教授 博导 环境科学系主任; 福建省海陆界面生态环境重点实验室副主任
办公电话:0592-2182201
邮箱:nwchen@xmu.edu.cn

履历

l beat365最新版下载 教授 (2014-)

l 荷兰乌特勒支大学 访问学者 (2016-2017)

l 美国马里兰大学 访问学者 (2011-2012)

l beat365最新版下载 副教授 (2009-2014)

l beat365最新版下载 助理教授 (2009)

l 浙江大学 博士后 (2006-2008)

l beat365最新版下载 环境科学博士 (2006)

l 南京农业大学 环境工程学士 (1998)

研究方向

l 环境生物地球化学;海陆界面环境过程与效应;生态环境监测与评价;环境规划与管理;生态环境大数据应用

l 2009年建立环境过程实验室,2022年组建环境过程与系统模型研究团队,以流域-近海生态环境系统为整体研究对象,基于陆海气综合观测、机理实验、数据科学、系统建模、优化决策等多学科方法,系统研究海陆界面营养盐与碳循环的水文-生地化耦合机制,发展污染来源解析和环境监测预警技术,构建海岸带减污降碳模型和环境-经济决策优化模型,致力于将科学研究成果转化应用于流域-海域生态环境保护与综合治理,推动建设beat365最新版下载海洋云平台,构建监测-模型-评估-规划-管理科技支撑与数字信息服务体系,助力生态环境治理能力现代化和海岸带可持续发展。

l 招生专业:环境管理、环境科学、海洋事务、人工智能+、环境工程(专硕)。

l 欢迎有志于水环境保护事业的硕、博研究生、博士后加盟!

代表性论文

  1. Wu Z, Yu D, Yu Q, Liu Q, Zhang M, Dahlgren RA, Middelburg JJ, Qu L, Li Q, Guo W*, Chen N*. 2024. Greenhouse gas emissions (CO2-CH4-N2O) along a large reservoir-downstream river continuum: the role of seasonal hypoxia. Limnology and Oceanography, 9999, 1–15.

  2. Wang F, Wang J, Cao T, Ji X, Yan J, Ding S, Chen N*. 2024. Seasonal hypoxia enhances sediment iron-bound phosphorus release in a subtropical river reservoir. Science of the Total Environment, 936(2):173261.

  3. Wang Y, Wang F, Fang Y, Fu Y, Chen N*. 2024. Storm-induced nitrogen transport via surface runoff, interflow and groundwater in a pomelo agricultural watershed, southeast China. Environmental Pollution, 346, 123629.

  4. Han F, Tian Q, Chen, NW*, Hu ZP, Wang Y, Xiong R, Xu P, Liu W, Stehr A, Barra RO, Zheng Y. 2024. Assessing ammonium pollution and mitigation measures through a modified watershed non-point source model. Water Research, 254, 121372.

  5. Wang Y, Yu YQ, Luo X, Tan QG, Fu YQ, Zheng CH, Wang DL*, Chen NW*. 2024. Prioritizing ecological restoration in hydrologically sensitive areas to improve groundwater quality. Water Research, 252, 121247.

  6. Yan R, Wang F, Wang Y, Chen N*. 2023. Pollution abatement reducing the river N2O emissions although it is partially offset by a warming climate: Insights from an urbanized watershed study. Water Research, 236, 119934.

  7. Reithmaier GMS, Cabral A, Akhand A, Bogard MJ, Borges AV, Bouillon S, Burdige DJ, Call M, Chen N, Chen X, Cotovicz LC, Eagle MJ, Kristensen E, Kroeger KD, Lu Z, Maher DT, Pérez-Lloréns JL, Ray R, Taillardat P, Tamborski JJ, Upstill-Goddard RC, Wang F, Wang ZA, Xiao K, Yau YYY, Santos IR. 2023. Carbonate Chemistry and Carbon Sequestration Driven by Inorganic Carbon Outwelling from Mangroves and Saltmarshes. Nature Communications, 14(1): 8196.

