响因素分析. 海洋环境科学, 29 (6), 808-814.

77.韦钦胜*, 葛人峰, 王保栋. (2009). 南黄海冷水域西部溶解氧垂直分布最大值现象的成因分析. 海洋学报, 31 (4), 69-77.

78.韦钦胜. (2016). 黄海冷水团中溶解氧垂直分布最大值现象. 《中国近海海洋: 海洋化学》独立章节, p305-313.

79. 唐景荣, 韦钦胜*, 赵宇航, 孙霞, 辛明, 谢琳萍, 王保栋. (2025). 2021年夏 末秋初渤海和北黄海的溶解氧分布与低氧特征. 海洋学报, 47 (3), DOI: 10.12284/hyxb2025032

80.张宇, 韦钦胜*, 辛明, 翟星, 孙霞, 谢琳萍, 赵彬, 邹亚文, 王保栋. (2025).夏季南海东北部涡旋对营养盐和叶绿素a分布的影响.  海洋科学进展, 43 (2),  DOI: 10.12362/j.issn.1671-6647.20240927001.  

81.赵宇航, 韦钦胜*, 辛明, 谢琳萍, 孙霞, 王保栋. (2023). 春末东海北部冷涡区的环境特征及藻华成因探讨. 中国环境科学, 43 (3), 1349-1359.

82.吴林妮, 韦钦胜*, 辛明, 王明玉, 滕飞, 谢琳萍, 孙霞, 王保栋. (2023). 春季东海营养盐的空间分布格局和控制机制. 海洋科学进展, 41 (4), 622-636.

83.吴林妮, 韦钦胜*, 冉祥滨, 孙俊川, 王保栋. (2021). 南黄海-长江口海域溶解氧分布和低氧、酸化特征及其控制因素. 中国环境科学, 41 (3), 1311-1324. 

84.韦世金，孟倪，韦钦胜，庄光超. (2024). 沉积物活性铁猛特征对比研究及其对有机碳矿化的意义——以长江口、黄海中部陆架泥质区和黄河口为例. 海洋科学进展, 42 (4), 643-662.

85.冉祥滨, 韦钦胜, 于志刚. (2023). 中国近海营养盐结构失衡与磷消耗问题及其生态环境效应的研究进展. 海洋科学, 47 (8), 75-89.

86.刘东艳, 吕婷, 林磊, 韦钦胜. (2022). 我国近海陆架锋面与生态效应研究回顾. 海洋科学进展, 40 (4), 725-741.

87.王福涛, 于仁成, 李景喜, 毛德华, 汪承义, 贾明明, 廖静娟, 胡仔园, 顾海峰, 韦钦胜, 张丽, 唐世林. (2021). 中国科学院院刊, 36 (8), 932-939.

88.孙萍, 李艳, 潘玉龙, 韦钦胜, 袁超, 张学雷, 王宗灵. (2020). 热带东印度洋春季浮游植物群落结构空间特征分析. 海洋学报, 42 (8), 76-88.

89.鲁小曼, 尚琨, 刘欣, 韦钦胜, 冉祥滨, 杜光迅, 赵淑江, 曲凌云. (2019). 长江口表层沉积物中可培养有机解磷菌多样性特征. 海洋科学进展, 37 (3), 495-507.

90.李劳钰, 孙霞, 王宗兴, 辛明, 韦钦胜, 高立宝, 薛亮. (2019). 胶州湾秋季文石饱和度分布及控制因素分析. 海洋科学进展, 37 (2), 315-324.

91.王俊杰, 于志刚, 韦钦胜, 董明帆, 杨福霞, 李丹丹, 高志梅, 姚庆祯. (2018). 2017年春、夏季南黄海西部营养盐的分布特征及其与浒苔暴发的关系. 海洋与湖沼, 49 (5), 1045-1053.

92.王颖, 王保栋, 韦钦胜, 孙霞, 辛明, 刘琳. (2018). 东印度洋中部缺氧区的季节变化特征. 海洋科学进展, 36 (2), 262-271.

93.赵世彬, 姚庆祯, 于志刚, 许博超, 韦钦胜, 南海明. (2018). 苏北浅滩海底地下水排放及其对海域营养盐通量的贡献. 海洋与湖沼, 49, 1038-1044.

94.谢琳萍, 王敏, 王保栋, 石晓勇, 辛明, 韦钦胜, 何秀平, 郭富. (2017). 莱州湾滨海柽柳林湿地植被碳储量的分布特征及其影响因素. 应用生态学报, 28 (4), 1103-1111.

