个人基本信息：

姓名：祁第

国籍：中国

性别：男

职称：教授

最高学历：博士

所属专业：海洋化学

毕业院校：厦门大学

研究方向：海洋碳汇、海洋酸化、海洋环境科学、海洋生物地球化学

办公地点：集诚楼B座 极地与海洋研究院

邮箱：qidi@jmu.edu.cn; qidi60@qq.com

主讲课程：海洋科学导论、极地海洋科学、海洋资源环境开发与利用、海洋碳中和

个人简介：

祁第，男，1984年12月生。博导，国家重大人才工程CJ学者奖励计划特聘教授、国家WR计划青年拔尖人才，集美大学“杰出”岗位教授、极地与海洋研究院院长。兼任国家自然科学基金委共享航次计划第五届指导组专家、国家重点研发计划专项总体专家组、中国高校极地联盟理事、中国极地青年科学家协会理事会理事、全球海洋酸化观测网（GOA-ON）中国区成员等。曾获国家海洋工程科学技术特等奖（排名第二）、福建省五四青年奖章、福建省最美科技工作者。主持包括国家重点国际（地区）合作研究项目、国家重点研发计划项目及课题、国家人才项目及国家自然科学基金面上项目、青基项目等6项国家级项目，主持福建省本科教学改革重大项目、福建省杰青等省级基金项目。

长期从事海洋碳汇与酸化及其相关的海洋生物地球化学过程等研究，主要研究方向包括：海洋碳汇与无机碳、近海碳增汇与滨海蓝碳等。以第一和通讯作者在Science、Nature Climate Change (封面文章)、Science Bulletin、Geophysical Research Letters、Global Biogeochemical Cycles、Communications Earth & Environment、Limnology and Oceanography Letters等期刊发表SCI论文30余篇。研究成果入选2017年度“中国十大海洋科技进展”、入围2022年度“中国科技十大进展”前30项并作为原始创新成果入选《前沿科学：2022年度中国科学十大进展》专辑。

人才计划

教育部CJ学者奖励计划特聘教授

国家级“WR计划”青年拔尖人才

福建省/厦门市高层次人才（“A类”）

集美大学“杰出人才”岗位教授，博导

主要任职

集美大学极地与海洋研究院院长（2022-）

国家重点研发计划重点专项总体专家组成员（2022-2026）

国家自然科学基金委共享航次计划第五届指导组专家

全球海洋酸化观测网（GOA-ON）中国区成员（2019-）

北太平洋海洋科学(PICES)组织青年科学家分会中方代表（2020-）

中国极地青年科学家协会（APESCS China）第一届理事会理事（2018-）

《极地研究》期刊编委（2022-）

《Discovers Oceans》期刊编委（2023-）

工作经历

集美大学 教授博士研究生导师（2021-）

厦门大学兼职讲座教授（2025-）

武汉大学兼职教授（2022-）

自然资源部第三海洋研究所 副研究员（2018-2021）
自然资源部第三海洋研究所 助理研究员（2017-2018）
南京信息工程大学兼职硕士研究生导师

上海海洋大学兼职硕士研究生导师

研究成果

  在探索极地与大洋海洋碳汇和酸化及近海碳增汇科学与技术方面取得了进展：1）构建和剖析极地海洋碳汇长时间序列观测数据，发现北冰洋酸化水体快速扩张，范围和速率都远高于全球其它大洋，并提出“融冰强化大气CO₂驱动酸化”新理论。2）首次估算出从泛南极洲大陆架到南大洋深层的人为二氧化碳输出量占全球大陆架净CO₂吸收总量的30% 并导致强烈的深海酸化，提出极区深层水形成区具有全球最强大的陆架碳泵“CSP”量级，CSP是碳进入海洋内部的关键路径新机制。3）构建西北太平洋长时间序列观测数据，发现过去数十年间北太平洋模态水（STMW）模态水驱动CO₂的吸收与存储积累加速，提出模态水将生化信号携带至中层海洋，并在年至年代际尺度上保留，发挥其记忆功能，3）构建海洋负排放监测体系，开展污水碱化、渔业、红树林等碳增汇科学与工程研究，开发碳增汇计量方法、核算与交易体系。

获奖情况

10. 2023年获得福建省最美科技工作者

9. 2022年获得福建省五四青年奖章

8. 2022年研究成果入选中国十大科学进展前30，排名第1

7. 2022年研究成果入选中国十大海洋科技进展，排名第1

6. 2019年  国家海洋工程科学技术特等奖，北冰洋快速酸化过程、机制及预测研究（2/9）；

5. 2019年 “中美合作海洋酸化和碳循环观测研究-揭示全球变化驱动北冰洋快速酸化机制”项目成果通过遴选代表我国近年科技成就入选在2019年中国驻美国使馆开放日参展活动，向美国公众宣传中国科技发展成就和中美40年科技合作成果（全国遴选40个国际合作项目，是极地领域唯一入选项目）；

