王文彩

发布者:赵诗琳发布时间:2021-11-25浏览次数:9293


王文彩


副教授/系主任

中国海洋大学 海洋与大气学院

青岛市松岭路238号,266100

电话:+86-532-66781305-2

E-mailwangwc@ouc.edu.cn



教育经历:

2003/09-2007/06兰州大学  大气科学学院  学士

2007/09-2010/06兰州大学  大气科学学院  硕士

2010/09-2013/06兰州大学  大气科学学院  博士


工作经历:

2013/07-2016/07        中国海洋大学  海洋与大气学院  博士后

2013/07-2018/12        中国海洋大学 海洋与大气学院 讲师          

 2019/01-至今   中国海洋大学 海洋与大气学院 副教授

2022/06-至今    中国海洋大学  海洋气象学系系主任


主要项目:

2019/01-2022/12,国家自然科学基金面上项目“沙尘气溶胶中的可溶解铁对黄海海域叶绿素浓度影响的研究”,主持

2019/01-2022/12,国家自然科学基金面上项目“绿潮多发期黄海沿岸大气细粒子中有机胺的形成机制研究”,骨干

2018/01-2020/12,全球变化专项“西太平洋和北印度洋******研究”,骨干

2016/01-2018/12,国家自然科学基金青年基金项目“东亚沙尘的跨太平洋传输及对叶绿素浓度影响的研究”,主持

2015/07-2017/07,山东省自然科学基金项目“沙尘气溶胶对不同海域叶绿素浓度影响的研究”,主持

2017/01-2019/12国家自然科学基金青年基金项目“我国近海大气气溶胶老化过程对人为源排放细粒子中Fe溶解度的影响”,骨干

2016/01-2018/12国家自然科学基金青年基金项目“东海黑潮锋区低云的特征与影响机制研究” ,骨干



代表性文章:

  1. Li, Y., Wang, W*. Long-range transport of a dust event and impact on marine chlorophyll-a concentration in April 2023. (2024). Remote Sensing, 16, 1883. https://doi.org/10.3390/rs16111883.

  2. Liu, W., Wang, W*., Han, Y., Li, Y., He, Z., Zhao, Z., Sheng, L. (2024). Contribution of smoke aerosols from wildfires in Indo‐China Peninsula to the western Pacific Ocean carbon sink. Journal of Geophysical Research: Atmospheres, 129(9), e2023JD040398.

  3. Li, Y., Wang, W*, Han, Y., Liu, W., Wang, R., Zhang, R., ... & Zhou, Y. (2024). Impact of COVID-19 emission reduction on dust aerosols and marine chlorophyll-a concentration. Science of The Total Environment, 918, 170493.

  4. Zhao, Z., Wang, W*., Wang, Y., Sheng, L., Zhou, Y., & Teng, S. (2023). Reasons for low fraction of Arctic stratospheric cloud in 2014/2015 winter. Journal of Geophysical Research: Atmospheres, 128(23), e2023JD039549.

  5. Wang, W*., He, Z., Hai, S., Lifang, S., Han, Y., & Zhou, Y. (2022). Dust aerosol’s deposition and its effects on chlorophyll-a concentrations based on multi-sensor satellite observations and model simulations: A case study. Frontiers in Environmental Science, 10:875365.

  6. Wang W*, Luo C, Sheng L, Zhao C, Zhou Y, Chen Y. (2021). Effects of biomass burning on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observations and WRF-Chem model simulations: A case study. Atmospheric Research, 254:105526.

  7. Luo C, Wang W*, Sheng L, Zhou Y, Hu Z, Qu W, Li X, Hai S. (2020). Influence of polluted dust on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observation and the WRF-Chem simulation. Atmospheric Research, 236:104812.

  8. Zhao L, Wang W*, Hao T, Qu W, Sheng L, Luo C, An X, Zhou Y. (2020).The autumn haze-fog episode enhanced by the transport of dust aerosols in the Tianjin area. Atmospheric Environment,  237, 117669.

