谢周清
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·Paper Publications
- [1] Yue, FG*; Angot, H; Liu, HW; Xie, ZQ*(2025) Marine phytoplankton and sea-ice initiated convection drive spatiotemporal differences in Arctic summertime mercury rebound. Nature Communications, 16, 6075, doi: 10.1038/s41467-025-61000-z.
- [2] Han, MM; Xia, KH; Xue, Y; Yue, FG; Li, J; Kang, F; Zhu, BQ; Hu, LG; Liu, QF; Xie, ZQ*; Jiang, GB* (2025) Emergence of more potent PPD-Qs beyond 6PPD-Q in human blood and cerebrospinal fluid. Environmental Science & Technology Letters, 12(5), 496-502.
- [3] Gu, WH; Xie, ZQ*; Jiang, B; Yue, FG; Yu, XW; Chen, AF (2024) Sources of Southern Hemisphere marine aerosols: Insights from carbonaceous fraction concentration and stable carbon isotope analysis. Journal of Geophysical Research-Atmospheres, e2023JD039803, doi:10.1029/2023JD039803.
- [4] Liu, HW; Zheng, W*; Gao, YS; Yang LJ; Yue FG; Huang, T; Xie, ZQ* (2024) Increased contribution of circumpolar deep water upwelling to methylmercury in the upper ocean around Antarctica: Evidence from mercury isotopes in the ornithogenic sediments, Environmental Science & Technology, 2024, 58: 2762-2773.
- [5] Guo, XH; Yang, LJ*; Gao, YS; Huang, T; Liu, HW; Sun, LG; Xie, ZQ* (2023) Reconstruction of modified Circumpolar Deep Water intrusion and its oceanographic impact in Prydz Bay, East Antarctica. Quaternary Science Reviews, 322, doi: 10.1016/ j.quascirev.2023.108400.
- [6] Yue, FG; Angot, H*; Blomquist, B; Schmale, J; Hoppe, CJM; Lei, RB; Shupe, MD; Zhan, LY; Ren, J; Liu, HL; Beck, I; Howard, D; Jokinen, T; Laurila, T; Quéléver, L; Boyer, M; Petäjä, T; Archer, S; Bariteau, L; Helmig, D; Hueber, J; Jacobi, HW; Posman, K; Xie, ZQ* (2023) The Marginal Ice Zone as a dominant source region of atmospheric mercury during central Arctic summertime. Nature Communications, 14(1), 4887, DOI:10.1038/s41467-023-40660-9.
- [7] Liu, HW; Zheng, W*; Bergquist, BA; Gao, YS; Yue, FG; Yang, LJ; Sun, LG; Xie, ZQ* (2023) A 1500-year record of mercury isotopes in seal feces documents sea ice changes in the Antarctic. Communications Earth & Environment,4, DOI:10.1038/s43247-023-00921-3.
- [8] Chen, A; Xie, ZQ*; Zhan, HC; Jiang, B; Zhang, AX; Liu, HW; Hu, CG; Wu, XD; Yue, FG; Xu, L(2023) Long-term observations of levoglucosan in Arctic aerosols reveal its biomass burning source and implication on radiative forcing. Journal of Geophysical Research-Atmosphere, 128, e2022JD037597, DOI:10.1029/2022JD037597.
- [9] Gu, WH; Xie, ZQ*; Wei, ZX; Chen, AF; Jiang, B; Yue, FG; Yu, XW(2023) Marine fresh carbon pool dominates summer carbonaceous aerosols over Arctic Ocean. Journal of Geophysical Research-Atmosphere, 128, e2022JD037692, DOI:10.1029/2022JD037692.
- [10] Jiang, B; Xie, ZQ*; Chen, AF; Yue, FG; Yu, XW; Wang, LQ; Gu, WH; Wu, XD; Chai, ZY; Jin, RL(2023) Importance of atmospheric transport on methanesulfonic acid (MSA) concentrations in the Arctic Ocean during summer under global warming. Journal of Geophysical Research-Atmospheres, 128, e2022JD037271.
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