4. 2018年 福建省优秀博士学位论文；

3. 2017年 研究成果入选中国十大海洋科技进展，排名第1；

2. 2016年 中国第七次北极科学考察优秀队员；

1. 2014年 中国第六次北极科学考察优秀队员；

承担项目：

国家级项目

8、国家自然科学基金委重点国际（地区）合作研究项目，北冰洋“新常态”下碳的深海输出与存储变化及酸化效应，2026.01-2030.12，主持，226万；

7、国家重点研发计划重点专项课题，近海碳源汇调控机制与人为碳变化评估，2023.12-2026.11，主持课题（何贤强合作），258万；

6、国家“万人计划”青年拔尖人才，极区碳汇与酸化，2022-2025，主持，300万；

5、国家自然科学基金委面上基金， 楚科奇海年代际酸化趋势与机制研究，2022-2025，主持，60万；

4、国家重点研发计划政府间国际科技创新合作重点专项，北冰洋海洋酸化与碳循环过程、机理及其全球意义，2020-2023，主持（蔡卫君合作），304万；

3、国家自然科学基金委重点项目，北冰洋上层营养盐供应和生物泵调控机制研究，2020-2023，单位课题负责人（陈建芳合作），55万；

2、国家自然科学基金委青年基金，北极冰面“融池”不同发展阶段碳酸盐体系特征及其海气碳通量研究，2019-2021，主持，26万；

1、国家自然科学基金委重点项目，楚科奇海及其邻近海域碳循环年际变化和机制研究，2017-2021，单位课题负责人（魏皓合作），103万；

省部级

7、福建省本科教学改革重大项目，面向海洋（渔业）碳汇国家需求的海洋遥感技术人才校企协同育人模式改革与实践，2024-2025，主持，10万；

6、福建省海洋经济政产学研用金及学科联盟，福建省近海藻类养殖碳汇多界面通量监测、核算标准与交易管理应用示范体系建立， 2023-2025，主持，100万（80万自筹，20万补贴）；

5、福建省自然科学基金“杰出青年基金”，北极楚科奇海碳吸收与深海输出：从无机碳视角揭示“陆架碳泵”关键机制，2022-2025，主持，30万；

4、国家极地专项，南大洋专项-海洋酸化课题，2020，课题负责人，118万；

3、国家极地专项，极地业务化与科研-海洋酸化课题，2020，课题负责人，51万；

2、自然资源部国际合作司项目，中美极区海洋酸化及其对生态与生物资源影响的合作研究，2020，主持，4万；

1、福建省自然科学基金青年基金，西北冰洋无冰海盆区海水酸化速率与驱动机制研究，2019-2022，主持，3万；

市级和政产学研

3、南方海洋科学工程实广东省实验室（珠海）青年人才专项，南极底层水形成区及其邻近水域“陆架碳泵”量级与驱动机理研究，2022-2024，主持，100万；

2、中科院南海所热带海洋环境国家重点实验室开放基金，西太平洋CO₂通量的调控机制及其海洋酸化响应，2019-2021，主持，5万；

1、自然资源部第三海洋研究所科研业务费专项-人才培养与团队建设项目， 2017-2020，主持，98.94万；

校级

3、集美大学杰出团队引进启动经费，海洋与极地碳源汇格局和酸化研究，2021-2026，主持，1350万；

2、集美大学理工科创新平台建设项目，福建省智慧海洋—海洋碳中和平台，2022-2023，主持，2493万；

1、集美大学理工科创新平台建设项目，极区碳汇监测共享平台，2022-2023，主持，1506万；

论文发表(*通讯作者）

代表性论著

1、Di Qi, Zhangxian Ouyang, Liqi Chen*, Yingxu Wu, Ruibo Lei, Baoshan Chen, Richard A. Feely, Leif G. Anderson, Wenli Zhong, Hongmei Lin, Alexander Polukhin, Yixing Zhang, Yongli Zhang, Haibo Bi, Xinyu Lin, Yiming Luo, Yanpei Zhuang, Jianfeng He, Jianfang Chen & Wei-Jun Cai*. Climate change drives rapid decadal acidification in the Arctic Ocean from 1994 to 2020. Science, 2022， 377(6614), 1544-1550.

