
姓名:孙栋
职称:研究员
学术职衔:博士生导师
研究方向:海洋保护生态学、海洋环境监测与评价
电子邮箱:sund@sio.org.cn
学习工作简历:
2024/12-今,自然资源部第二海洋研究所,海洋生态系统动力学重点实验室,研究员
2017/12-2024/11,自然资源部第二海洋研究所,海洋生态系统动力学重点实验室,副研究员
2013/07-2017/11 自然资源部第二海洋研究所,海洋生态系统与生物地球化学海洋局重点实验室,助理研究员
教学情况:
无。
主持的科研项目:
1) 大洋专项“中国大洋89航次调查与评价” 2025-2026 (552万)
2) 大洋专项“中国大洋93航次调查与评价-东北印度洋水体调查专题” 2025-2026 (79.6万)
3) 大洋专项““大洋一号”船2024年航次” 2024-2025 (168.5万)
4) 上海交通大学“深蓝计划”面上项目“海洋生物发光对深海中微子望远镜运行的影响及应对策略” (SL2022MS020)2023-2024(50万)
5) 国家重点研发计划“xxxx”项目“环境扰动监测及影响评估”课题(2022YFC2806805)2022-2026(5238万,其中中央财政经费1098万)
6) 国家重点研发计划“我国近海典型海域浮游生态系统演变、临界点与重构”项目“多重环境胁迫下浮游生态系统临界点表征和量化”课题(2022YFC3105302)子课题 2022-2025(27万)
7) 卫星海洋环境动力学国家重点实验室重点项目“大洋中尺度物理过程对浮游生态系统的影响:基于高分辨率的水下滑翔机观测”(SOEDZZ2201)2022-2023(50万)(联合主持)
8) 国家自然科学基金面上项目“热带和亚热带太平洋中层浮游动物与小型游泳动物的跨海盆尺度分布特征及其影响因素”(42076122)2021-2024 (58万)
9) 大洋专项“西太平洋公海保护区应对方案研究”(DY-XZ-02)2020-2022 (4336万)
10) 国际海域资源调查与开发课题“西太“双十字”区域海洋生物多样性普查和保护价值评估”课题“浮游生物、海鸟和深海垃圾调查”专题(DY135-E2-3-04)2018-2020 (70万)
11) 国家海洋局第二海洋研究所基本科研业务费专项“热带西太平洋与南海海盆区浮游动物垂直群落结构的比较研究”(JG1712)2017-2018 (18.5万)
12) 国家自然科学基金青年项目“西太平洋深海海山对大、中型浮游动物群落结构的影响”(41406116)2015-2017 (23万)
近五年代表性论文著作:
1) Zhang, L.*, Zhang, Y., Gong, Q., Yang, Z., Sun, D.* 2025. Uncovering the effects of the North Pacific Subtropical Gyre on Per- and polyfluoroalkyl substances distribution in the Tropical Western Pacific. Journal of Hazardous Materials 494, 138631.
2) Feng, Y., Sun, D.*, Shao, Q., Fang, C., Wang, C.* 2025. Exploring seasonal fluctuations in the zooplankton communities from the WPWP epipelagic and mesopelagic zones by means of eDNA metabarcoding. Journal of Oceanology and Limnology, doi: 10.1007/s00343-025-4205-2
3) Sun, D., Shao, Q.*, Feng, Y., Wang, C. 2025. Abundant taxa can better indicate seasonal and depth variations of pelagic microbial communities in the tropical open ocean. Deep Sea Research Part I: Oceanographic Research Papers 218, 104463.
4) Jin, Q., Tang, J., Zhang, L., Yang, R., Hou, B., Gong, Q., Sun, D.* 2024. Bacterial community and antibiotic resistance genes assembly processes were shaped by different mechanisms in the deep-sea basins of the Western Pacific Ocean. Environmental Pollution 363, 125214.
