林贤彪 | |||||
职称: | 副教授 硕士生导师 | ||||
个人邮箱: | linxianbiao@ouc.edu.cn | ||||
地址: | 海洋科技大楼805 | ||||
主页: | https://www.researchgate.net/profile/Xianbiao-Lin-2 | ||||
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研究领域: | |||||
海洋生物地球化学;氮污染防治与温室减排;氮同位素示踪技术研究 欢迎感兴趣的本科生和研究生报考,有意者请邮件联系! | |||||
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教育与研究经历: | |||||
教育经历: 2014/09-2018/06:华东师范大学,地理科学学院,理学博士 2016/09-2017/09:德克萨斯大学(奥斯汀),海洋科学研究所,联合培养博士 2011/09-2014/07:福建师范大学,地理科学学院,理学硕士 2007/09-2011/07:福建师范大学,地理科学学院,理学学士 工作经历: 2021/09-至今:中国海洋大学,海洋化学理论与工程技术教育部重点实验室,副教授 2018/09-2021/09:中山大学,海洋科学学院,博士后 | |||||
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学术兼职: |
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1. Frontiers in Microbiology,副主编(2024-至今) 2. Frontiers in Marine Science,副主编(2023-至今) 3.国际与国内学术期刊评审>150(Limnology and Oceanography, Analytical Chemistry, Water Research, Catena, JGR-Biogeosciences, Agriculture, Ecosystems and Environment, Science of the Total Environmental, Environmental Pollution等期刊 | |||||
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奖励与荣誉: |
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1. 2021,英国海德公司仪器开发应用贡献奖(1/1)。 2. 2017,国家奖学金(1/1)。 3. 2016,华东师范大学优博培育资助(1/1)。 4. 2018,华东师范大学地球科学学部优秀博士毕业论文。 | |||||
主持或参与的项目: | |||||
1. 国家自然科学基金面上项目,42371104,2024/01/01-2027/12/31,河口最大浑浊带对沉积物-水界面脱氮过程的影响机制,52万元,主持(在研)。 2. 国家自然科学基金青年基金,42001088,2021/1/1-2023/12/31,不同围垦方式对红树林沉积物脱氮过程的影响及其机理研究,24万元,主持(已结题)。 3. 2022年中国博士后优秀学术专著出版资助,8万元,主持(已结题)。 4. 广东省基础与应用基础研究基金联合基金青年基金项目,2019A1515110794,珠江口不同潮滩围垦养殖系统中沉积物脱氮过程研究,2020/1/1-2021/12/31,10万元,主持(已结题)。 5. 中国博士后科学基金面上资助(第65批),二等资助,2019M653151,潮滩围垦养殖系统中关键氮循环过程研究,2019/5/1-2021/12/31,8万元,主持(已结题)。 6. 国家自然科学基金2019年度联合基金-广东联合基金重点支持项目,U1901209,粤港澳大湾区典型物质源汇过程及其生态效应,2020/01-2023/12,255万元,骨干成员(已结题)。 | |||||
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学术成果: |
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长期致力于海洋沉积物氮的生物地球化学循环过程、氮污染防治以及氮同位素示踪技术研究。截止2025年2月在国际主流期刊发表SCI论文70余篇,总引2400余次,H指数29,第一/通讯在NC、LO、EST、WR、Geoderma、Catena、JGR等期刊发表SCI论文30篇,其中Top期刊22篇,ESI高被引论文2篇,科学出版社出版专著1部。 1. Cold seeps are potential hotspots of deep-sea nitrogen loss driven by microorganisms across 21 phyla. Nature Communications. 2025. (I区Top,通讯作者) 2. Responses of microbial community structure and greenhouse gases production to land-use change in mangrove wetland sediments. Limnology and Oceanography. 2025, doi:10.1002/lno.70028. (I区Top,第一作者) 3. Response of benthic nitrates reduction processes and associated microbial communities to coastal hypoxia. Environmental Science & Technology. 2023, 57: 15014-15025. (I区Top,通讯作者) 4. Bait input altered microbial community structure and increased greenhouse gases production in coastal wetland sediment. Water Research. 2022, 11850. (I区Top,ESI高被引,通讯作者) 5. 林贤彪, 著 (2023). 《河口近岸典型生态系统沉积物中氮循环关键过程研究》. 北京: 科学出版社. 6. The effects of mangrove growth on sediment nitrogen mineralization and immobilization are more intense on sandy coasts compared to muddy coasts. Catena, 2024, 243: 108172. (I区Top,第一作者) 7. Exotic Spartina alterniflora invasion enhances sediment N-loss while reduces N retention in coastal mangrove wetland. Geoderma. 2023, 431: 116362. (I区Top,通讯作者) 8.Nitrogen cycling processes in sediments of the Pearl River Estuary: Spatial variations, controlling factors, and environmental implications. Catena. 