2、Di Qi, Liqi Chen*, Baoshan Chen, Zhongyong Gao, Wenli Zhong, Richard A. Feely, Leif G. Anderson, Heng Sun, Jianfang Chen, Min Chen, Liyang Zhan, Yuanhui Zhang, Wei-Jun Cai*. Increase in acidifying water in the western Arctic Ocean, Nature Climate Change (cover paper), 2017, 7(3): 195-201. （Nature 专业子刊&封面文章）

3、Yingxu Wu, Zijia Zheng, Xianyao Chen, Wanqin Zhong, Xu Yuan, Wenli Zhong, Ruibo Lei, Chenglong Li, Yanpei Zhuang, Xiang Gao, Xichen Li, Hongmei Lin, Liqi Chen, Wei-Jun Cai* & Di Qi*. Amplified warming accelerates deoxygenation in the Arctic Ocean. Nature Climate Change. 15, 859–865 (2025). https://doi.org/10.1038/s41558-025-02376-0（Nature 专业子刊）

4、Zhangxian Ouyang, Di Qi, Liqi Chen, Taro Takahashi, Wenli Zhong, Michael DeGrandpre, Baoshan Chen, Zhongyong Gao, Shigeto Nishino, Akihiko Murata, Heng Sun, Lisa Robbins, Meibing Jin, Wei-Jun Cai*. Sea-ice loss amplifies summer-time decadal CO2 increase in the western Arctic Ocean, Nature Climate Change, 2020, 10, 678-684. （Nature 专业子刊）

5、Di Qi*, Yingxu Wu, Liqi Chen, Wei-Jun Cai, Zhangxian Ouyang, Yixing Zhang, Leif G. Anderson, Richard A. Feely, Yanpei Zhuang, Hongmei Lin,  Ruibo Lei, Haibo Bi. Rapid acidification of the Arctic Chukchi Sea waters driven by anthropogenic forcing and biological carbon recycling, Geophysical Research Letters, 2022, 1(097246): 1-24. (Nature Index收录，一区TOP)

6、Yingxu Wu, Di Qi*, Zhangxian Ouyang, Lu Cao, Richard A. Feely, Hongmei Lin, Wei-Jun Cai, Liqi Chen. Contrasting Controls of Acidification Metrics Across  Environmental Gradients in the North Pacific and the  Adjunct Arctic Ocean: Insight From a Transregional  Study, Geophysical Research Letters, 2021, 48(4): 1-12. (Nature Index收录，一区TOP)

7、Cheng-long Li, Yingxu Wu, Xuchen Wang, Richard A. Feely, Wei-Jun Cai, Lei Han, Xiaopei Lin, Di Qi*. Accelerated accumulation of anthropogenic CO2 drives rapid acidification in the North Pacific subtropical mode water during 1993-2020. Geophysical Research Letters, 2022, 49(24)  (Nature Index收录，一区TOP)

8、Zebin Tu, Chengfeng Le*, Yan Bai, Zongpei Jiang, Yingxu Wu, Zhangxian Ouyang, Wei-Jun Cai, Di Qi*. Increase in CO₂ Uptake Capacity in the Arctic Chukchi  Sea During Summer Revealed by Satellite-Based  Estimation, Geophysical Research Letters, 2021, 48(15): 1-10. (Nature Index收录，一区TOP)

9.、Yingxu Wu, Dorothee C.E. Bakker, Eric P. Achterberg, Amavi N. Silva, Daisy D. Pickup, Xiang Li, Sue Hartman, David Stappard, Di Qi*, Toby Tyrrell*; Integrated Analysis of Carbon Dioxide and Oxygen Concentrations as a Quality Control of Ocean Float Data, Communications Earth and Environment. 2022, 3, 92. （Nature 旗下地学顶刊）

10、 Yingxu Wu, Di Qi*. The controversial Southern Ocean air-sea CO₂ flux in the era of autonomous ocean observations, Science Bulletin. 2023, 68(21):2519-2522 (一区TOP)

11、Zhang, Y., Wu, Y*., Cai, W.-J., Yi, X., Gao, X., Bi, H., Zhuang, Y., Chen, L. and Qi, D*. (2024), Sea-ice loss accelerates carbon cycling and enhances seasonal extremes of acidification in the Arctic Chukchi Sea. Limnol. Oceanogr. Lett. https://doi.org/10.1002/lol2.10378 (一区TOP)

12、 Zhang, S., Wu, Y*., Cai, W.-J., Cai, W., Feely, R. A., Wang, Z., Qi, D.*. (2023). Transport of anthropogenic carbon from the Antarctic shelf to deep Southern Ocean triggers acidification. Global Biogeochemical Cycles, 37, e2023GB007921. https://doi.org/10.1029/2023GB007921 (一区TOP)

2025

69. Yingxu Wu, Zijia Zheng, Xianyao Chen, Wanqin Zhong, Xu Yuan, Wenli Zhong, Ruibo Lei, Chenglong Li, Yanpei Zhuang, Xiang Gao, Xichen Li, Hongmei Lin, Liqi Chen, Wei-Jun Cai* & Di Qi*. Amplified warming accelerates deoxygenation in the Arctic Ocean. Nature Climate Change. 15, 859–865 (2025). https://doi.org/10.1038/s41558-025-02376-0.