95.张文全, 王保栋, 韦钦胜, 孙霞, 辛明, 王子成. (2016). 春季东印度洋次表层亚硝酸盐最大值的分布特征及影响因素. 海洋科学进展, 34 (3), 403-410.

96.薛亮, 王辉武, 韦钦胜, 李劳钰, 于卫东. (2015). 季风上升流对印尼爪哇岛南部海域pH影响的初步研究. 海洋学报, 37 (8), 1-8.

97.王子成, 王保栋, 辛明, 孙霞, 韦钦胜, 杨波. (2015). 三峡水库正常蓄水后长江口海域营养盐的分布与结构变化. 海洋科学进展, 33 (1), 100-106.

98.辛明, 马德毅, 王保栋, 韦钦胜, 孙霞, 谢琳萍. (2013). 黄海溶解氧的平面分布特征及其季节变化. 中国海洋大学（自然科学版）, 43 (7), 55-60.

99.王保栋, 孙霞, 韦钦胜, 谢琳萍. (2012). 我国近岸海域富营养化评价新方法及应用. 海洋学报, 4, 61-66.

100.杨波, 王保栋, 韦钦胜, 孙霞. (2012). 低氧环境对沉积物中生源要素生物地球化学循环的影响. 海洋科学, 5, 124-129.

获奖与荣誉

1. 获评“第二届《中国环境科学》青年论坛”优秀报告（2024年）

2. 自然资源部第一海洋研究所优秀共产党员（2023年度）

主持项目

1. 2019.01-2022.12    国家自然科学基金面上项目：夏季长江口外东北部低盐水团频发区的生物地球化学过程及机制（41876085）。 62万元，主持

2. 2020.01-2022.12    自然资源部第一海洋研究所束星北青年学者基金：人类活动和自然变化影响下的长江口低/缺氧过程及评估（2020S03）。 100万元，主持

3. 2024.01-2027.12    国家自然科学基金委-浙江省联合基金课题：多尺度海洋动力过程对藻华-缺氧-酸化及其碳汇效应的调控机制（U23A2033）。60万元，主持

4. 2020.01-2023.12    国家自然科学基金委-山东省联合基金课题：南黄海绿潮频发区营养盐的供给和控制机制（U1906210）。 60万元，主持

5. 2022.01-2025.12    崂山实验室科技创新项目：印度洋I1断面观测-生化部分（LSKJ202201703）。 100万元，主持

6. 2017.01-2021.12    国家自然科学基金重点国际（地区）合作研究项目课题：长江口及邻近海域沉积有机碳的保存机制研究（41620104001）。30万元，主持

7. 2019.01-2022.12    国家自然科学基金面上项目课题：多核素示踪海底地下水排放对长江口外低氧形成的贡献（41876075）。 8万元，主持

8. 2020.01-2021.12    国家自然科学基金委专项项目：共享航次计划2019年度南海东北部-吕宋海峡科学考察（NORC2020-05）（41949905）。450万元，首席科学家

9. 2013.01-2015.12    国家自然科学基金青年基金项目：长江口外缺氧区耗氧及有机碳矿化（41206068）。26万元，主持 

10. 2016.08-2019.07    中央级公益性科研院所基本科研业务费专项资金：夏季长江口外低氧频发的机制及对CO₂ 源/汇的影响（2016S08）。40万元，主持 

11. 2018.01-2021.12    中国大洋矿产资源研究开发协会国际海域资源环境调查与评价项目子课题：东印度洋海域低氧和酸化及生物地球化学过程（DY135-E2-4-03）。43万元，主持

12. 2018.01-2020.12    青岛海洋科技中心海洋生态与环境科学功能实验室开放基金：夏季黄海冷水团锋面系统的生物地球化学作用及机制研究（LMEES201808）。8万元，主持

13. 2018.01-2020.12    自然资源部“全球变化与海气相互作用专项”任务课题：热带大洋营养盐分布与输运研究（FZ0819006）。57 万元，主持

14. 2020.01-2020.12    中国科学院空天信息创新研究院“地球大数据科学工程”支撑海洋可持续发展案例研究：中国近海富营养化、低/缺/脱氧和酸化等生态环境问题及演变。10万元，主持

15. 2022.01-2022.12    中国科学院空天信息创新研究院“地球大数据科学工程”支撑海洋可持续发展案例研究：气候变暖和人类活动影响下的我国典型边缘海脱氧和酸化。8万元，主持

16. 2021.01-2021.12    中国科学院空天信息创新研究院“地球大数据科学工程”支撑海洋可持续发展案例研究：大河控制性影响下陆架海低氧和酸化过程及其与藻华的关系。8万元，主持