5) Lu, X., Shen, C., Yang, C., Xu, W., Yang, J., Wang, C., Sun, D.* 2024. Megabenthic Diversity Patterns on a Seamount in the Philippine Sea: Implications for Conservation Planning on the Kyushu-Palau Ridge. Ecology and Evolution 14, e70427.
6) Sun, D.*, Zhang, L. 2024. Where are the global ocean priority conservation areas under the most severe threat from microplastics? Marine Policy 168, 106326.
7) Sun, D., Huang, X., Wang, C.* 2024. Summer monsoon promotes the energy transfer efficiency of the mesozooplankton community in a marginal sea. Marine Environmental Research 193, 106306.
8) Wang, Z., Fang, C., Yang, C., Zhang, G., Sun, D.* 2024. Latitudinal gradient and influencing factors of deep-sea particle export along the Kyushu-Palau Ridge in the Philippine Sea. Science of the Total Environment 906, 167460.
9) Feng, Y., Sun, D.*, Shao, Q., Fang, C., Wang, C.* 2023. COI metabarcoding better reveals the seasonal variations in the zooplankton community in the western Pacific Warm Pool. Ecological Indicators 156, 111183.
10) Zhang, L., Zhang, L., Shi, Y., Yang, Z., Gong, Q., Sun, D.* 2023. PAHs in the monsoonal open ocean: homogeneous spatial pattern and wind-driven significant seasonal variations. Journal of Hazardous Materials 454, 131462.
11) Shao, Q., Sun, D.*, Fang, C., Feng, Y., Wang, C. 2023. Microbial food webs share similar biogeographic patterns and driving mechanisms with depths in oligotrophic tropical western Pacific Ocean. Frontiers in Microbiology 14, 1098264.
12) Zhang, L., Zhang, L., Sun, D.* 2023. Considering zooplankton as a black box in determining PAH concentrations could result in misjudging their bioaccumulation. Environmental Pollution 316, 120672.
13) Wang, Y., Zhang, J., Yu, J., Wu, Q.*, Sun, D.* 2023. Anticyclonic mesoscale eddy induces mesopelagic biomass hotspot in the oligotrophic ocean. Journal of Marine Systems 237, 103831.
14) Feng, Y., Sun, D.*, Shao, Q., Fang, C., Wang, C.* 2022. Mesozooplankton biodiversity, vertical assemblages, and diel migration in the western tropical Pacific Ocean revealed by eDNA metabarcoding and morphological methods. Frontiers in Marine Science 9, 1004410.
15) Tang, Q., Yang, J., Sun, D.* 2022. Functional diversity of copepod assemblages along a basin-scale latitudinal gradient in the North Pacific Ocean. Ecological Indicators 141, 109112.
16) Shao, Q., Sun, D.*, Fang, C., Feng, Y., Wang, C.* 2022. Biodiversity and Biogeography of Abundant and Rare Microbial Assemblages in the Western Subtropical Pacific Ocean. Frontiers in Microbiology 13, 839562.
17) Song, Y., Wang, C., Sun, D.* 2022. Both dissolved oxygen and chlorophyll explain the large-scale longitudinal variation of deep scattering layers in the tropical Pacific Ocean. Frontiers in Marine Science 9, 782032.
18) Song, Y., Yang, J., Wang, C., Sun, D.* 2022. The spatial patterns and environmental associations of deep scattering layers in the northwestern subtropical Pacific Ocean. Acta Oceanologica Sinica 41(7), 139-152.
19) Sun, D., Chen, Y., Feng, Y., Liu, Z.*, Peng, X., Cai, Y., Yu, P. & Wang, C.* 2021. Seasonal variation in size diversity: Explaining the spatial mismatch between phytoplankton and mesozooplankton in fishing grounds of the East China Sea. Ecological Indicators 131, 108201.
20) Chen, Y., Lin, S., Wang, C., Yang, J. & Sun, D.* 2020. Response of size and trophic structure of zooplankton community to marine environmental conditions in the Northern South China Sea in winter. Journal of Plankton Research 42(3), 378-393.