  8. Lu Z, Xiao K, Wang F, Wang Y, Yu Q, Chen N*. 2023. Salt marsh invasion reduces recalcitrant organic carbon pool while increases lateral export of dissolved inorganic carbon in a subtropical mangrove wetland, Geoderma, 437, 116573.

  9. Wang F, Lu Z, Wang Y, Yan R and Chen N*. 2023. Porewater exchange drives the dissolved silicate export across the wetland-estuarine continuum. Frontiers in Marine Science,10: 1206776.

  10. Han F, Hu Z, Chen N, Wang Y, Jiang J, Zheng Y*. 2023. Assimilating low-cost high-frequency sensor data in watershed water quality modeling: A Bayesian approach. Water Resources Research, 59, e2022WR033673.

  11. Wang Y, Lin J, Wang F, Tian Q, Zheng Y, Chen N*. 2023. Hydrological connectivity affects nitrogen migration and retention in the land‒river continuum. Journal of Environmental Management, 326, 116816.

  12. Lin J, Hu A, Wang F, Hong Y, Chen N*. 2023. Impacts of a subtropical storm on nitrogen functional microbes and associated cycling processes in a river-estuary continuum. Science of the Total Environment, 861, 160698.

  13. Lu Z, Wang F, Xiao K, Wang Y, Yu Q, Cheng P, Chen N*. 2022. Carbon dynamics and greenhouse gas outgassing in an estuarine mangrove wetland with high input of riverine nitrogen. Biogeochemistry, 121.

  14. Zhang M, Krom MD, Lin J, Cheng P, Chen N*. 2022. Effects of a storm on the transformation and export of phosphorus through a subtropical river-turbid estuary continuum revealed by continuous observation. Journal of Geophysical Research: Biogeosciences, 127, e2022JG006786.

  15. Qu L, He C, Wu, Z, Dahlgren RA, Ren M, Li P, Shi Q, Li Y, Chen N*, Guo W*. 2022. Hypolimnetic deoxygenation enhanced production and export of recalcitrant dissolved organic matter in a large stratified reservoir. Water Research, 219, 18537.

  16. Xiong R, Zheng Y, Chen NW, Tian Q, Liu W, Han F, Jiang SJ, Lu MQ, Zheng Y. 2022. Predicting dynamic riverine nitrogen export in unmonitored watersheds: leveraging insights of AI from data-rich regions. Environmental Science & Technology, 56 (14): 10530-10542.

  17. Wang F, Song A, Zhang Y, Lin X, Yan R, Wang, Chen N*. 2022. Saltmarsh sediments with wastewater input emit more carbon greenhouse gases but less N2O than mangrove sediments. Catena, 213, 106205.

  18. Chen N*, Wang J, Liu X, Zhang C, Huang B, Beusen AHW, Middelburg JJ, Bouwman AF. 2022. Exploring seasonal and annual nitrogen transfer and ecological response in river-coast continuums based on spatially explicit models. Journal of Geophysical Research: Biogeosciences, 127: e2021JG006634.

  19. Lin J, Krom MD, Wang F, Cheng P, Yu Q, Chen N*. 2022. Simultaneous observations revealed the non-steady state effects of a tropical storm on the export of particles and inorganic nitrogen through a river-estuary continuum. Journal of Hydrology, 606: 127438-127450.

  20. Wang F, Xiao K*, Santos I.R., Lu Z, Tamborski J, Wang Y, Yan R, Chen N*. 2022. Porewater exchange drives nutrient cycling and export in a mangrove-salt marsh ecotone. Journal of Hydrology, 606: 127401-127411.

  21. Wang Y, Chen N*. 2021. Recent progress in coupled surface–ground water models and their potential in watershed hydro-biogeochemical studies: A review. Watershed Ecology and the Environment, 3: 17-29

  22. Chen N*, Hong H, Gao X. 2021. Securing drinking water resources for a coastal city under global change: Scientific and institutional perspectives. Ocean & Coastal Management.207: 104427-104434.