68. Jin Meibing, Chen Zijie, Lin Xia, Li Chenglong, Qi Di*, Influences of Global Warming and Upwelling on the Acidification in the Beaufort Sea, Remote Sensing, 2025, 17(5), DOI10.3390/rs17050866

67. Yanpei Zhuang, Yang Zhang, Haiyan Jin*, Di Qi and Jianfang Chen, Unexpected ice-edge diatom blooms occur as thin phytoplankton layers in Barrow Canyon, Chukchi Sea, Marine Environmental Research, 2025, 206. doi.org/10.1016/j.marenvres.2025.107035

66. Jianpeng Li , Xuan Lu, Qingmei Zhu, Yanpei Zhuang*, Wei Yang and Di Qi*， Nitrate δ15N and δ18O Values Reveal Mariculture Impacts on Nitrogen Cycling in Sansha Bay, SE China，Mar. Sci. Eng. 2025, 13, 343. https://doi.org/10.3390/jmse13020343

2024

65. 何明,陈颖锋,余舒洁,等.近岸养殖区叶绿素a反演技术的研究进展[J].测绘科学,2024,49(07):76-88.DOI:10.16251/j.cnki.1009-2307.2024.07.009.

64. 张双,祁第,吴瀛旭,等.南大洋人为二氧化碳的吸收、分布、储存与输运研究进展[J].极地研究,2024,36(03):391-405.DOI:10.13679/j.jdyj.20240027.

63. 林武辉,杜金秋,拓飞,等.基于海洋放射性核素时空演化体系的海洋核安全评估技术[J].核安全,2024,23(03):37-44.DOI:10.16432/j.cnki.1672-5360.2024.03.018.

62. Yuanqi Wang, Zhixuan Feng*, Peigen Lin, Hongjun Song, Jicai Zhang, Hui Wu, Haiyan Jin, Jianfang Chen, Di Qi & Jacqueline M. Grebmeier. Enhanced wind mixing and deepened mixed layer in the Pacific Arctic shelf seas with low summer sea ice. Nat Commun 15, 10389 (2024). https://doi.org/10.1038/s41467-024-54733-w

61. Yang W, Zhao Y, Wu Y, Chen Z, Gao X, Lin H, Ouyang Z, Cai W, Chen L and Qi D* (2024) The impact of sea ice melt on the evolution of surface pCO2 in a polar ocean basin. Front. Mar. Sci. 11:1307295. doi: 10.3389/fmars.2024.1307295

60. Zhang, Y., Wu, Y., Cai, W.-J., Yi, X., Gao, X., Bi, H., Zhuang, Y., Chen, L. and Qi, D*. (2024), Sea-ice loss accelerates carbon cycling and enhances seasonal extremes of acidification in the Arctic Chukchi Sea. Limnol. Oceanogr. Lett. https://doi.org/10.1002/lol2.10378

59. Bu D, Zhu Q, Li J, Huang J, Zhuang Y, Yang W and Qi D* (2024) Mariculture may intensify eutrophication but lower N/P ratios: a case study based on nutrients and dual nitrate isotope measurements in Sansha Bay, southeastern China. Front. Mar. Sci. 11:1351657. doi: 10.3389/fmars.2024.1351657

58. Deng, Wei & Yang, Wei & Tang, Hong & Zhang, Minxia & Li, Shengyong & Wu, Yingxu & Bu, Dezhi & Lu, Chuqian & Li, Guozhao & Qi, Di*. (2024). Dynamics of the surface carbonate system in oil fields with a high concentration of wells on the northwestern South China Sea shelf. The Science of the total environment. 916. 170261. 10.1016/j.scitotenv.2024.170261.

