Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations

Aerosol vertical distribution plays a crucial role in cloud development and thus precipitation since both aerosol indirect and semi-direct effects significantly depend on the relative position of aerosol layer in reference to cloud, but its precise influence on cloud remains unclear. In this study,...

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Published in:Science of The Total Environment
Main Authors: Lin, Yun, Takano, Yoshihide, Gu, Yu, Wang, Yuan, Zhuo, Shujun, Zhang, Tianhao, Zhu, Kuilin, Wang, Jingyu, Zhao, Bin, Chen, Gang, Zhang, Damai, Fu, Rong, Seinfield John
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2023
Subjects:
Aerosol-cloud interactions
Aerosol vertical distribution types
Cloud microphysics
Raman Lidar
Continental-marine contrast
North Atlantic
Online Access:http://hdl.handle.net/10497/25803
https://doi.org/10.1016/j.scitotenv.2023.166582
id ftninstesingap:oai:repository.nie.edu.sg:10497/25803
record_format openpolar
spelling ftninstesingap:oai:repository.nie.edu.sg:10497/25803 2023-10-29T02:38:39+01:00 Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations Lin, Yun Takano, Yoshihide Gu, Yu Wang, Yuan Zhuo, Shujun Zhang, Tianhao Zhu, Kuilin Wang, Jingyu Zhao, Bin Chen, Gang Zhang, Damai Fu, Rong Seinfield John 2023 http://hdl.handle.net/10497/25803 https://doi.org/10.1016/j.scitotenv.2023.166582 en eng Elsevier Science of The Total Environment Lin, Y., Takano, Y., Gu, Y., Wang, Y., Zhou, S., Zhang, T., Zhu, K., Wang, J., Zhao, B., Chen, G., Zhang, D., Fu, R., & Seinfeld, J. (2023). Characterization of the aerosol vertical distributions and their impacts on warm clouds based on multi-year arm observations. Science of The Total Environment, 904. Article 166582. https://doi.org/10.1016/j.scitotenv.2023.166582 0048-9697 (print) 1879-1026 (online) http://hdl.handle.net/10497/25803 doi:10.1016/j.scitotenv.2023.166582 Embargo_20260102 Aerosol-cloud interactions Aerosol vertical distribution types Cloud microphysics Raman Lidar Continental-marine contrast Article 2023 ftninstesingap https://doi.org/10.1016/j.scitotenv.2023.166582 2023-10-03T17:56:27Z Aerosol vertical distribution plays a crucial role in cloud development and thus precipitation since both aerosol indirect and semi-direct effects significantly depend on the relative position of aerosol layer in reference to cloud, but its precise influence on cloud remains unclear. In this study, we integrated multi-year Raman Lidar measurements of aerosol vertical profiles from the U.S. Department of Energy Atmospheric Radiation Measurement (ARM) facility with available Value-Added Products of cloud features to characterize aerosol vertical distributions and their impacts on warm clouds over the continental and marine ARM atmospheric observatories, i.e., Southern Great Plains (SGP) and Eastern North Atlantic (ENA). A unimodal seasonal distribution of aerosol optical depths (AODs) with a peak in summer is found at upper boundary layer over SGP, while a bimodal distribution is observed at ENA for the AODs at lower levels with a major winter-spring maximum. The diurnal mean of upper-level AOD at SGP shows a maximum in the early evening. According to the relative positions of aerosol layers to clouds we further identify three primary types of aerosol vertical distribution, including Random, Decreasing, and Bottom. It is found that the impacts of aerosols on cloud may or may not vary with aerosol vertical distribution depending on environmental conditions, as reflected by the wide variations of the relations between AOD and cloud properties. For example, as AOD increases, the liquid water paths (LWPs) tend to be reduced at SGP but enhanced at ENA. The relations of cloud droplet effective radius with AOD largely depend on aerosol vertical distributions, particularly showing positive values in the Random type under low-LWP condition (<50 gm −2 ). The distinct features of aerosol-cloud interactions in relation to aerosol vertical distribution are likely attributed to the continental-marine contrast in thermodynamic environments and aerosol conditions between SGP and ENA. Accepted version Article in Journal/Newspaper North Atlantic National Institute of Education, Singapore: NIE Digital Repository Science of The Total Environment 904 166582
institution Open Polar
collection National Institute of Education, Singapore: NIE Digital Repository
op_collection_id ftninstesingap