  23. Yan J, Chen N*, Wang F, Liu Q, Wu Z, Middelburg J. Xie Y, Guo W, Zhang X. 2021. Interaction between oxygen consumption and carbon dioxide emission in a subtropical hypoxic reservoir, southeastern China. Journal of Geophysical Research: Biogeosciences, 126, e2020JG006133.

  24. Wang F, Cheng P, Chen N*, Kuo Y. 2021. Tidal driven nutrient exchange between mangroves and estuary reveals a dynamic source-sink pattern. Chemosphere, 270: 128665.

  25. Yuan X, Krom MD, Zhang M, Chen N*. 2021. Human disturbance on phosphorus sources, processes and riverine export in a subtropical watershed. Science of the Total Environment, 769: 144658.

  26. Yu D, Chen N*, Cheng P, Yu F, Hong H. 2020. Hydrodynamic impacts on tidal-scale dissolved inorganic nitrogen cycling and export across the estuarine turbidity maxima to coast. Biogeochemistry, 151: 81-98.

  27. Lin J, Chen N*, Yuan X, Tian Q, Hu A, Zheng Y. 2020. Impacts of human disturbance on the biogeochemical nitrogen cycle in a subtropical river system revealed by nitrifier and denitrifier genes. Science of the Total Environment, 746: 141139.

  28. Lin J, Chen N*, Wang F, Huang Z, Zhang X, Liu L. 2020. Urbanization increased river nitrogen export to western Taiwan Strait despite increased retention by nitrification and denitrification. Ecological Indicators, 109: 105756.

  29. Wang F, Chen N*, Yan J, Lin J, Guo W, Cheng P, Liu Q, Huang B, Tian Y. 2019. Major processes shaping mangroves as inorganic nitrogen sources or sinks: insights from a multidisciplinary study. Journal of Geophysical Research: Biogeosciences, 124: 1194-1208.

  30. Yu D, Chen N*, Krom MD, Lin J, Chen P, Yu F, Guo W, Hong H, Gao X. 2019. Understanding how estuarine hydrology controls ammonium and other inorganic nitrogen concentrations and fluxes through the subtropical Jiulong River Estuary, S.E. China under baseflow and flood-affected conditions. Biogeochemistry, 142: 443-466.

  31. Chen Y, Chen N*, Li Y, Hong H. 2018. Multi-timescale sediment responses across a human impacted river-estuary system. Journal of Hydrology, 560: 160-172.

  32. Gao X, Chen N*, Yu D, Wu Y, Huang B. 2018. Hydrological controls on nitrogen (ammonium versus nitrate) fluxes from river to coast in a subtropical region: Observation and modeling. Journal of Environmental Management, 213: 382-391.

  33. Chen N*, Krom MD, Wu Y, Yu D, Hong H. 2018. Storm induced estuarine turbidity maxima and controls on nutrient fluxes across river-estuary-coast continuum. Science of the Total Environment, 628-629: 1108-1120.

  34. Chen N*, Mo Q, Guo YM, Su Y, Zhong Y. 2018. Hydrochemical controls on reservoir nutrient and phytoplankton dynamics under storms. Science of the Total Environment, 619-620: 301–310.

  35. Zhou XP, Chen NW*, Yan ZH, Duan SW. 2016. Warming increases nutrient mobilization and gaseous nitrogen removal from sediments across cascade reservoirs. Environmental Pollution, 219: 490-500.

  36. Mo QL, Chen NW*, Zhou XP, Chen JX, Duan SW. 2016. Ammonium and phosphate enrichment across the dry–wet transition and their ecological relevance in a subtropical reservoir, China. Environmental Science Processes & Impacts, 18: 882-894.

  37. Lu T, Chen NW*, Duan SW, Chen ZH, Huang BQ. 2016. Hydrological controls on cascade reservoirs regulating phosphorus retention and downriver fluxes. Environmental Science and Pollution Research, 23: 24166-24177.

  38. Hong H S, Chen NW, Wang DL. 2015. River-estuary-coast continuum: Biogeochemistry and ecological response to increasing human and climatic changes - Editorial overview. Estuarine, Coastal and Shelf Science, 166: 144-145.