57. Dong, X., Qi, D（共同一作）., Chen, B., Wu, Y., Zheng, X., & Lin, H. (2024). Differential roles of anthropogenic CO2 in mediating seasonal amplitudes of ocean acidification metrics over a coastal coral habitat. Journal of Marine Systems, 241, 103910. doi: https://doi.org/10.1016/j.jmarsys.2023.103910

2023

56. Yanpei Zhuang, Yangjie Li, Ling Chen, Haiyan Jin, Di Qi, Jianfang Chen,Biogeochemical and physical controls on ammonium accumulation on the Chukchi shelf, western Arctic Ocean,Marine Environmental Research,Volume 190,2023,106084,ISSN 0141-1136,

https://doi.org/10.1016/j.marenvres.2023.106084.Zhang, T., Hao, Q., Jin, H., Bai, Y., 55. Zhuang, Y., Qi, D., & Chen, J. (2023). Increased DIN storage and ΔDIC/ΔDIN ratio in the subsurface water of the Canada Basin, 1990‒2015. Journal of Geophysical Research: Oceans, 128, e2023JC019864. https://doi.org/10.1029/2023JC019864

54. Zhang, S., Wu, Y., Cai, W.-J., Cai, W., Feely, R. A., Wang, Z., Qi, D.*, et al. (2023). Transport of anthropogenic carbon from the Antarctic shelf to deep Southern Ocean triggers acidification. Global Biogeochemical Cycles, 37, e2023GB007921. https://doi.org/10.1029/2023GB007921

53. Li C-l, Wu Y, Chen K, Lin H, Chen L and Qi D* (2023) Spatial symmetry and contrasting controls of surface pH and aragonite saturation state in the western North Pacific. Front. Mar. Sci. 10:1197977. doi: 10.3389/fmars.2023.1197977

52. Wu Y., Qi, D*. (2023). The controversial Southern Ocean air-sea CO₂ flux in the era of autonomous ocean observations. Science Bulletin. doi: https://doi.org/10.1016/j.scib.2023.08.059.

51.Cai, X., Zhuang, Y., Wu, Y., Lin, H., & Qi, D*. (2023). Concentrations and controls of dissolved inorganic carbon in Arctic summer sea ice and adjacent surface seawaters. Marine Environmental Research, 106083. doi: https://doi.org/10.1016/j.marenvres.2023.106083

50. Dong, X., Zheng, X., Chen, B., Lin, H., & Qi, D*. (2023). Enhanced Regional Variability of Seawater pCO2 Under Human and Natural Interference in a Nearshore Coral Nature Reserve (Dongshan Island, China). Journal of Geophysical Research: Biogeosciences, 128(7), e2022JG007235. doi: https://doi.org/10.1029/2022JG007235

49. Yang, W., Wu, Y., Cai, W. J., Ouyang, Z., Zhuang, Y., Chen, L., & Qi, D*. (2023). Rapid changes in the surface carbonate system under complex mixing schemes across the Bering Sea: a comparative study of a forward voyage in July and a return voyage in September 2018. Frontiers in Marine Science. https://doi.org/10.3389/fmars.2023.1107646

48. 赵雨, 杨威, 吴瀛旭, 金梅兵, 祁第*. 西北冰洋二氧化碳分压变异与海冰变化的关系[J].2023. 极地研究（已录用）

47. Li, X., Chen, X., Wu, B., Cheng, X., Ding, M., Lei, R., Qi D. Hou, Y. (2023). China’s Recent Progresses in Polar Climate Change and Its Interactions with the Global Climate System. Advances in Atmospheric Sciences. doi: 10.1007/s00376-023-2323-3

46. Xu, A., Jin, M., Wu, Y., & Qi, D. (2023). Response of nutrients and primary production to high wind and upwelling-favorable wind in the Arctic Ocean: A modeling perspective. Frontiers in Marine Science, 10. doi: 10.3389/fmars.2023.1065006

2022

45. 魏皓,罗晓凡,祁第,等.北冰洋太平洋扇区碳循环过程对环境变化响应的研究进展与展望[J].海洋科学进展,2022,40(04):624-639.

44. 曹君乾 祁第*. 北极季节性海冰区-融池系统的碳酸盐体系及其碳汇研究进展[J]. 极地研究, 2022, 34(3): 352-366. (Cao Junqian, Qi Di. Review of carbonate system and carbon sinks of seasonal Arctic sea ice-melt pond systems[J]. Chinese Journal of Polar Research, 2022, 34(3): 352-366.)

43. 张慧敏, 金梅兵, 祁第. 常数和变化积雪密度方案诊断计算积雪厚度的敏感性研究[J]. 海洋学报（中文版）, 2022(044-007).

