Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network
Transboundary-local aerosols interaction requires to be comprehensively understood in urban air quality research. A year-long intensive observation of the atmospheric boundary layer (ABL) at multiple sites in Hong Kong was conducted using a four-Doppler Light Detection and Ranging (LiDAR) network wi...
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sg-ntu-dr.10356-1536862023-02-28T16:39:30Z Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network Huang, Tao Li, Yue Cheng, Jack C. H. Haywood, Jim Hon, K. K. Lam, David H. Y. Lee, Olivia S. M. Lolli, Simone O'Connor, Ewan James Lee, Harry F. Wang, Mengya Yim, Steve Hung Lam Asian School of the Environment Engineering::Environmental engineering Aerosol Doppler Light Detection and Ranging Transboundary-local aerosols interaction requires to be comprehensively understood in urban air quality research. A year-long intensive observation of the atmospheric boundary layer (ABL) at multiple sites in Hong Kong was conducted using a four-Doppler Light Detection and Ranging (LiDAR) network with different scanning modes. Results show that heterogeneity of the ABL in terms of mixing layer height and wind shear was induced by orographic topography. Interaction between local and advected aerosol layers during a transboundary air pollution (TAP) episode was identified by the network. During TAP episode, downward transport of transboundary aerosol relied on small scale eddies with weak wind speed in nighttime, while the transport of surface local aerosol to upper level was the dominated process in daytime, but the heterogeneity of the ABL affected by terrain determined the capacity of the mixing, eventually resulting in the opposite transport direction of aerosols in the transboundary-local aerosols interaction. Published version This study was jointly funded by Dr. Stanley Ho Medicine Development Foundation (Grant no. 8305509), the Vice-Chancellor’s Discretionary Fund of The Chinese University of Hong Kong (Grant no. 4930744), and the project from ENvironmental SUstainability and REsilience (EN-SURE) partnership between CUHK and UoE (http://www.exeter.ac.uk/cuhkpartnership/) 2021-12-13T07:55:27Z 2021-12-13T07:55:27Z 2021 Journal Article Huang, T., Li, Y., Cheng, J. C. H., Haywood, J., Hon, K. K., Lam, D. H. Y., Lee, O. S. M., Lolli, S., O'Connor, E. J., Lee, H. F., Wang, M. & Yim, S. H. L. (2021). Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network. Geophysical Research Letters, 48(12), e2021GL093238-. https://dx.doi.org/10.1029/2021GL093238 0094-8276 https://hdl.handle.net/10356/153686 10.1029/2021GL093238 2-s2.0-85108629026 12 48 e2021GL093238 en Geophysical Research Letters © 2021 American Geophysical Union. All Rights Reserved. This paper was published in Geophysical Research Letters and is made available with permission of American Geophysical Union. application/pdf |
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Engineering::Environmental engineering Aerosol Doppler Light Detection and Ranging |
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Engineering::Environmental engineering Aerosol Doppler Light Detection and Ranging Huang, Tao Li, Yue Cheng, Jack C. H. Haywood, Jim Hon, K. K. Lam, David H. Y. Lee, Olivia S. M. Lolli, Simone O'Connor, Ewan James Lee, Harry F. Wang, Mengya Yim, Steve Hung Lam Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| description |
Transboundary-local aerosols interaction requires to be comprehensively understood in urban air quality research. A year-long intensive observation of the atmospheric boundary layer (ABL) at multiple sites in Hong Kong was conducted using a four-Doppler Light Detection and Ranging (LiDAR) network with different scanning modes. Results show that heterogeneity of the ABL in terms of mixing layer height and wind shear was induced by orographic topography. Interaction between local and advected aerosol layers during a transboundary air pollution (TAP) episode was identified by the network. During TAP episode, downward transport of transboundary aerosol relied on small scale eddies with weak wind speed in nighttime, while the transport of surface local aerosol to upper level was the dominated process in daytime, but the heterogeneity of the ABL affected by terrain determined the capacity of the mixing, eventually resulting in the opposite transport direction of aerosols in the transboundary-local aerosols interaction. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Huang, Tao Li, Yue Cheng, Jack C. H. Haywood, Jim Hon, K. K. Lam, David H. Y. Lee, Olivia S. M. Lolli, Simone O'Connor, Ewan James Lee, Harry F. Wang, Mengya Yim, Steve Hung Lam |
| format |
Article |
| author |
Huang, Tao Li, Yue Cheng, Jack C. H. Haywood, Jim Hon, K. K. Lam, David H. Y. Lee, Olivia S. M. Lolli, Simone O'Connor, Ewan James Lee, Harry F. Wang, Mengya Yim, Steve Hung Lam |
| author_sort |
Huang, Tao |
| title |
Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| title_short |
Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| title_full |
Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| title_fullStr |
Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| title_full_unstemmed |
Assessing transboundary-local aerosols interaction over complex terrain using a doppler LiDAR network |
| title_sort |
assessing transboundary-local aerosols interaction over complex terrain using a doppler lidar network |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/153686 |
| _version_ |
1759853100917587968 |