  39. Chen NW*, Wu YQ, Chen ZH, Hong HS. 2015. Phosphorus export during storm events from a human perturbed watershed, southeast China: Implications for coastal ecology. Estuarine, Coastal and Shelf Science,166: 178-188.

  40. Chen NW*, Wu JZ, Zhou XP, Chen ZH, Lu T. 2015. Riverine N2O production, emissions and export from a region dominated by agriculture in Southeast Asia (Jiulong River). Agriculture, Ecosystems & Environment, 208: 37-47.

  41. Chen NW*, Li J, Wu YQ, Kangas P, Huang BQ, Yu CC, Chen ZH. 2015. Nutrient removal at a drinking water reservoir in China with an algal floway. Ecological Engineering, 84: 506-514.

  42. Chen NW*, Chen ZH, Wu YQ, Hu AY. 2014. Understanding gaseous nitrogen removal through direct measurement of dissolved N2 and N2O in a subtropical river–reservoir system. Ecological Engineering, 70: 56-67.

  43. Chen NW*, Wu JZ, Chen ZH, Lu T, Wang LJ. 2014. Spatial-temporal variation of dissolved N2 and denitrification in an agricultural river network, southeast China. Agriculture, Ecosystems & Environment, 189: 1-10.

  44. Chen NW*, Wu YQ, Wu JZ, Yan XL, Hong HS. 2014. Natural and human influences on dissolved silica export from watershed to coast in Southeast China. Journal of Geophysical Research: Biogeosciences, 119(1): 95-109.

  45. Chen NW, Peng BR, Hong HS*, Turyaheebwa N, Cui SH, Mo, XJ. 2013. Nutrient enrichment and N:P ratio decline in a coastal river–bay system in Southeast China: The need for a dual nutrient (N & P) management strategy. Ocean & Coastal Management, 81: 7-13.

  46. Chen NW*, Wu JZ, Hong HS. 2012. Effect of storm events on riverine nitrogen dynamic in a subtropical watershed, southeastern China. Science of the Total Environment, 431: 357-365.

  47. Chen NW, Hong HS*. 2012. Integrated management of nutrients from the watershed to coast in the subtropical region. Current Opinion in Environmental Sustainability, 4(2): 233-242.

  48. Chen NW, Hong HS*. 2011. Nitrogen export by surface runoff from a small agricultural watershed in southeast China: Seasonal pattern and primary mechanism. Biogeochemistry, 106(3): 311-321.

  49. Chen NW, Hong HS*, Huang QJ, Wu JZ. 2011. Atmospheric nitrogen deposition and its long-term dynamics in a southeast China coastal area. Journal of Environmental Management, 92(6): 1663-1667.

  50. Chen NW*, Li HC, Wang LH. 2009. A GIS-based approach for mapping direct use value of ecosystem services at county scale: management implications. Ecological Economics, 68(11): 1093-4529.

  51. Chen NW, Hong HS*, Zhang LP, Cao WZ. 2008. Nitrogen sources and exports in an agricultural watershed in Southeast China. Biogeochemistry, 87(2): 169-179.

  52. 赖晓倩,余镒琦,梁中耀,陈火荣,陈能汪*. 2023. 基于差分回归模型和可迁移长短期记忆网络集成的三沙湾水温预测. 海洋学报,45(4): 165–178.

  53. 任树顺,高萌,王煦雯,余镒琦,陈纪新,陈能汪*. 2022. 基于 3 种时间序列模型的九龙江河流库区藻华预测. 环境科学学报,42(11): 172-183.

  54. 杨艾琳, 杨芳, 李少斌, 余其彪, 陈能汪*. 2022. 福建省流域-近海溶解氧时空格局与低氧调控机制. 环境科学, 43(11): 4950-4960.

  55. 李少斌, 余丹, 孔俊, 陈纪新, 吴水平, 王曜, 陈能汪*. 2022. 海岸带陆海气氮磷污染协同治理:监测、模拟与决策. 环境工程, 40(6): 12–21.

  56. 陈能汪*, 余镒琦, 陈纪新, 陈龙彪, 张东站. 2021. 人工神经网络模型在水质预警中的应用研究进展. 环境科学学报, 41(12): 4771-4782.