42. Cheng-long Li, Yingxu Wu, Xuchen Wang, Richard A. Feely, Wei-Jun Cai, Lei Han, Xiaopei Lin, Di Qi*Accelerated accumulation of anthropogenic CO2 drives rapid acidification in the North Pacific subtropical mode water during 1993-2020. Geophysical Research Letters, 2022, (Nature Index收录，一区TOP) https://doi.org/10.1029/2022GL101639

41. Wu, Y., Qi, D*. (2022). Inconsistency between ship- and Argo float-based pCO2 at the intense upwelling region of the Drake Passage, Southern Ocean. Frontiers in Marine Science. doi: 10.3389/fmars.2022.1002398（一区TOP）

40. Di Qi, Zhangxian Ouyang, Liqi Chen*, Yingxu Wu, Ruibo Lei, Baoshan Chen, Richard A. Feely, Leif G. Anderson, Wenli Zhong, Hongmei Lin, Alexander Polukhin, Yixing Zhang, Yongli Zhang, Haibo Bi, Xinyu Lin, Yiming Luo, Yanpei Zhuang, Jianfeng He, Jianfang Chen & Wei-Jun Cai*. Climate change drives rapid decadal acidification in the Arctic Ocean from 1994 to 2020. Science, 2022， 377(6614), 1544-1550. doi:10.1126/science.abo0383

39. Li, C.-l., Zhai, W.-d., Qi, D., Zhang, L.-l., Zheng, L.-w., & Zhang, Y. (2022). Anthropogenic CO2 in the Philippine Sea, northwestern Pacific: Distribution, storage, and decadal variations. Progress in Oceanography, 207, 102873. https://doi.org/10.1016/j.pocean.2022.102873（一区TOP）

38. Ouyang, Z., Collins, A., Li, Y., Qi, D., Arrigo, K. R., Zhuang, Y., et al. (2022). Seasonal water mass evolution and non-Redfield dynamics enhance CO2 uptake in the Chukchi Sea. Journal of Geophysical Research: Oceans, 127, e2021JC018326. https://doi.org/10.1029/2021JC018326. （一区TOP）

37. Zhuang, Y., Jin, H., Cai, W.-J., Li, H., Qi, D., & Chen, J. (2022). Extreme nitrate deficits in the western Arctic Ocean: Origin, decadal changes, and implications for denitrification on a polar marginal shelf. Global Biogeochemical Cycles, 36, e2022GB007304. https://doi.org/10.1029/2022GB007304（一区TOP）

36. Yu X, Zhuang Y, Cai X and Qi D (2022). Role of Marginal Seas in Deep Ocean

Regeneration of Dissolved Silica: A Case Study in the Marginal Seas of the Western Pacific. Frontiers in Marine Science. 9:925919. doi: 10.3389/fmars.2022.925919.（小类一区）

35. Cheng-long Li , Lei Han , Wei-dong Zhai , Di Qi , Xu-chen Wang , Hong-mei Lin , Li-wen Zheng (2022), Storage and redistribution of anthropogenic CO2 in the western North Pacific: The role of Subtropical Mode Water transportation, Fundamental Research, https://doi.org/10.1016/j.fmre.2022.05.001.

34. Zhang H, Che H, Xia J, Cheng Q, Qi D, Cao J and Luo Y (2022) Sedimentary

CaCO₃ Accumulation in the Deep West Pacific Ocean. Front. Earth Sci. 10:857260. https://doi.org/10.3389/feart.2022.857260

33. Yingxu Wu, Dorothee C.E. Bakker, Eric P. Achterberg, Amavi N. Silva, Daisy D. Pickup, Xiang Li, Sue Hartman, David Stappard, Di Qi*, Toby Tyrrell*; Integrated Analysis of Carbon Dioxide and Oxygen Concentrations as a Quality Control of Ocean Float Data, Communications Earth and Environment. 3, 92 (2022). （Nature 旗下新地学刊物）

32. Li, L., Chen, B., Luo, Y., Xia, J., & Qi, D. (2022). Factors controlling acidification in intermediate and deep/bottom layers of the Japan/East Sea. Journal of Geophysical Research: Oceans, 127, e2021JC017712.（一区TOP）

31.Chengyan Liu, Zhaomin Wang , Xi Liang, Xiang Li, Xichen Li, Chen Cheng, and Di Qi. Topography-mediated Transport of Warm Deep Water across the Continental Shelf Slope, East Antarctica. Journal of Physical Oceanography. https://doi.org/10.1175/JPO-D-22-0023.1（一区TOP）

2021

30. Wu Y, Qi D*, Ouyang Z, et al. Contrasting Controls of Acidification Metrics across Environmental Gradients in the North Pacific and the Adjunct Arctic Ocean: Insight from a Transregional Study. Geophysical Research Letters, e2021GL094473. https://doi.org/10.1029/2021GL094473 (Nature Index收录，一区TOP)

29. Tu Z, Le C*, Bai Y, Qi D* et al. Increase in CO₂ Uptake Capacity in the Arctic Chukchi Sea During Summer Revealed by Satellite‐Based Estimation. Geophysical Research Letters, 2021, 48(15): e2021GL093844. (Nature Index收录，一区TOP)

28. Wang, Y., Qi, D*., Wu, Y., Gao, Z., Sun, H., Lin, H., Pan, J., Han, Z., Gao, L., Zhang, Y. and Chen, L*. (2021), Biological and physical controls of pCO2 and air-sea CO₂ fluxes in the austral summer of 2015 in Prydz Bay, East Antarctica, Marine Chemistry, 228, 103897, https://doi.org/10.1016/j.marchem.2020.103897.