2021, 206: 105545. (I区Top,通讯作者) 9. Nitrogen losses in sediments of the East China Sea: Spatiotemporal variations, controlling factors, and environmental implications. Journal of Geophysical Research-Biogeosciences, 2017, 122(10): 2699-2715. (II区,第一作者) 10. Ammonium production and removal in the sediments of Shanghai river networks: Spatiotemporal variations, controlling factors, and environmental implications. Journal of Geophysical Research-Biogeosciences, 2017, 122(10): 2461-2478. (II区,第一作者) 11. Nitrogen mineralization and immobilization in sediments of the East China Sea: Spatiotemporal variations and environmental implications. Journal of Geophysical Research-Biogeosciences, 121, 2842-2855. (II区Top,第一作者) 12. The influences of mangrove grown on sedimentary nitrate reduction activities are more pronounced in sandy coasts compared to muddy coasts. Plant and Soil, 2024.(II区Top,通讯作者) 13. Changes in sediment N mineralization and immobilization in association with Spartina alterniflora invasion in mangrove wetlands. Plant and Soil. 2024. (II区Top,通讯作者) 14. Sediment nitrates reduction processes affected by non-native Sonneratia apetala plantation in South China. Science of the Total Environment. 2024, 906: 167523.(I区Top,通讯作者) 15. Shifts in the relative abundance and potential rates of sediment ammonia-oxidizing archaea and bacteria along environmental gradients of an urban river-estuary-adjacent sea continuum. Science of the Total Environment, 2021, 771: 144824. (I区Top,通讯作者) 16. Sediment nitrate reduction processes in response to environmental gradients along an urban river-estuary-sea continuum. Science of the Total Environment, 2020: 718: 137185. (I区Top,通讯作者) 17. Effects of marine produced organic matter on the potential estuarine capacity of NOx− removal. Science of the Total Environment, 2022, 812: 151471. (I区Top,通讯作者) 18. Membrane inlet mass spectrometry method (REOX/MIMS) to measure 15N-nitrate in isotope-enrichment experiments. Ecological Indicators, 2021, 126: 107639. (II区Top,第一作者) 19. Seagrass (Zostera marina) promotes nitrification potential and selects specific ammonia oxidizers in coastal sediments. Journal of Soils and Sediments. 2021, 21(10): 3259-3273. (II区,第一作者) 20. Natural N-bearing nanoparticles in sediments of a shallow bay of the South China: A new N form in N-cycling. Ecological Indicators, 2021, 122: 107281 (II区Top,通讯作者). 21.Effects of algal-derived organic matter on sediment nitrogen. mineralization and immobilization in a eutrophic estuary. Ecological Indicators. 2022, 138: 108813. (II区Top,通讯作者) 22. Effects of algal-derived organic matter on sediment nitrogen mineralization and immobilization in a eutrophic estuary. Ecological Indicators. 2022, 138: 108813. (II区Top,通讯作者). 23. Geochemical and microbial insights into vertical distributions of genetic potential of N-cycling processes in deep-sea sediments. Ecological Indicators, 2021, 125: 107461. (II区Top,通讯作者). 24. Linking microbial-driven key processes with carbon and nitrogen cycling in estuarine, coastal, and the nearshore areas. Frontiers in Microbiology. 2024, 15: 1382148. (II区Top,通讯作者). 25. Nitrogen mineralization/immobilization dynamics across the river-estuary-sea continuum: Effects of organic matter and microorganisms. Marine Pollution Bulletin. 2024, 209: 117241. (II区,通讯作者). 26.Effects of salinity on nitrogen reduction pathways in estuarine wetland sediments. Marine Pollution Bulletin. 2024, 207: 116834. (II区,通讯作者). 补充信息: 截止2025年2月,指导本科毕业设计26名,大学生创新训练计划项目及SRDP共13项。欢迎感兴趣的本科生来实验室开展毕设与SRDP! 截止2025年2月,协助指导博士生2名,硕士生12名,欢迎感兴趣的研究生报考联系! | |||||
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