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王为磊 博士
福建省厦门市翔安区翔安南路4221号周隆泉楼 A3-417, 邮编361102
海洋碳循环研究组
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Wei-Lei Wang
Rm A3-417 ZhouLongQuan Building, 4221 XiangAn Nan Road, XiangAn District, Xiamen 361102, China
Carbon Cycle Group
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Email: weilei.wang@xmu.edu.cn
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论文著作 Publications
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# Indicates students. |
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J. K. Moore, F. Pavia, W.-L. Wang, E. Sherman, N. Wiseman, F. Primeau, N. Mahowald, D. Hamilton, K. Misumi, S. John, and R.F., Anderson, Rapid ocean iron removal drives strong sensitivity to atmospheric inputs and climate change, (In preparation). |
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Yichen Wu#, François Primeau, Zhongping Lee, Minhan Dai, W.-L. Wang, Estimate of biological carbon pump: External versus internal constraints, Submitted. |
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王凡,韩显显,王为磊,李元龙,周吉浩,陈大可,戴民汉,海洋翻转环流与碳泵变化的复杂性, 已投稿 |
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Xiao-Yuan Zhu#, Shasha Li and W.-L. Wang, Evaluating the role of enhanced weathering in marine carbon dioxide removal under high emission pathway, Submitted |
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Yuxin Shen# and W.-L. Wang, Autotrophic dissolved organic phosphorus uptake stimulates nitrogen fixation in subtropical gyres, Submitted |
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Shihai Mao and many others including W.-L. Wang, Atmospheric deposition enhances marine methane production and emissions from global oceans, Submitted |
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Jihao Zhou; Yuanlong Li; Yan Du; Yu Hong; Lei Lu; Ying Lu; W.-L. Wang; Fan Wang. Indian Ocean intermediate waters and their simulations by CMIP6 models. J. Clim. (Accepted). |
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Megan Sullivan; Francois Primeau; George Hagstrom; W.-L. Wang; Adam Martiy. Integrating Trait-Based Stoichiometry in a Biogeochemical Inverse Model Reveals Links Between Phytoplankton Physiology and Global Carbon Export. Global Biogeochem. Cycles , 38, e2023GB007986. https://doi.org/10.1029/2023GB007986, 2024. 
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王为磊, 高光,戴民汉,海洋“造林”的碳汇效率之争,科学通报, doi:10.1360/TB-2023-1304, 2024。
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Minhan Dai, Ya-Wei Luo, Hongyang Lin, Eric P. Achterberg, Thomas J. Browning, Matthew J. Church, Zhongping Lee and W.-L. Wang. Ocean Deserts Could Help Capture CO2 and Mitigate Global Warming. Eos, 104, https://doi.org/10.1029/2023EO235034, 2023
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Primeau, F. and W.-L. Wang. Oceans can capture more carbon dioxide than previously thought. Nature (Invited), doi: 10.1038/d41586-023- 03662-7, 2023
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W.-L. Wang, Weiwei Fu, Frédéric A. C. Le Moigne, Robert Letscher, Yi Liu, Jin-Ming Tang, and François W. Primeau. Biological carbon pump estimate based on multi-decadal hydrographic data. Nature, 624: 579-585, 2023.
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Minhan Dai, Yawei Luo, and many others including W.-L. Wang., Upper Ocean Biogeochemistry of Oligotrophic Subtropical Gyres: from Nutrient Sources to Carbon Export. Rev. Geophys., doi: 10.1029/2022RG000800, 2023.
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Xiao-Yuan Zhu#, Zixiang Yang#, Yuyuan Xie, Kuanbo Zhou, W.-L. Wang, Strong particle dynamics counteract the nutrient-pumping effect leading to a weak carbon flux in a cyclonic eddy. Mar. Chem. 104279, 2023
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W.-L. Wang, Mar Fernández-Méndez, Franziska Elmer, Guang Gao, Yangyang Zhao, Yuye Han, Jiandong Li, Fei Chai, Minhan Dai, Ocean afforestation is a potentially effective way to remove carbon dioxide, Nat. Commun. 14, 4339, 2023.
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Y. Liu, J.K. Moore, F. Primeau, and W.-L. Wang, Reduced CO2 uptake and growing nutrient sequestration from slowing overturning circulation, Nat. Clim. Chang. 13, 83–90, 2023.
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Robert Letscher, W.-L. Wang, Zhou Liang, Angela Knapp, Regionally variable contribution of dissolved organic phosphorus to marine annual net community production, Global Biogeochem. Cycles, 36, e2022GB007354. https://doi. org/10.1029/2022GB007354, 2022.