27. Chenglong Li, Weidong Zhai*, Di Qi*. Unveiling controls of the latitudinal gradient of surface pCO2 in the Kuroshio Extension and its recirculation regions (northwestern North Pacific) in late spring, Acta Oceanologica Sinica -English Edition, 2021, 10.1007/s13131-021-1949-1

26. Qiu, S., Feng, Y., Zhang, Y., Qi, D., Wu, Y., & Du, Y. (2021). A surface pCO2 increasing hiatus in the equatorial Pacific Ocean since 2010. Geophysical Research Letters, 48, e2021GL093612. https://doi.org/10.1029/2021GL093612  (Nature Index收录，一区TOP)

25. Li, L., Luo, Y., Kienast, M., Qi, D. and Tjiputra, J. (2021), On the sedimentary carbonate accumulation and dissolution in Western Pacific marginal basins. Limnology and Oceanography. https://doi.org/10.1002/lno.11972. (一区TOP)

24. Ouyang Z,  Qi D ,  Zhong W , et al. (2021), Summertime evolution of net community production and CO₂ flux in the western Arctic Ocean. Global Biogeochemical Cycles. https://doi.org/10.1029/2020GB006651  (一区TOP)

23. Zheng, Z., Luo, X., Wei, H., Zhao, W., & Qi, D. (2021). Analysis of the seasonal and interannual variations of air-sea CO₂ flux in the Chukchi Sea using a coupled ocean-sea ice-biogeochemical model. Journal of Geophysical Research: Oceans, 126, e2021JC017550. https://doi.org/10.1029/2021JC017550. (一区TOP)

22. Yanpei Zhuang, Haiyan Jin, Wei-Jun Cai, Hongliang Li, Meibing Jin, Di Qi and Jianfang Chen. Freshening leads to a three-decade trend of declining nutrients in the western Arctic ocean[J]. Environmental Research Letters, 2021. 10.1088/1748-9326/abf58b (一区TOP)

21. Ouyang, Z., Li, Y., Qi, D., Zhong, W., Murata, A., Nishino, S., et al. (2021). The changing CO2 sink in the western Arctic Ocean from 1994 to 2019. Global Biogeochemical Cycles, 36, e2021GB007032. (一区TOP)

2020

20. Ouyang Z, Di Qi; Liqi Chen, Taro Takahashi, Wenli Zhong, Michael DeGrandpre, Baoshan Chen, Zhongyong Gao, Shigeto Nishino, Akihiko Murata, Heng Sun, Lisa Robbins, Meibing Jin, Wei-Jun Cai*. Sea-ice loss amplifies summer-time decadal CO₂ increase in the western Arctic Ocean, Nature Climate Change, 2020.10:678-684. DOI:10.1038/s41558-020-0784-2（Nature 专业子刊）

19. Di Qi*, Baoshan Chen, Liqi Chen*, Hongmei Lin, Zhongyong Gao, Hen Sun, Yuanhui Zhang, Xiuwu Sun, Weijun Cai; Coastal acidification induced by biogeochemical processes driven by sea-ice melt in the western Arctic ocean, Polar Science, 2020, 23: 1-8. https://doi.org/10.1016/j.polar.2020.100504

18. Cao L ,  Qi D ,  Li Q , et al. Spectrophotometric Loop Flow Analyzer for High-Precision Measurement of Seawater pH. Talanta, 2020. https://doi.org/10.1016/j.talanta.2020.121775 (一区TOP)

17. Heng Sun*; Zhongyong Gao*; Di Qi; Bao shan Chen; Liqi Chen; Wei-Jun Cai。Surface seawater partial pressure of CO₂ variability and air-sea CO₂ fluxes in the Bering Sea in July 2010, Continental Shelf Research, 2020, 193(104031): 1-10. https://doi.org/10.1016/j.csr.2019.104031

2019

16. Suqing Xu, Keyhong Park*, Yanmin Wang, Liqi Chen*, Di Qi, Bingrui Li. Variations in the summer oceanic pCO₂ and carbon sink in Prydz Bay using the self-organizing map analysis approach, Biogeosciences, 2019, 16: 797-810. https://doi.org/10.5194/bg-16-797-2019