  57. 陈能汪*, 王德利, 鲁婷, 王芬芳, 姜艳, 林国辉, 庄马展. 2018. 九龙江流域地表水锰的污染来源和迁移转化机制.环境科学学报,38(8): 2955-2964.

  58. 陈能汪*. 2018. 全球变化下九龙江河流-河口系统营养盐循环过程、通量与效应. 海洋地质与第四纪地质, 38(1): 23-31.

  59. 陈能汪*, 董虹佳, 鲁婷, 颜秀利, 余丹, 黄歆宇.2017. 厦门湾流域河流氮污染综合溯源与水体达标策略.环境科学学报,37(6):1-9.

  60. 陈朱虹, 陈能汪*, 吴殷琪, 莫琼利, 周兴鹏, 鲁婷, 田蕴. 2014. 河流库区沉积物-水界面营养盐及气态氮的释放过程和通量. 环境科学, 35(9): 3325-3335.

  61. 鲁婷, 陈能汪*,陈朱虹, 王龙剑,吴杰忠. 2013. 九龙江河流库区系统沉积物磷特征及其生态学意义, 环境科学,34(9): 3430–3436.

  62. 陈能汪*,吴杰忠,洪华生. 2011. 九龙江河口区夏季反硝化作用初探. 环境科学,32(11): 3229–3234.

  63. 陈能汪*, 吴杰忠, 段恒轶, 魏挺桢. 2010. N2:Ar 法直接测定水体反硝化产物溶解N2. 环境科学学报,30(12): 2479–2483.

专著:龙颖贤,陈能汪,周雯 () . 2022. 基于陆海统筹的近岸海域环境管控技术研究. 中国环境出版集团. ISBN 978-7-5111-5310-4

发明专利:陈能汪,余镒琦,李少斌,杨艾琳. 2023. 一种基于XGBoost模型的水质预测模型迁移条件选择方法. 授权专利号:ZL 2023 1 0353400.X.

开设课程

l 地学基础(本科生)

l 环境规划(本科生)

l 环境规划(研究生)

l 环境科学与工程前沿与进展(研究生)

科研课题

l 国家重点研发计划课题(2023YFC3804904基于多源数据融合与智能感知的示范区发展模拟器与决策支持平台. 2023.12-2027.11,主持

l 国家重点研发计划课题(2022YFF0802102生态系统对全球变化梯度的响应和适应. 2022.12-2027.11,参加

l 国家自然科学基金(42276171红树林-盐沼-河口系统关键氮碳耦合过程与碳汇调控机制,2023-2026,主持

l 国家自然科学基金(41976138红树林-河口系统氨氮的转化与横向输出,2020-2023,主持

l 国家自然科学基金(41676098亚热带河流-河口界面氨氮污染转运的主控过程,2017-2020,主持

l 国家自然科学基金(41376082亚热带暴雨事件的河海界面生物地球化学响应,2014-2017,主持

l 国家自然科学基金(41076042亚热带典型河流-河口系统氮的反硝化过程与调控,2011-2013,主持

l 国家自然科学基金国际(地区)合作与交流项目(51961125203中国-智利水环境管理比较研究:聚焦气候变化下流域生态与社会经济的可持续性,2020-2023. 参加

l 厦门南方海洋研究中心项目(14GST68NF32-河流入海通量在线监控关键技术研发及示范,2014-2017,专题负责

l 国家重点研发计划(2016YFC0502901-闽三角城市群生态安全保障及海岸带生态修复技术,2016-2019,子课题负责

荣誉奖励

l 2023,福建省高等学校科技创新团队“海岸带生态环境大数据与决策支撑”

l 2021,福建省高层次人才

l 2018,福建省硕士研究生导师团队

l 2016,福建省优秀硕士论文(20152039)“亚热带暴雨事件九龙江营养盐输出过程与河口响应”(作者吴殷琪,导师陈能汪)

l 2013,教育部新世纪优秀人才支持计划

l 2006,国家环境保护科学技术奖三等奖

 




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