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Shi-Hai Mao, and many others including W.-L. Wang, Aerobic oxidation of methane significantly reduces global methane emissions from shallow marine waters, Nat. Commun., 13:7309, https://doi.org/10.1038/s41467-022-35082-y, 2022.
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Weiwei Fu and W.-L. Wang. Biogeochemical Equilibrium Responses to Maximal Productivity in High Nutrient Low Chlorophyll Regions. J. Geophys. Res. Biogeosci., 127, e2021JG006636, https://doi.org/10.1029/2021JG006636, 2022.
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Adam C. Martiny, and many others including W.-L. Wang. Marine phytoplankton resilience may moderate oligotrophic ecosystem responses and biogeochemical feedbacks to climate change. Limnol. Oceanogr., 67: S378-S389. https://doi.org/10.1002/lno.12029, 2022.
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Britten, G. L., Y. Mohajerani, L. Primeau, M. Aydin, C. Garcia, W.-L. Wang, B. Pasquier, B. B. Cael, and F. W. Primeau, Evaluating the Benefits of Bayesian Hierarchical Methods for Analyzing Heterogeneous Environmental Datasets: A Case Study of Marine Organic Carbon Fluxes, Front. Environ. Sci., 9, doi:10.3389/fenvs.2021.491636, 2021.
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Thomas G. Bell, Jack G. Porter, W.-L. Wang, Michael J. Lawler, Emmanuel Boss, Michael J. Behrenfeld, and Eric S. Saltzman. Predictability of Seawater DMS During the North Atlantic Aerosol and Marine Ecosystem Study (NAAMES). Front. Mar. Sci., 7:1200, 2021.
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W.-L. Wang, Guisheng Song, François Primeau, E. S. Saltzman, T. G. Bell, and J. K. Moore. Global ocean dimethyl sulfide climatology estimated from observations and an artificial neural network. Biogeosciences, 17:5335–5354, 2020.
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Allison R Moreno, Catherine A Garcia, Alyse A Larkin, Jenna A Lee, W.-L. Wang, J Keith Moore, Francois W Primeau, and Adam C Martiny. Latitudinal gradient in the respiration quotient and the implications for ocean oxygen availability. Proc. Natl. Acad. Sci. U.S.A., 117(37):22866–22872, 2020.
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Pedro Flombaum, W.-L. Wang, François Primeau, and Adam C. Martiny. Picophytoplankton display clear niche partitioning but overall positive response to future ocean warming. Nat. Geosci., 13:116–120, 2020.
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W.-L. Wang, J. K. Moore, A. C. Martiny, and F. W. Primeau. Convergent estimates of marine nitrogen fixation. Nature, 566(7743):205, 2019.
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W.-L. Wang, Cindy Lee, and François W Primeau. A bayesian statistical approach to inferring particle dynamics from in-situ pump poc and chloropigment data from the mediterranean sea. Mar. Chem., 214:103654, 2019.
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W.-L. Wang, Cindy Lee, J. Kirk Cochran, François Primeau, and Robert A Armstrong. A novel statistical analysis of chloropigment fluxes to constrain particle exchange and organic matter remineralization rate constants in the mediterranean sea. Mar. Chem., 192:49–58, 2017.
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W.-L. Wang, Tong Peng, Xiao-Lan Lu, and Bao-Zhen Zhao. Diurnal, seasonal, and spatial variations and flux of carbon monoxide in jiaozhou bay, china. Mar. Chem., 191:1–8, 2017.
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W.-L. Wang, Robert A Armstrong, J. Kirk Cochran, and Christina Heilbrun. 230Th and 234Th as coupled tracers of particle cycling in the ocean: A maximum likelihood approach. Deep Sea Res. I, 111:61–70, 2016.
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W.-L. Wang, Gui-Peng Yang, and Xiao-Lan Lu. Carbon monoxide distribution and microbial consumption in the southern yellow sea. Estuar. Coast. Shelf Sci., 163:125–133, 2015.
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Gui-Peng Yang, W.-L. Wang, Xiao-Lan Lu, and Chun-Yan Ren. Distribution, flux and biological consumption of carbon monoxide in the southern yellow sea and the east china sea. Mar. Chem., 122(1-4):74–82, 2010.
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王为磊等,胶州湾海水中一氧化碳的分布与海-气通量研究,中国海洋大学学报,2010, 40(6),121-126.
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任春燕等,胶州湾海水中溶解有色物质的光脱色对光致生成 一氧化碳速率的影响, 海洋学报,2010,32(2),66-72.
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陆小兰等,顶空法测定海水中一氧化碳,2010,分析化学,第3 期 352 ~ 356.
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