15. Jianwei Xing*; Jinming Song*; Huamao Yuan; Xuegang Li; Ning Li; Liqin Duan; Di Qi. Atmospheric wet deposition of dissolved organic carbon to a typical anthropogenic-influenced semi-enclosed bay in the wester, Ecotoxicology and Environmental Safety, 2019, 182: 1-9. https://doi.org/10.1016/j.ecoenv.2019.109371 (一区TOP)

14. Xiong, Tian-qi; Liu, Peng-fei; Zhai, Wei-dong*; Bai, Yan; Liu, Dong; Qi, Di; Zheng, Nan; Liu, Jin-wen; Guo, Xiang-hui; Cheng, Tian-yu; Zhang, Hai-xia; Wang, Song-yin; He, Xian-qiang; Chen, Jian-fang; Li, Ru. Export Flux, Biogeochemical Effects, and the Fate of a Terrestrial Carbonate System: From Changjiang (Yangtze River) Estuary to the East China Sea[J]. Earth and space science, 2019,6(11):2115-2141.

13.  陈魁; 祁第; 陈立奇*. 南大洋酸化过程及其变化趋势研究进展, 极地研究, 2019, 31(4): 473-484.

2018

12. Di Qi, Liqi Chen*, Weijun Cai et al. Review on researches of ocean acidification and carbon cycling in the Arctic Ocean, Chinese Science Bulletin, 2018, 63(22): 13-25.

11. 陈立奇; 汪建君; 詹力扬; 祁第; 张麋鸣; 高众勇; 赵淑惠; 颜金培; 张远辉; 林奇; 许苏清; 李伟; 矫立萍; 孙恒; 张介霞; 林红梅; 孙霞; 秦修远. 中国南大洋海洋大气化学研究进展, 极地研究, 2018, (03): 221-234.

2017

10. Di Qi, Liqi Chen*, Baoshan Chen, Zhongyong Gao, Wenli Zhong, Richard A. Feely, Leif G. Anderson, Heng Sun, Jianfang Chen, Min Chen, Liyang Zhan, Yuanhui Zhang, Wei-Jun Cai*. Increase in acidifying water in the western Arctic Ocean, Nature Climate Change (cover paper), 2017, 7(3): 195-201.（Nature 专业子刊）

9. Zhai, Wei-Dong; Yan, Xiu-Li; Qi, Di. Biogeochemical generation of dissolved inorganic carbon and nitrogen in the North Branch of inner Changjiang Estuary in a dry season. Estuarine Coastal and Shelf Science, 2017, 197: 136-149. 

8. 聂红涛; 王蕊; 赵伟; 罗晓凡; 祁第; 鹿有余; 张远辉; 魏皓. 北冰洋太平洋扇区碳循环变化机制研究面临的关键科学问题与挑战, 地球科学进展, 2017, (10): 1084-1092.

7. Liqi Chen, Min Chen, Liyang Zhan, Di Qi, et al. Review of CHINARE chemical oceanographic research in the Southern Ocean during 1984–2016[J]. Advances in Polar Science, 2017, 28(2):139-150.

2016

6. Xu Suqing, Chen Liqi; Chen Haiying, Li Jonathan, Lin Wuhui, Qi Di. Sea-air CO₂ fluxes in the Southern Ocean for the late spring and early summer in 2009, Remote Sensing of Environment, 2016, 175: 158-166. (一区TOP)

5. Liqi Chen*; Di Qi, et al. A hypothesis on variability of surface water pCO₂ under the rapid sea-ice retreat during summer in the Arctic Ocean, 科学通报, 2016, (21): 2419-2425.

4. 汪燕敏; 祁第; 陈立奇. 南大洋酸化指标——海水文石饱和度变异的研究进展, 地球科学进展, 2016, (04): 357-364.

2015

3. Wang, Guizhi; Wang, Zhangyong; Zhai, Weidong; Moore, Willard S.; Li, Qing; Yan, Xiuli; Qi, Di; Jiang, Yuwu. Net subterranean estuarine export fluxes of dissolved inorganic C, N, P, Si, and total alkalinity into the Jiulong River estuary, China. Geochimica Et Cosmochimica Acta, 2015, 149: 103-114. (Nature Index收录，一区TOP)

2014

2. 祁第; 陈立奇; 北冰洋酸化指标——海水文石饱和度变异的研究进展, 地球科学进展, 2014, (05): 569-576.

1. 祁第, 翟惟东, 陈能汪,等. 九龙江的碳酸盐体系、CO₂分压及其调控[J]. 地球与环境, 2014, 42(3):11.

国际期刊审稿人： Nature Climate Change, Global Biogeochemistry Cycle, Science Bulletin, Geophysical Research Letters, Journal of Geophysical Research-Biogeoscience, Progress of Oceanography等