language English
topic Aerosol-cloud interactions
Aerosol vertical distribution types
Cloud microphysics
Raman Lidar
Continental-marine contrast
spellingShingle Aerosol-cloud interactions
Aerosol vertical distribution types
Cloud microphysics
Raman Lidar
Continental-marine contrast
Lin, Yun
Takano, Yoshihide
Gu, Yu
Wang, Yuan
Zhuo, Shujun
Zhang, Tianhao
Zhu, Kuilin
Wang, Jingyu
Zhao, Bin
Chen, Gang
Zhang, Damai
Fu, Rong
Seinfield John
Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
topic_facet Aerosol-cloud interactions
Aerosol vertical distribution types
Cloud microphysics
Raman Lidar
Continental-marine contrast
description Aerosol vertical distribution plays a crucial role in cloud development and thus precipitation since both aerosol indirect and semi-direct effects significantly depend on the relative position of aerosol layer in reference to cloud, but its precise influence on cloud remains unclear. In this study, we integrated multi-year Raman Lidar measurements of aerosol vertical profiles from the U.S. Department of Energy Atmospheric Radiation Measurement (ARM) facility with available Value-Added Products of cloud features to characterize aerosol vertical distributions and their impacts on warm clouds over the continental and marine ARM atmospheric observatories, i.e., Southern Great Plains (SGP) and Eastern North Atlantic (ENA). A unimodal seasonal distribution of aerosol optical depths (AODs) with a peak in summer is found at upper boundary layer over SGP, while a bimodal distribution is observed at ENA for the AODs at lower levels with a major winter-spring maximum. The diurnal mean of upper-level AOD at SGP shows a maximum in the early evening. According to the relative positions of aerosol layers to clouds we further identify three primary types of aerosol vertical distribution, including Random, Decreasing, and Bottom. It is found that the impacts of aerosols on cloud may or may not vary with aerosol vertical distribution depending on environmental conditions, as reflected by the wide variations of the relations between AOD and cloud properties. For example, as AOD increases, the liquid water paths (LWPs) tend to be reduced at SGP but enhanced at ENA. The relations of cloud droplet effective radius with AOD largely depend on aerosol vertical distributions, particularly showing positive values in the Random type under low-LWP condition (<50 gm −2 ). The distinct features of aerosol-cloud interactions in relation to aerosol vertical distribution are likely attributed to the continental-marine contrast in thermodynamic environments and aerosol conditions between SGP and ENA. Accepted version
format Article in Journal/Newspaper
author Lin, Yun
Takano, Yoshihide
Gu, Yu
Wang, Yuan
Zhuo, Shujun
Zhang, Tianhao
Zhu, Kuilin
Wang, Jingyu
Zhao, Bin
Chen, Gang
Zhang, Damai
Fu, Rong
Seinfield John
author_facet Lin, Yun
Takano, Yoshihide
Gu, Yu
Wang, Yuan
Zhuo, Shujun
Zhang, Tianhao
Zhu, Kuilin
Wang, Jingyu
Zhao, Bin
Chen, Gang
Zhang, Damai
Fu, Rong
Seinfield John
author_sort Lin, Yun
title Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
title_short Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
title_full Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
title_fullStr Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
title_full_unstemmed Characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
title_sort characterization of the aerosol vertical distributions and their impacts onwarm clouds based on multi-year arm observations
publisher Elsevier
publishDate 2023
url http://hdl.handle.net/10497/25803
https://doi.org/10.1016/j.scitotenv.2023.166582
genre North Atlantic
genre_facet North Atlantic
op_relation Science of The Total Environment
Lin, Y., Takano, Y., Gu, Y., Wang, Y., Zhou, S., Zhang, T., Zhu, K., Wang, J., Zhao, B., Chen, G., Zhang, D., Fu, R., & Seinfeld, J. (2023). Characterization of the aerosol vertical distributions and their impacts on warm clouds based on multi-year arm observations. Science of The Total Environment, 904. Article 166582. https://doi.org/10.1016/j.scitotenv.2023.166582
0048-9697 (print)
1879-1026 (online)
http://hdl.handle.net/10497/25803
doi:10.1016/j.scitotenv.2023.166582
op_rights Embargo_20260102
op_doi https://doi.org/10.1016/j.scitotenv.2023.166582
container_title Science of The Total Environment
container_volume 904
container_start_page 166582
_version_ 1781064877077430272

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