  9. Chai. Q., Wang. W*, Huang. Z. (2018). Analysing the cloud micro- and macro-physical properties of the cyclone eye wall and its surrounding spiral cloud bands based on CloudSat and TRMM data. Journal of Tropical Meteorology, 24(2): 253-262.

  10. Wang, W*., Sheng, L., Dong, X., Qu, W., Sun, J., Jin, H., Logan, T. (2017). Dust aerosol impact on the retrieval of cloud top height from satellite observations of CALIPSO, CloudSat and MODIS. Journal of Quantitative Spectroscopy and Radiative Transfer, 188: 132-141.

  11. Wang, W*., L. Sheng, H Jin, Y. Han. (2015). Dust Aerosol Effects on Cirrus and Altocumulus Clouds in Northwest China. Journal of Meteorological Research, 29 (5): 793-805.

  12. Huang, J., T. Wang, W. Wang, Z. Li, and H. Yan.(2014). Climate effects of dust aerosols over East Asian arid and semiarid regions, Journal of Geophysical Research: Atmospheres, 119, 11398–11416, doi:10.1002/2014JD021796.

  13. Wang, W., J. Huang, T. Zhou, J. Bi, L. Lin, Y. Chen, Z. Huang, J. Su. (2013). Estimation of radiative effect of a heavy dust storm over northwest China using Fu-Liou model and ground measurements. Journal of Quantitative Spectroscopy Radiative Transfer, 122: 114-126.

  14. Wang, W., J. Huang, P. Minnis, Y. Hu, J. Li, Z. Huang, J. K. Ayers, and T. Wang. (2010). Dusty cloud properties and radiative forcing over dust source and downwind regions derived from A-Train data during the Pacific Dust Experiment. Journal of Geophysical Research,  115(D4), D00H35, doi:10.1029/2010JD014109.

 

讲授课程:

本科:卫星气象学、遥感气象学、气象业务技能培训、气象台站实习。

研究生:气象卫星数据应用。


研究兴趣

气溶胶的环境和气候效应;气溶胶对海洋初级生产力影响;机器学习;极地平流层云。


荣誉与奖励:

山东省青年教师多媒体课件竞赛三等奖;

中国海洋大学优秀教师;

中国海洋大学年度课程教学优秀奖;

中国海洋大学本科毕业论文优秀指导教师;

中国海洋大学课程思政示范课;

中国海洋大学教师教学创新大赛二等奖;

全国农业教育优秀教材。


学术兼职

全国普通高等学校本科教育教学评估专家;

山东气象学会会员;

山东海洋湖沼学会会员;

Journal of Geophysical ResearchScience of the Total EnvironmentEnvironment InternationalAtmospheric Research等期刊审稿人。  




 Wencai Wang


Associate Professor

College of Oceanic and Atmospheric Sciences

Ocean University of China

238 Songling Rd, Qingdao 266100, China

Tel: +86-532-66781305-2

Email:wangwc@ouc.edu.cn


Education:

 09/2003-06/2007, B.S. in Applied Meteorology, Lanzhou University

 09/2007-06/2010, M.S. in Atmospheric physics, Lanzhou University

 09/2010-06/2013, Ph.D. in Atmospheric physics, Lanzhou University  


Employment:

07/2013-07/2016, Post-doctor. in Atmospheric physics, Ocean University of China

07/2013-12/2018, Lecture, Ocean University of China

01/2019-present, Associate Professor, Ocean University of China



Major Projects:

2019/01-2022/12NSFC project “Dissolved iron in dust aerosol’s and its effect on Chlorophyll-a concentration over Yellow sea”PI

2016/01-2018/12NSFC project “The Trans-Pacific transport of Asian dust and its effect on chlorophyll concentration”PI

2015/07-2017/07NSF of Shandong Province “Dust Aerosols effect on chlorophyll concentration over different ocean region”PI



Publications:

  1. Li, Y., Wang, W*. Long-range transport of a dust event and impact on marine chlorophyll-a concentration in April 2023. (2024). Remote Sensing, 16, 1883. https://doi.org/10.3390/rs16111883.

  2. Liu, W., Wang, W*., Han, Y., Li, Y., He, Z., Zhao, Z., Sheng, L. (2024). Contribution of smoke aerosols from wildfires in Indo‐China Peninsula to the western Pacific Ocean carbon sink. Journal of Geophysical Research: Atmospheres, 129(9), e2023JD040398.

  3. Li, Y., Wang, W*, Han, Y., Liu, W., Wang, R., Zhang, R., ... & Zhou, Y. (2024). Impact of COVID-19 emission reduction on dust aerosols and marine chlorophyll-a concentration. Science of The Total Environment, 918, 170493.

  4. Zhao, Z., Wang, W*., Wang, Y., Sheng, L., Zhou, Y., & Teng, S. (2023). Reasons for low fraction of Arctic stratospheric cloud in 2014/2015 winter. Journal of Geophysical Research: Atmospheres, 128(23), e2023JD039549.

  5. Wang, W*., He, Z., Hai, S., Lifang, S., Han, Y., & Zhou, Y. (2022). Dust aerosol’s deposition and its effects on chlorophyll-a concentrations based on multi-sensor satellite observations and model simulations: A case study. Frontiers in Environmental Science, 10:875365.

  6. Wang W*, Luo C, Sheng L, Zhao C, Zhou Y, Chen Y. (2021). Effects of biomass burning on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observations and WRF-Chem model simulations: A case study. Atmospheric Research, 254:105526.

  7. Luo C, Wang W*, Sheng L, Zhou Y, Hu Z, Qu W, Li X, Hai S. (2020). Influence of polluted dust on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observation and the WRF-Chem simulation. Atmospheric Research, 236:104812.

  8. Zhao L, Wang W*, Hao T, Qu W, Sheng L, Luo C, An X, Zhou Y. (2020).The autumn haze-fog episode enhanced by the transport of dust aerosols in the Tianjin area. Atmospheric Environment,  237, 117669.

  9. Chai. Q., Wang. W*, Huang. Z. (2018). Analysing the cloud micro- and macro-physical properties of the cyclone eye wall and its surrounding spiral cloud bands based on CloudSat and TRMM data. Journal of Tropical Meteorology, 24(2): 253-262.

  10. Wang, W*., Sheng, L., Dong, X., Qu, W., Sun, J., Jin, H., Logan, T. (2017). Dust aerosol impact on the retrieval of cloud top height from satellite observations of CALIPSO, CloudSat and MODIS. Journal of Quantitative Spectroscopy and Radiative Transfer, 188: 132-141.

  11. Wang, W*., L. Sheng, H Jin, Y. Han. (2015). Dust Aerosol Effects on Cirrus and Altocumulus Clouds in Northwest China. Journal of Meteorological Research, 29 (5): 793-805.

  12. Huang, J., T. Wang, W. Wang, Z. Li, and H. Yan.(2014). Climate effects of dust aerosols over East Asian arid and semiarid regions, Journal of Geophysical Research: Atmospheres, 119, 11398–11416, doi:10.1002/2014JD021796.

  13. Wang, W., J. Huang, T. Zhou, J. Bi, L. Lin, Y. Chen, Z. Huang, J. Su. (2013). Estimation of radiative effect of a heavy dust storm over northwest China using Fu-Liou model and ground measurements. Journal of Quantitative Spectroscopy Radiative Transfer, 122: 114-126.

  14. Wang, W., J. Huang, P. Minnis, Y. Hu, J. Li, Z. Huang, J. K. Ayers, and T. Wang. (2010). Dusty cloud properties and radiative forcing over dust source and downwind regions derived from A-Train data during the Pacific Dust Experiment. Journal of Geophysical Research,  115(D4), D00H35, doi:10.1029/2010JD014109.



Courses:

Undergraduate: Satellite Meteorology, Remote sensing meteorology, Skills training of meteorological business, Training of weather station.

Graduate: Application of meteorological satellite data.


Research Interests:

Aerosol’s effect on environmentand climate; Atmospheric aerosols and clouds; Aerosol’s effect on Marine ecosystems; Machine learning.



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